TACC2 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following TACC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TACC2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu21946 NM_001291877.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$1079.50-$1511.30
$2159.00
OHu21950 NM_001291879.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu21950 XM_011539134.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X40, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu21950 XM_011539133.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu21948 NM_206860.3
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu106411 XM_024447766.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X35, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu106411 XM_024447767.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X36, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu106411 XM_024447768.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X37, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu90969 XM_017015493.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu90970 XM_017015494.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu90971 XM_017015495.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu90972 XM_017015496.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X34, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu90973 XM_017015497.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X35, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu90973 XM_017015498.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X36, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OHu90974 XM_017015499.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X38, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu106408 XM_024447763.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu106409 XM_024447764.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu106410 XM_024447765.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu90967 XM_017015491.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu90968 XM_017015492.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu21947 NM_006997.4
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu21949 NM_001291878.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu21951 NM_206861.3
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu64127 XM_011539128.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu64128 XM_011539129.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu64129 XM_011539130.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu64130 XM_011539131.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu64131 XM_011539132.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu107253 NM_206862.4
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu108196 NM_001291877.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu108200 NM_001291876.2
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu21945 NM_001291876.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu28256 NM_206862.3
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106402 XM_024447757.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106402 XM_024447756.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106403 XM_024447758.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106404 XM_024447759.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106405 XM_024447760.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106406 XM_024447761.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu106407 XM_024447762.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43927 XM_005269388.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43927 XM_005269389.4
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43928 XM_005269390.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43929 XM_005269391.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43930 XM_005269392.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43931 XM_005269393.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43932 XM_006717548.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43933 XM_005269394.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43934 XM_005269395.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43938 XM_005269396.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43939 XM_005269397.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43940 XM_006717552.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43941 XM_006717553.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43942 XM_006717554.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu43943 XM_005269399.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu64125 XM_011539126.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90960 XM_017015484.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90961 XM_017015485.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90962 XM_017015486.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90963 XM_017015487.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90964 XM_017015488.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90965 XM_017015489.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD Quote Price
OHu90966 XM_017015490.1
Latest version!
Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
View Old Accession Versions >>
OHu21950 XM_011539134.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X39, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu21949 NM_001291878.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu21951 NM_206861.2 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu90971 XM_017015495.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X33, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu64131 XM_011539132.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu21950 NM_001291879.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $307.30
$439.00
OHu21947 NM_006997.3 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu21948 NM_206860.2 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu90969 XM_017015493.1 Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OHu21946
    Clone ID Related Accession (Same CDS sequence) NM_001291877.1
    Accession Version NM_001291877.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8628bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform f
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, BC144599.1, AC063960.10, AL135793.13 and R46074.1. Transcript Variant: This variant (6) lacks several internal exons and uses an alternate splice site in the CDS compared to variant 1. The encoded isoform (f) is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC144599.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCCGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGGTCAGCG
    AAAGATATTG GTCTTTGGAA GGCCATGATG CCTTCCTTAG ATACAGACAC ACTGGATGTT
    TTGGAAAGGA GAGTAGTCCT TATACAGCAT GAGTTCCTAC ATAAGAAAGA AGCAAATGGC
    CATTCCCGTT TTATGTACAG TTCACCTGTG GCAGATGATA TCATCCAGCC CGCTGCCCCC
    GCAGACCTGG AAAGCCCAAC CTTAGCTGCC TCTTCCTACC ACGGTGATGT TGTTGGCCAG
    GTCTCTACGG ATCTGATAGC CCAGAGGAGT TCCGATTCTG AAGAGGCATT TGAGACCCCG
    GAGTCAACGA CCCCTGTCAA AGCTCCGCCA GCTCCACCCC CACCACCCCC CGAAGTCATC
    CCAGAACCCG AGGTCAGCAC ACAGCCACCC CCGGAAGAAC CAGGATGTGG TTCTGAGACA
    GTCCCTGTCC CTGATGGCCC ACGGAGCGAC TCGGTGGAAG GAAGTCCCTT CCGTCCCCCG
    TCACACTCCT TCTCTGCCGT CTTCGATGAA GACAAGCCGA TAGCCAGCAG TGGGACTTAC
    AACTTGGACT TTGACAACAT TGAGCTTGTG GATACCTTTC AGACCTTGGA GCCTCGTGCC
    TCAGACGCTA AGAATCAGGA GGGCAAAGTG AACACACGGA GGAAGTCCAC GGATTCCGTC
    CCCATCTCTA AGTCTACACT GTCCCGGTCG CTCAGCCTGC AAGCCAGTGA CTTTGATGGT
    GCTTCTTCCT CAGGCAATCC CGAGGCCGTG GCCCTTGCCC CAGATGCATA TAGCACGGGT
    TCCAGCAGTG CTTCTAGTAC CCTTAAGCGA ACTAAAAAAC CGAGGCCGCC TTCCTTAAAA
    AAGAAACAGA CCACCAAGAA ACCCACAGAG ACCCCCCCAG TGAAGGAGAC GCAACAGGAG
    CCAGATGAAG AGAGCCTTGT CCCCAGTGGG GAGAATCTAG CATCTGAGAC GAAAACGGAA
    TCTGCCAAGA CGGAAGGTCC TAGCCCAGCC TTATTGGAGG AGACGCCCCT TGAGCCCGCT
    GTGGGGCCCA AAGCTGCCTG CCCTCTGGAC TCAGAGAGTG CAGAAGGGGT TGTCCCCCCG
    GCTTCTGGAG GTGGCAGAGT GCAGAACTCA CCCCCTGTCG GGAGGAAAAC GCTGCCTCTT
    ACCACGGCCC CGGAGGCAGG GGAGGTAACC CCATCGGATA GCGGGGGGCA AGAGGACTCT
    CCAGCCAAAG GGCTCTCCGT AAGGCTGGAG TTTGACTATT CTGAGGACAA GAGTAGTTGG
    GACAACCAGC AGGAAAACCC CCCTCCTACC AAAAAGATAG GCAAAAAGCC AGTTGCCAAA
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278806.1
    CDS361..8988
    Translation

    Target ORF information:

    RefSeq Version NM_001291877.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291877.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCCGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGGTCAGCG
    AAAGATATTG GTCTTTGGAA GGCCATGATG CCTTCCTTAG ATACAGACAC ACTGGATGTT
    TTGGAAAGGA GAGTAGTCCT TATACAGCAT GAGTTCCTAC ATAAGAAAGA AGCAAATGGC
    CATTCCCGTT TTATGTACAG TTCACCTGTG GCAGATGATA TCATCCAGCC CGCTGCCCCC
    GCAGACCTGG AAAGCCCAAC CTTAGCTGCC TCTTCCTACC ACGGTGATGT TGTTGGCCAG
    GTCTCTACGG ATCTGATAGC CCAGAGGAGT TCCGATTCTG AAGAGGCATT TGAGACCCCG
    GAGTCAACGA CCCCTGTCAA AGCTCCGCCA GCTCCACCCC CACCACCCCC CGAAGTCATC
    CCAGAACCCG AGGTCAGCAC ACAGCCACCC CCGGAAGAAC CAGGATGTGG TTCTGAGACA
    GTCCCTGTCC CTGATGGCCC ACGGAGCGAC TCGGTGGAAG GAAGTCCCTT CCGTCCCCCG
    TCACACTCCT TCTCTGCCGT CTTCGATGAA GACAAGCCGA TAGCCAGCAG TGGGACTTAC
    AACTTGGACT TTGACAACAT TGAGCTTGTG GATACCTTTC AGACCTTGGA GCCTCGTGCC
    TCAGACGCTA AGAATCAGGA GGGCAAAGTG AACACACGGA GGAAGTCCAC GGATTCCGTC
    CCCATCTCTA AGTCTACACT GTCCCGGTCG CTCAGCCTGC AAGCCAGTGA CTTTGATGGT
    GCTTCTTCCT CAGGCAATCC CGAGGCCGTG GCCCTTGCCC CAGATGCATA TAGCACGGGT
    TCCAGCAGTG CTTCTAGTAC CCTTAAGCGA ACTAAAAAAC CGAGGCCGCC TTCCTTAAAA
    AAGAAACAGA CCACCAAGAA ACCCACAGAG ACCCCCCCAG TGAAGGAGAC GCAACAGGAG
    CCAGATGAAG AGAGCCTTGT CCCCAGTGGG GAGAATCTAG CATCTGAGAC GAAAACGGAA
    TCTGCCAAGA CGGAAGGTCC TAGCCCAGCC TTATTGGAGG AGACGCCCCT TGAGCCCGCT
    GTGGGGCCCA AAGCTGCCTG CCCTCTGGAC TCAGAGAGTG CAGAAGGGGT TGTCCCCCCG
    GCTTCTGGAG GTGGCAGAGT GCAGAACTCA CCCCCTGTCG GGAGGAAAAC GCTGCCTCTT
    ACCACGGCCC CGGAGGCAGG GGAGGTAACC CCATCGGATA GCGGGGGGCA AGAGGACTCT
    CCAGCCAAAG GGCTCTCCGT AAGGCTGGAG TTTGACTATT CTGAGGACAA GAGTAGTTGG
    GACAACCAGC AGGAAAACCC CCCTCCTACC AAAAAGATAG GCAAAAAGCC AGTTGCCAAA
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21950
    Clone ID Related Accession (Same CDS sequence) XM_011539134.1 , XM_011539133.1 , XM_011539134.2 , NM_001291879.1 , NM_001291879.2
    Accession Version NM_001291879.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1728bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform h
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC015736.1, AC063960.10, AL135793.13 and R46074.1. Transcript Variant: This variant (8) differs in the 5' UTR and coding region and lacks two internal coding exons compared to variant 1. These differences result in the use of a downstream AUG compared to variant 1. The encoded isoform (h) has a shorter N-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC015736.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278808.1
    CDS1472..3199
    Translation

    Target ORF information:

    RefSeq Version NM_001291879.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291879.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21950
    Clone ID Related Accession (Same CDS sequence) XM_011539134.1 , XM_011539133.1 , XM_011539134.2 , NM_001291879.1 , NM_001291879.2
    Accession Version NM_001291879.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1728bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform h
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC063960.10, BC015736.1, AL135793.13 and R46074.1. On May 31, 2019 this sequence version replaced NM_001291879.1. Transcript Variant: This variant (8) differs in the 5' UTR and coding region and lacks two internal coding exons compared to variant 1. These differences result in the use of a downstream AUG compared to variant 1. The encoded isoform (h) has a shorter N-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC015736.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278808.1
    CDS1626..3353
    Translation

    Target ORF information:

    RefSeq Version NM_001291879.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291879.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21950
    Clone ID Related Accession (Same CDS sequence) XM_011539134.1 , XM_011539133.1 , XM_011539134.2 , NM_001291879.1 , NM_001291879.2
    Accession Version XM_011539134.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1728bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X36
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537436.1
    CDS1696..3423
    Translation

    Target ORF information:

    RefSeq Version XM_011539134.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539134.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21950
    Clone ID Related Accession (Same CDS sequence) XM_011539134.1 , XM_011539133.1 , XM_011539134.2 , NM_001291879.1 , NM_001291879.2
    Accession Version XM_011539133.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1728bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X36
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537435.1
    CDS1425..3152
    Translation

    Target ORF information:

    RefSeq Version XM_011539133.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X39, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539133.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21950
    Clone ID Related Accession (Same CDS sequence) XM_011539134.1 , XM_011539133.1 , XM_011539134.2 , NM_001291879.1 , NM_001291879.2
    Accession Version XM_011539134.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1728bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X36
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011539134.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537436.1
    CDS1460..3187
    Translation

    Target ORF information:

    RefSeq Version XM_011539134.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X40, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539134.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21948
    Clone ID Related Accession (Same CDS sequence) NM_206860.2 , NM_206860.3
    Accession Version NM_206860.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2991bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, AL135793.13 and R46074.1. On May 6, 2014 this sequence version replaced NM_206860.1. Transcript Variant: This variant (3) uses a different structure for its 5' UTR and 5' coding region, and also lacks an internal coding exon compared to variant 1. The resulting protein (isoform c) is shorter and has a distinct N-terminus compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC039311.1, SRR1803612.2470.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2145743 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GAGAGAGGCT
    GCTCACCCAA CAGACGTCTC CATCTCCAAA ACAGCCTTGT ACTCCCGCAT CGGGACCGCT
    GAGGTGGAGA AACCTGCAGG CCTTCTGTTC CAGCAGCCCG ACCTGGACTC TGCCCTCCAG
    ATCGCCAGAG CAGAGATCAT AACCAAGGAG AGAGAGGTCT CAGAATGGAA AGATAAATAT
    GAAGAAAGCA GGCGGGAAGT GATGGAAATG AGGAAAATAG TGGCCGAGTA TGAGAAGACC
    ATCGCTCAGA TGATAGAGGA CGAACAGAGA GAGAAGTCAG TCTCCCACCA GACGGTGCAG
    CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG GCCGACCTGA ACTCCGTGGA GAAGTCTCTG
    GCCGACCTCT TCAGAAGATA TGAGAAGATG AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT
    GAAGAGGTGT TGAAGAGATG TGCGCAGGAG TACCTGTCCC GGGTGAAGAA GGAGGAGCAG
    AGGTACCAGG CCCTGAAGGT GCACGCGGAG GAGAAACTGG ACAGGGCCAA TGCTGAGATT
    GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG
    GAGCAGCTGC GAGTGGACGC CCTGGAAAGG ACGCTGGAGC AGAAGAATAA AGAAATAGAA
    GAACTCACCA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_996742.1
    CDS500..3490
    Translation

    Target ORF information:

    RefSeq Version NM_206860.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206860.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GAGAGAGGCT
    GCTCACCCAA CAGACGTCTC CATCTCCAAA ACAGCCTTGT ACTCCCGCAT CGGGACCGCT
    GAGGTGGAGA AACCTGCAGG CCTTCTGTTC CAGCAGCCCG ACCTGGACTC TGCCCTCCAG
    ATCGCCAGAG CAGAGATCAT AACCAAGGAG AGAGAGGTCT CAGAATGGAA AGATAAATAT
    GAAGAAAGCA GGCGGGAAGT GATGGAAATG AGGAAAATAG TGGCCGAGTA TGAGAAGACC
    ATCGCTCAGA TGATAGAGGA CGAACAGAGA GAGAAGTCAG TCTCCCACCA GACGGTGCAG
    CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG GCCGACCTGA ACTCCGTGGA GAAGTCTCTG
    GCCGACCTCT TCAGAAGATA TGAGAAGATG AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT
    GAAGAGGTGT TGAAGAGATG TGCGCAGGAG TACCTGTCCC GGGTGAAGAA GGAGGAGCAG
    AGGTACCAGG CCCTGAAGGT GCACGCGGAG GAGAAACTGG ACAGGGCCAA TGCTGAGATT
    GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG
    GAGCAGCTGC GAGTGGACGC CCTGGAAAGG ACGCTGGAGC AGAAGAATAA AGAAATAGAA
    GAACTCACCA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21948
    Clone ID Related Accession (Same CDS sequence) NM_206860.2 , NM_206860.3
    Accession Version NM_206860.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2991bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, AL135793.13 and R46074.1. On May 31, 2019 this sequence version replaced NM_206860.2. Transcript Variant: This variant (3) uses a different structure for its 5' UTR and 5' coding region, and also lacks an internal coding exon compared to variant 1. The resulting protein (isoform c) is shorter and has a distinct N-terminus compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC039311.1, SRR1803615.93630.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2145743 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GAGAGAGGCT
    GCTCACCCAA CAGACGTCTC CATCTCCAAA ACAGCCTTGT ACTCCCGCAT CGGGACCGCT
    GAGGTGGAGA AACCTGCAGG CCTTCTGTTC CAGCAGCCCG ACCTGGACTC TGCCCTCCAG
    ATCGCCAGAG CAGAGATCAT AACCAAGGAG AGAGAGGTCT CAGAATGGAA AGATAAATAT
    GAAGAAAGCA GGCGGGAAGT GATGGAAATG AGGAAAATAG TGGCCGAGTA TGAGAAGACC
    ATCGCTCAGA TGATAGAGGA CGAACAGAGA GAGAAGTCAG TCTCCCACCA GACGGTGCAG
    CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG GCCGACCTGA ACTCCGTGGA GAAGTCTCTG
    GCCGACCTCT TCAGAAGATA TGAGAAGATG AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT
    GAAGAGGTGT TGAAGAGATG TGCGCAGGAG TACCTGTCCC GGGTGAAGAA GGAGGAGCAG
    AGGTACCAGG CCCTGAAGGT GCACGCGGAG GAGAAACTGG ACAGGGCCAA TGCTGAGATT
    GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG
    GAGCAGCTGC GAGTGGACGC CCTGGAAAGG ACGCTGGAGC AGAAGAATAA AGAAATAGAA
    GAACTCACCA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_996742.1
    CDS296..3286
    Translation

    Target ORF information:

    RefSeq Version NM_206860.3
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206860.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GAGAGAGGCT
    GCTCACCCAA CAGACGTCTC CATCTCCAAA ACAGCCTTGT ACTCCCGCAT CGGGACCGCT
    GAGGTGGAGA AACCTGCAGG CCTTCTGTTC CAGCAGCCCG ACCTGGACTC TGCCCTCCAG
    ATCGCCAGAG CAGAGATCAT AACCAAGGAG AGAGAGGTCT CAGAATGGAA AGATAAATAT
    GAAGAAAGCA GGCGGGAAGT GATGGAAATG AGGAAAATAG TGGCCGAGTA TGAGAAGACC
    ATCGCTCAGA TGATAGAGGA CGAACAGAGA GAGAAGTCAG TCTCCCACCA GACGGTGCAG
    CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG GCCGACCTGA ACTCCGTGGA GAAGTCTCTG
    GCCGACCTCT TCAGAAGATA TGAGAAGATG AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT
    GAAGAGGTGT TGAAGAGATG TGCGCAGGAG TACCTGTCCC GGGTGAAGAA GGAGGAGCAG
    AGGTACCAGG CCCTGAAGGT GCACGCGGAG GAGAAACTGG ACAGGGCCAA TGCTGAGATT
    GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG
    GAGCAGCTGC GAGTGGACGC CCTGGAAAGG ACGCTGGAGC AGAAGAATAA AGAAATAGAA
    GAACTCACCA AGATTTGTGA CGAACTGATT GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106411
    Clone ID Related Accession (Same CDS sequence) XM_024447768.1 , XM_024447766.1 , XM_024447767.1
    Accession Version XM_024447768.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2088bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X34
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303536.1
    CDS1561..3648
    Translation

    Target ORF information:

    RefSeq Version XM_024447768.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X37, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447768.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106411
    Clone ID Related Accession (Same CDS sequence) XM_024447768.1 , XM_024447766.1 , XM_024447767.1
    Accession Version XM_024447766.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2088bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X34
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303534.1
    CDS1425..3512
    Translation

    Target ORF information:

    RefSeq Version XM_024447766.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X35, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447766.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106411
    Clone ID Related Accession (Same CDS sequence) XM_024447768.1 , XM_024447766.1 , XM_024447767.1
    Accession Version XM_024447767.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2088bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X34
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303535.1
    CDS1696..3783
    Translation

    Target ORF information:

    RefSeq Version XM_024447767.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X36, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447767.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGGTAAGC AACTCTGTAG CCAGCTGGAC
    CCCCACTCTG CCTCGGAGAA TCCTGCCCCT AGGGAGCCAA AGGCCAGGAG AGAAACTTCT
    CAGCCAGAGT TGGATTACAG AAACTCCTAT GAAATTGAAT ATATGGAGAA AATTGGCTCC
    TCCTTACCTC AGGACGACGA TGCCCCGAAG AAGCAGGCCT TGTACCTTAT GTTTGACACT
    TCTCAGGAGA GCCCTGTCAA GTCATCTCCC GTCCGCATGT CAGAGTCCCC GACGCCGTGT
    TCAGGGTCAA GTTTTGAAGA GACTGAAGCC CTTGTGAACA CTGCTGCGAA AAACCAGCAT
    CCTGTCCCAC GAGGACTGGC CCCTAACCAA GAGTCACACT TGCAGGTGCC AGAGAAATCC
    TCCCAGAAGG AGCTGGAGGC CATGGGCTTG GGCACCCCTT CAGAAGCGAT TGAAATTACA
    GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC GCCCTCCTCA GCAGGCTAGC TCACCCCGTC
    TCTCTCTGTG GTGCACTTGA CTATCTGGAG CCCGACTTAG CAGAAAAGAA CCCCCCACTA
    TTCGCTCAGA AACTCCAGGA GGAGTTAGAG TTTGCCATCA TGCGGATAGA AGCCCTGAAG
    CTGGCCAGGC AGATTGCTTT GGCTTCCCGC AGCCACCAGG ATGCCAAGAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90969
    Clone ID Related Accession (Same CDS sequence) XM_017015493.1 , XM_017015493.2
    Accession Version XM_017015493.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2979bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGGT GAAAAAGTCG CCAAAACGGT CTCCTCTCTC TGATCCACCT
    TCCCAGGACC CCACCCCAGC TGCTACACCA GAAACACCAC CAGTGATCTC TGCGGTGGTC
    CACGCCACAG ATGAGGAAAA GCTGGCGGTC ACCAACCAGA AGTGGACGTG CATGACAGTG
    GACCTAGAGG CTGACAAACA GGACTACCCG CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC
    GAGACCAAAT TCAGTTCACC CACTGAGGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGA GAGAGGCTGC TCACCCAACA
    GACGTCTCCA TCTCCAAAAC AGCCTTGTAC TCCCGCATCG GGACCGCTGA GGTGGAGAAA
    CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC CTGGACTCTG CCCTCCAGAT CGCCAGAGCA
    GAGATCATAA CCAAGGAGAG AGAGGTCTCA GAATGGAAAG ATAAATATGA AGAAAGCAGG
    CGGGAAGTGA TGGAAATGAG GAAAATAGTG GCCGAGTATG AGAAGACCAT CGCTCAGATG
    ATAGAGGACG AACAGAGAGA GAAGTCAGTC TCCCACCAGA CGGTGCAGCA GCTGGTTCTG
    GAGAAGGAGC AAGCCCTGGC CGACCTGAAC TCCGTGGAGA AGTCTCTGGC CGACCTCTTC
    AGAAGATATG AGAAGATGAA GGAGGTCCTA GAAGGCTTCC GCAAGAATGA AGAGGTGTTG
    AAGAGATGTG CGCAGGAGTA CCTGTCCCGG GTGAAGAAGG AGGAGCAGAG GTACCAGGCC
    CTGAAGGTGC ACGCGGAGGA GAAACTGGAC AGGGCCAATG CTGAGATTGC TCAGGTTCGA
    GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA
    GTGGACGCCC TGGAAAGGAC GCTGGAGCAG AAGAATAAAG AAATAGAAGA ACTCACCAAG
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870982.1
    CDS362..3340
    Translation

    Target ORF information:

    RefSeq Version XM_017015493.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015493.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGGT GAAAAAGTCG CCAAAACGGT CTCCTCTCTC TGATCCACCT
    TCCCAGGACC CCACCCCAGC TGCTACACCA GAAACACCAC CAGTGATCTC TGCGGTGGTC
    CACGCCACAG ATGAGGAAAA GCTGGCGGTC ACCAACCAGA AGTGGACGTG CATGACAGTG
    GACCTAGAGG CTGACAAACA GGACTACCCG CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC
    GAGACCAAAT TCAGTTCACC CACTGAGGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGA GAGAGGCTGC TCACCCAACA
    GACGTCTCCA TCTCCAAAAC AGCCTTGTAC TCCCGCATCG GGACCGCTGA GGTGGAGAAA
    CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC CTGGACTCTG CCCTCCAGAT CGCCAGAGCA
    GAGATCATAA CCAAGGAGAG AGAGGTCTCA GAATGGAAAG ATAAATATGA AGAAAGCAGG
    CGGGAAGTGA TGGAAATGAG GAAAATAGTG GCCGAGTATG AGAAGACCAT CGCTCAGATG
    ATAGAGGACG AACAGAGAGA GAAGTCAGTC TCCCACCAGA CGGTGCAGCA GCTGGTTCTG
    GAGAAGGAGC AAGCCCTGGC CGACCTGAAC TCCGTGGAGA AGTCTCTGGC CGACCTCTTC
    AGAAGATATG AGAAGATGAA GGAGGTCCTA GAAGGCTTCC GCAAGAATGA AGAGGTGTTG
    AAGAGATGTG CGCAGGAGTA CCTGTCCCGG GTGAAGAAGG AGGAGCAGAG GTACCAGGCC
    CTGAAGGTGC ACGCGGAGGA GAAACTGGAC AGGGCCAATG CTGAGATTGC TCAGGTTCGA
    GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA
    GTGGACGCCC TGGAAAGGAC GCTGGAGCAG AAGAATAAAG AAATAGAAGA ACTCACCAAG
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90969
    Clone ID Related Accession (Same CDS sequence) XM_017015493.1 , XM_017015493.2
    Accession Version XM_017015493.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2979bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X31
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017015493.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGGT GAAAAAGTCG CCAAAACGGT CTCCTCTCTC TGATCCACCT
    TCCCAGGACC CCACCCCAGC TGCTACACCA GAAACACCAC CAGTGATCTC TGCGGTGGTC
    CACGCCACAG ATGAGGAAAA GCTGGCGGTC ACCAACCAGA AGTGGACGTG CATGACAGTG
    GACCTAGAGG CTGACAAACA GGACTACCCG CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC
    GAGACCAAAT TCAGTTCACC CACTGAGGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGA GAGAGGCTGC TCACCCAACA
    GACGTCTCCA TCTCCAAAAC AGCCTTGTAC TCCCGCATCG GGACCGCTGA GGTGGAGAAA
    CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC CTGGACTCTG CCCTCCAGAT CGCCAGAGCA
    GAGATCATAA CCAAGGAGAG AGAGGTCTCA GAATGGAAAG ATAAATATGA AGAAAGCAGG
    CGGGAAGTGA TGGAAATGAG GAAAATAGTG GCCGAGTATG AGAAGACCAT CGCTCAGATG
    ATAGAGGACG AACAGAGAGA GAAGTCAGTC TCCCACCAGA CGGTGCAGCA GCTGGTTCTG
    GAGAAGGAGC AAGCCCTGGC CGACCTGAAC TCCGTGGAGA AGTCTCTGGC CGACCTCTTC
    AGAAGATATG AGAAGATGAA GGAGGTCCTA GAAGGCTTCC GCAAGAATGA AGAGGTGTTG
    AAGAGATGTG CGCAGGAGTA CCTGTCCCGG GTGAAGAAGG AGGAGCAGAG GTACCAGGCC
    CTGAAGGTGC ACGCGGAGGA GAAACTGGAC AGGGCCAATG CTGAGATTGC TCAGGTTCGA
    GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA
    GTGGACGCCC TGGAAAGGAC GCTGGAGCAG AAGAATAAAG AAATAGAAGA ACTCACCAAG
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870982.1
    CDS248..3226
    Translation

    Target ORF information:

    RefSeq Version XM_017015493.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015493.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGGT GAAAAAGTCG CCAAAACGGT CTCCTCTCTC TGATCCACCT
    TCCCAGGACC CCACCCCAGC TGCTACACCA GAAACACCAC CAGTGATCTC TGCGGTGGTC
    CACGCCACAG ATGAGGAAAA GCTGGCGGTC ACCAACCAGA AGTGGACGTG CATGACAGTG
    GACCTAGAGG CTGACAAACA GGACTACCCG CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC
    GAGACCAAAT TCAGTTCACC CACTGAGGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGA GAGAGGCTGC TCACCCAACA
    GACGTCTCCA TCTCCAAAAC AGCCTTGTAC TCCCGCATCG GGACCGCTGA GGTGGAGAAA
    CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC CTGGACTCTG CCCTCCAGAT CGCCAGAGCA
    GAGATCATAA CCAAGGAGAG AGAGGTCTCA GAATGGAAAG ATAAATATGA AGAAAGCAGG
    CGGGAAGTGA TGGAAATGAG GAAAATAGTG GCCGAGTATG AGAAGACCAT CGCTCAGATG
    ATAGAGGACG AACAGAGAGA GAAGTCAGTC TCCCACCAGA CGGTGCAGCA GCTGGTTCTG
    GAGAAGGAGC AAGCCCTGGC CGACCTGAAC TCCGTGGAGA AGTCTCTGGC CGACCTCTTC
    AGAAGATATG AGAAGATGAA GGAGGTCCTA GAAGGCTTCC GCAAGAATGA AGAGGTGTTG
    AAGAGATGTG CGCAGGAGTA CCTGTCCCGG GTGAAGAAGG AGGAGCAGAG GTACCAGGCC
    CTGAAGGTGC ACGCGGAGGA GAAACTGGAC AGGGCCAATG CTGAGATTGC TCAGGTTCGA
    GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA
    GTGGACGCCC TGGAAAGGAC GCTGGAGCAG AAGAATAAAG AAATAGAAGA ACTCACCAAG
    ATTTGTGACG AACTGATTGC CAAAATGGGG AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90970
    Clone ID Related Accession (Same CDS sequence) XM_017015494.1
    Accession Version XM_017015494.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2901bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870983.1
    CDS451..3351
    Translation

    Target ORF information:

    RefSeq Version XM_017015494.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015494.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90971
    Clone ID Related Accession (Same CDS sequence) XM_017015495.1 , XM_017015495.2
    Accession Version XM_017015495.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2850bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870984.1
    CDS362..3211
    Translation

    Target ORF information:

    RefSeq Version XM_017015495.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X33, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015495.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90971
    Clone ID Related Accession (Same CDS sequence) XM_017015495.1 , XM_017015495.2
    Accession Version XM_017015495.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2850bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X33
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017015495.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870984.1
    CDS248..3097
    Translation

    Target ORF information:

    RefSeq Version XM_017015495.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015495.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90972
    Clone ID Related Accession (Same CDS sequence) XM_017015496.1
    Accession Version XM_017015496.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2052bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X33
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGGT
    AAGCAACTCT GTAGCCAGCT GGACCCCCAC TCTGCCTCGG AGAATCCTGC CCCTAGGGAG
    CCAAAGGCCA GGAGAGAAAC TTCTCAGCCA GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TACAGCTCCC GAGGGCTCCT TTGCCTCTGC TGACGCCCTC
    CTCAGCAGGC TAGCTCACCC CGTCTCTCTC TGTGGTGCAC TTGACTATCT GGAGCCCGAC
    TTAGCAGAAA AGAACCCCCC ACTATTCGCT CAGAAACTCC AGGAGGAGTT AGAGTTTGCC
    ATCATGCGGA TAGAAGCCCT GAAGCTGGCC AGGCAGATTG CTTTGGCTTC CCGCAGCCAC
    CAGGATGCCA AGAGAGAGGC TGCTCACCCA ACAGACGTCT CCATCTCCAA AACAGCCTTG
    TACTCCCGCA TCGGGACCGC TGAGGTGGAG AAACCTGCAG GCCTTCTGTT CCAGCAGCCC
    GACCTGGACT CTGCCCTCCA GATCGCCAGA GCAGAGATCA TAACCAAGGA GAGAGAGGTC
    TCAGAATGGA AAGATAAATA TGAAGAAAGC AGGCGGGAAG TGATGGAAAT GAGGAAAATA
    GTGGCCGAGT ATGAGAAGAC CATCGCTCAG ATGATAGAGG ACGAACAGAG AGAGAAGTCA
    GTCTCCCACC AGACGGTGCA GCAGCTGGTT CTGGAGAAGG AGCAAGCCCT GGCCGACCTG
    AACTCCGTGG AGAAGTCTCT GGCCGACCTC TTCAGAAGAT ATGAGAAGAT GAAGGAGGTC
    CTAGAAGGCT TCCGCAAGAA TGAAGAGGTG TTGAAGAGAT GTGCGCAGGA GTACCTGTCC
    CGGGTGAAGA AGGAGGAGCA GAGGTACCAG GCCCTGAAGG TGCACGCGGA GGAGAAACTG
    GACAGGGCCA ATGCTGAGAT TGCTCAGGTT CGAGGCAAGG CCCAGCAGGA GCAAGCCGCC
    CACCAGGCCA GCCTGCGGAA GGAGCAGCTG CGAGTGGACG CCCTGGAAAG GACGCTGGAG
    CAGAAGAATA AAGAAATAGA AGAACTCACC AAGATTTGTG ACGAACTGAT TGCCAAAATG
    GGGAAAAGCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870985.1
    CDS1425..3476
    Translation

    Target ORF information:

    RefSeq Version XM_017015496.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X34, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015496.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGGT
    AAGCAACTCT GTAGCCAGCT GGACCCCCAC TCTGCCTCGG AGAATCCTGC CCCTAGGGAG
    CCAAAGGCCA GGAGAGAAAC TTCTCAGCCA GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TACAGCTCCC GAGGGCTCCT TTGCCTCTGC TGACGCCCTC
    CTCAGCAGGC TAGCTCACCC CGTCTCTCTC TGTGGTGCAC TTGACTATCT GGAGCCCGAC
    TTAGCAGAAA AGAACCCCCC ACTATTCGCT CAGAAACTCC AGGAGGAGTT AGAGTTTGCC
    ATCATGCGGA TAGAAGCCCT GAAGCTGGCC AGGCAGATTG CTTTGGCTTC CCGCAGCCAC
    CAGGATGCCA AGAGAGAGGC TGCTCACCCA ACAGACGTCT CCATCTCCAA AACAGCCTTG
    TACTCCCGCA TCGGGACCGC TGAGGTGGAG AAACCTGCAG GCCTTCTGTT CCAGCAGCCC
    GACCTGGACT CTGCCCTCCA GATCGCCAGA GCAGAGATCA TAACCAAGGA GAGAGAGGTC
    TCAGAATGGA AAGATAAATA TGAAGAAAGC AGGCGGGAAG TGATGGAAAT GAGGAAAATA
    GTGGCCGAGT ATGAGAAGAC CATCGCTCAG ATGATAGAGG ACGAACAGAG AGAGAAGTCA
    GTCTCCCACC AGACGGTGCA GCAGCTGGTT CTGGAGAAGG AGCAAGCCCT GGCCGACCTG
    AACTCCGTGG AGAAGTCTCT GGCCGACCTC TTCAGAAGAT ATGAGAAGAT GAAGGAGGTC
    CTAGAAGGCT TCCGCAAGAA TGAAGAGGTG TTGAAGAGAT GTGCGCAGGA GTACCTGTCC
    CGGGTGAAGA AGGAGGAGCA GAGGTACCAG GCCCTGAAGG TGCACGCGGA GGAGAAACTG
    GACAGGGCCA ATGCTGAGAT TGCTCAGGTT CGAGGCAAGG CCCAGCAGGA GCAAGCCGCC
    CACCAGGCCA GCCTGCGGAA GGAGCAGCTG CGAGTGGACG CCCTGGAAAG GACGCTGGAG
    CAGAAGAATA AAGAAATAGA AGAACTCACC AAGATTTGTG ACGAACTGAT TGCCAAAATG
    GGGAAAAGCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90973
    Clone ID Related Accession (Same CDS sequence) XM_017015497.1 , XM_017015498.1
    Accession Version XM_017015497.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2040bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X34
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGGTAA GCAACTCTGT
    AGCCAGCTGG ACCCCCACTC TGCCTCGGAG AATCCTGCCC CTAGGGAGCC AAAGGCCAGG
    AGAGAAACTT CTCAGCCAGA GTTGGATTAC AGAAACTCCT ATGAAATTGA ATATATGGAG
    AAAATTGGCT CCTCCTTACC TCAGGACGAC GATGCCCCGA AGAAGCAGGC CTTGTACCTT
    ATGTTTGACA CTTCTCAGGA GAGCCCTGTC AAGTCATCTC CCGTCCGCAT GTCAGAGTCC
    CCGACGCCGT GTTCAGGGTC AAGTTTTGAA GAGACTGAAG CCCTTGTGAA CACTGCTGCG
    AAAAACCAGC ATCCTGTCCC ACGAGGACTG GCCCCTAACC AAGAGTCACA CTTGCAGGTG
    CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG GCCATGGGCT TGGGCACCCC TTCAGAAGCG
    ATTGAAATTA CAGCTCCCGA GGGCTCCTTT GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA
    GCTCACCCCG TCTCTCTCTG TGGTGCACTT GACTATCTGG AGCCCGACTT AGCAGAAAAG
    AACCCCCCAC TATTCGCTCA GAAACTCCAG GAGGAGTTAG AGTTTGCCAT CATGCGGATA
    GAAGCCCTGA AGCTGGCCAG GCAGATTGCT TTGGCTTCCC GCAGCCACCA GGATGCCAAG
    AGAGAGGCTG CTCACCCAAC AGACGTCTCC ATCTCCAAAA CAGCCTTGTA CTCCCGCATC
    GGGACCGCTG AGGTGGAGAA ACCTGCAGGC CTTCTGTTCC AGCAGCCCGA CCTGGACTCT
    GCCCTCCAGA TCGCCAGAGC AGAGATCATA ACCAAGGAGA GAGAGGTCTC AGAATGGAAA
    GATAAATATG AAGAAAGCAG GCGGGAAGTG ATGGAAATGA GGAAAATAGT GGCCGAGTAT
    GAGAAGACCA TCGCTCAGAT GATAGAGGAC GAACAGAGAG AGAAGTCAGT CTCCCACCAG
    ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG CAAGCCCTGG CCGACCTGAA CTCCGTGGAG
    AAGTCTCTGG CCGACCTCTT CAGAAGATAT GAGAAGATGA AGGAGGTCCT AGAAGGCTTC
    CGCAAGAATG AAGAGGTGTT GAAGAGATGT GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG
    GAGGAGCAGA GGTACCAGGC CCTGAAGGTG CACGCGGAGG AGAAACTGGA CAGGGCCAAT
    GCTGAGATTG CTCAGGTTCG AGGCAAGGCC CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC
    CTGCGGAAGG AGCAGCTGCG AGTGGACGCC CTGGAAAGGA CGCTGGAGCA GAAGAATAAA
    GAAATAGAAG AACTCACCAA GATTTGTGAC GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870986.1
    CDS1696..3735
    Translation

    Target ORF information:

    RefSeq Version XM_017015497.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X35, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015497.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGGTAA GCAACTCTGT
    AGCCAGCTGG ACCCCCACTC TGCCTCGGAG AATCCTGCCC CTAGGGAGCC AAAGGCCAGG
    AGAGAAACTT CTCAGCCAGA GTTGGATTAC AGAAACTCCT ATGAAATTGA ATATATGGAG
    AAAATTGGCT CCTCCTTACC TCAGGACGAC GATGCCCCGA AGAAGCAGGC CTTGTACCTT
    ATGTTTGACA CTTCTCAGGA GAGCCCTGTC AAGTCATCTC CCGTCCGCAT GTCAGAGTCC
    CCGACGCCGT GTTCAGGGTC AAGTTTTGAA GAGACTGAAG CCCTTGTGAA CACTGCTGCG
    AAAAACCAGC ATCCTGTCCC ACGAGGACTG GCCCCTAACC AAGAGTCACA CTTGCAGGTG
    CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG GCCATGGGCT TGGGCACCCC TTCAGAAGCG
    ATTGAAATTA CAGCTCCCGA GGGCTCCTTT GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA
    GCTCACCCCG TCTCTCTCTG TGGTGCACTT GACTATCTGG AGCCCGACTT AGCAGAAAAG
    AACCCCCCAC TATTCGCTCA GAAACTCCAG GAGGAGTTAG AGTTTGCCAT CATGCGGATA
    GAAGCCCTGA AGCTGGCCAG GCAGATTGCT TTGGCTTCCC GCAGCCACCA GGATGCCAAG
    AGAGAGGCTG CTCACCCAAC AGACGTCTCC ATCTCCAAAA CAGCCTTGTA CTCCCGCATC
    GGGACCGCTG AGGTGGAGAA ACCTGCAGGC CTTCTGTTCC AGCAGCCCGA CCTGGACTCT
    GCCCTCCAGA TCGCCAGAGC AGAGATCATA ACCAAGGAGA GAGAGGTCTC AGAATGGAAA
    GATAAATATG AAGAAAGCAG GCGGGAAGTG ATGGAAATGA GGAAAATAGT GGCCGAGTAT
    GAGAAGACCA TCGCTCAGAT GATAGAGGAC GAACAGAGAG AGAAGTCAGT CTCCCACCAG
    ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG CAAGCCCTGG CCGACCTGAA CTCCGTGGAG
    AAGTCTCTGG CCGACCTCTT CAGAAGATAT GAGAAGATGA AGGAGGTCCT AGAAGGCTTC
    CGCAAGAATG AAGAGGTGTT GAAGAGATGT GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG
    GAGGAGCAGA GGTACCAGGC CCTGAAGGTG CACGCGGAGG AGAAACTGGA CAGGGCCAAT
    GCTGAGATTG CTCAGGTTCG AGGCAAGGCC CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC
    CTGCGGAAGG AGCAGCTGCG AGTGGACGCC CTGGAAAGGA CGCTGGAGCA GAAGAATAAA
    GAAATAGAAG AACTCACCAA GATTTGTGAC GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90973
    Clone ID Related Accession (Same CDS sequence) XM_017015497.1 , XM_017015498.1
    Accession Version XM_017015498.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2040bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X34
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGGTAA GCAACTCTGT
    AGCCAGCTGG ACCCCCACTC TGCCTCGGAG AATCCTGCCC CTAGGGAGCC AAAGGCCAGG
    AGAGAAACTT CTCAGCCAGA GTTGGATTAC AGAAACTCCT ATGAAATTGA ATATATGGAG
    AAAATTGGCT CCTCCTTACC TCAGGACGAC GATGCCCCGA AGAAGCAGGC CTTGTACCTT
    ATGTTTGACA CTTCTCAGGA GAGCCCTGTC AAGTCATCTC CCGTCCGCAT GTCAGAGTCC
    CCGACGCCGT GTTCAGGGTC AAGTTTTGAA GAGACTGAAG CCCTTGTGAA CACTGCTGCG
    AAAAACCAGC ATCCTGTCCC ACGAGGACTG GCCCCTAACC AAGAGTCACA CTTGCAGGTG
    CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG GCCATGGGCT TGGGCACCCC TTCAGAAGCG
    ATTGAAATTA CAGCTCCCGA GGGCTCCTTT GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA
    GCTCACCCCG TCTCTCTCTG TGGTGCACTT GACTATCTGG AGCCCGACTT AGCAGAAAAG
    AACCCCCCAC TATTCGCTCA GAAACTCCAG GAGGAGTTAG AGTTTGCCAT CATGCGGATA
    GAAGCCCTGA AGCTGGCCAG GCAGATTGCT TTGGCTTCCC GCAGCCACCA GGATGCCAAG
    AGAGAGGCTG CTCACCCAAC AGACGTCTCC ATCTCCAAAA CAGCCTTGTA CTCCCGCATC
    GGGACCGCTG AGGTGGAGAA ACCTGCAGGC CTTCTGTTCC AGCAGCCCGA CCTGGACTCT
    GCCCTCCAGA TCGCCAGAGC AGAGATCATA ACCAAGGAGA GAGAGGTCTC AGAATGGAAA
    GATAAATATG AAGAAAGCAG GCGGGAAGTG ATGGAAATGA GGAAAATAGT GGCCGAGTAT
    GAGAAGACCA TCGCTCAGAT GATAGAGGAC GAACAGAGAG AGAAGTCAGT CTCCCACCAG
    ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG CAAGCCCTGG CCGACCTGAA CTCCGTGGAG
    AAGTCTCTGG CCGACCTCTT CAGAAGATAT GAGAAGATGA AGGAGGTCCT AGAAGGCTTC
    CGCAAGAATG AAGAGGTGTT GAAGAGATGT GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG
    GAGGAGCAGA GGTACCAGGC CCTGAAGGTG CACGCGGAGG AGAAACTGGA CAGGGCCAAT
    GCTGAGATTG CTCAGGTTCG AGGCAAGGCC CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC
    CTGCGGAAGG AGCAGCTGCG AGTGGACGCC CTGGAAAGGA CGCTGGAGCA GAAGAATAAA
    GAAATAGAAG AACTCACCAA GATTTGTGAC GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870987.1
    CDS1561..3600
    Translation

    Target ORF information:

    RefSeq Version XM_017015498.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X36, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015498.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGGTAA GCAACTCTGT
    AGCCAGCTGG ACCCCCACTC TGCCTCGGAG AATCCTGCCC CTAGGGAGCC AAAGGCCAGG
    AGAGAAACTT CTCAGCCAGA GTTGGATTAC AGAAACTCCT ATGAAATTGA ATATATGGAG
    AAAATTGGCT CCTCCTTACC TCAGGACGAC GATGCCCCGA AGAAGCAGGC CTTGTACCTT
    ATGTTTGACA CTTCTCAGGA GAGCCCTGTC AAGTCATCTC CCGTCCGCAT GTCAGAGTCC
    CCGACGCCGT GTTCAGGGTC AAGTTTTGAA GAGACTGAAG CCCTTGTGAA CACTGCTGCG
    AAAAACCAGC ATCCTGTCCC ACGAGGACTG GCCCCTAACC AAGAGTCACA CTTGCAGGTG
    CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG GCCATGGGCT TGGGCACCCC TTCAGAAGCG
    ATTGAAATTA CAGCTCCCGA GGGCTCCTTT GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA
    GCTCACCCCG TCTCTCTCTG TGGTGCACTT GACTATCTGG AGCCCGACTT AGCAGAAAAG
    AACCCCCCAC TATTCGCTCA GAAACTCCAG GAGGAGTTAG AGTTTGCCAT CATGCGGATA
    GAAGCCCTGA AGCTGGCCAG GCAGATTGCT TTGGCTTCCC GCAGCCACCA GGATGCCAAG
    AGAGAGGCTG CTCACCCAAC AGACGTCTCC ATCTCCAAAA CAGCCTTGTA CTCCCGCATC
    GGGACCGCTG AGGTGGAGAA ACCTGCAGGC CTTCTGTTCC AGCAGCCCGA CCTGGACTCT
    GCCCTCCAGA TCGCCAGAGC AGAGATCATA ACCAAGGAGA GAGAGGTCTC AGAATGGAAA
    GATAAATATG AAGAAAGCAG GCGGGAAGTG ATGGAAATGA GGAAAATAGT GGCCGAGTAT
    GAGAAGACCA TCGCTCAGAT GATAGAGGAC GAACAGAGAG AGAAGTCAGT CTCCCACCAG
    ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG CAAGCCCTGG CCGACCTGAA CTCCGTGGAG
    AAGTCTCTGG CCGACCTCTT CAGAAGATAT GAGAAGATGA AGGAGGTCCT AGAAGGCTTC
    CGCAAGAATG AAGAGGTGTT GAAGAGATGT GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG
    GAGGAGCAGA GGTACCAGGC CCTGAAGGTG CACGCGGAGG AGAAACTGGA CAGGGCCAAT
    GCTGAGATTG CTCAGGTTCG AGGCAAGGCC CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC
    CTGCGGAAGG AGCAGCTGCG AGTGGACGCC CTGGAAAGGA CGCTGGAGCA GAAGAATAAA
    GAAATAGAAG AACTCACCAA GATTTGTGAC GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90974
    Clone ID Related Accession (Same CDS sequence) XM_017015499.1
    Accession Version XM_017015499.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1905bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X35
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGAGTTGG ATTACAGAAA CTCCTATGAA
    ATTGAATATA TGGAGAAAAT TGGCTCCTCC TTACCTCAGG ACGACGATGC CCCGAAGAAG
    CAGGCCTTGT ACCTTATGTT TGACACTTCT CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC
    CGCATGTCAG AGTCCCCGAC GCCGTGTTCA GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT
    GTGAACACTG CTGCGAAAAA CCAGCATCCT GTCCCACGAG GACTGGCCCC TAACCAAGAG
    TCACACTTGC AGGTGCCAGA GAAATCCTCC CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC
    ACCCCTTCAG AAGCGATTGA AATTACAGCT CCCGAGGGCT CCTTTGCCTC TGCTGACGCC
    CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT CTCTGTGGTG CACTTGACTA TCTGGAGCCC
    GACTTAGCAG AAAAGAACCC CCCACTATTC GCTCAGAAAC TCCAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870988.1
    CDS1665..3569
    Translation

    Target ORF information:

    RefSeq Version XM_017015499.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X38, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015499.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC 
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACGATGG TTGAAGATGT GATGTCTGTG
    TGTTCTCTGT TTGACACATT TAGGGTGAAA AAGTCGCCAA AACGGTCTCC TCTCTCTGAT
    CCACCTTCCC AGGACCCCAC CCCAGCTGCT ACACCAGAAA CACCACCAGT GATCTCTGCG
    GTGGTCCACG CCACAGATGA GGAAAAGCTG GCGGTCACCA ACCAGAAGTG GACGTGCATG
    ACAGTGGACC TAGAGGCTGA CAAACAGGAC TACCCGCAGC CCTCGGACCT GTCCACCTTT
    GTAAACGAGA CCAAATTCAG TTCACCCACT GAGGAGTTGG ATTACAGAAA CTCCTATGAA
    ATTGAATATA TGGAGAAAAT TGGCTCCTCC TTACCTCAGG ACGACGATGC CCCGAAGAAG
    CAGGCCTTGT ACCTTATGTT TGACACTTCT CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC
    CGCATGTCAG AGTCCCCGAC GCCGTGTTCA GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT
    GTGAACACTG CTGCGAAAAA CCAGCATCCT GTCCCACGAG GACTGGCCCC TAACCAAGAG
    TCACACTTGC AGGTGCCAGA GAAATCCTCC CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC
    ACCCCTTCAG AAGCGATTGA AATTACAGCT CCCGAGGGCT CCTTTGCCTC TGCTGACGCC
    CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT CTCTGTGGTG CACTTGACTA TCTGGAGCCC
    GACTTAGCAG AAAAGAACCC CCCACTATTC GCTCAGAAAC TCCAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106408
    Clone ID Related Accession (Same CDS sequence) XM_024447763.1
    Accession Version XM_024447763.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGCATCTCCC CAGCTGCTGC CCATGCGGGT
    CTTCCTCCCT CGGCTGCAGA ACACATAGTT TCGCCATCTG CCCCAGCTGG TGACAGAGTA
    GAAGCTTCCA CTCCCTCCTG CCCAGATCCG GCCAAGGACC TCAGCAGGAG TTCCGATTCT
    GAAGAGGCAT TTGAGACCCC GGAGTCAACG ACCCCTGTCA AAGCTCCGCC AGCTCCACCC
    CCACCACCCC CCGAAGTCAT CCCAGAACCC GAGGTCAGCA CACAGCCACC CCCGGAAGAA
    CCAGGATGTG GTTCTGAGAC AGTCCCTGTC CCTGATGGCC CACGGAGCGA CTCGGTGGAA
    GGAAGTCCCT TCCGTCCCCC GTCACACTCC TTCTCTGCCG TCTTCGATGA AGACAAGCCG
    ATAGCCAGCA GTGGGACTTA CAACTTGGAC TTTGACAACA TTGAGCTTGT GGATACCTTT
    CAGACCTTGG AGCCTCGTGC CTCAGACGCT AAGAATCAGG AGGGCAAAGT GAACACACGG
    AGGAAGTCCA CGGATTCCGT CCCCATCTCT AAGTCTACAC TGTCCCGGTC GCTCAGCCTG
    CAAGCCAGTG ACTTTGATGG TGCTTCTTCC TCAGGCAATC CCGAGGCCGT GGCCCTTGCC
    CCAGATGCAT ATAGCACGGG TTCCAGCAGT GCTTCTAGTA CCCTTAAGCG AACTAAAAAA
    CCGAGGCCGC CTTCCTTAAA AAAGAAACAG ACCACCAAGA AACCCACAGA GACCCCCCCA
    GTGAAGGAGA CGCAACAGGA GCCAGATGAA GAGAGCCTTG TCCCCAGTGG GGAGAATCTA
    GCATCTGAGA CGAAAACGGA ATCTGCCAAG ACGGAAGGTC CTAGCCCAGC CTTATTGGAG
    GAGACGCCCC TTGAGCCCGC TGTGGGGCCC AAAGCTGCCT GCCCTCTGGA CTCAGAGAGT
    GCAGAAGGGG TTGTCCCCCC GGCTTCTGGA GGTGGCAGAG TGCAGAACTC ACCCCCTGTC
    GGGAGGAAAA CGCTGCCTCT TACCACGGCC CCGGAGGCAG GGGAGGTAAC CCCATCGGAT
    AGCGGGGGGC AAGAGGACTC TCCAGCCAAA GGGCTCTCCG TAAGGCTGGA GTTTGACTAT
    TCTGAGGACA AGAGTAGTTG GGACAACCAG CAGGAAAACC CCCCTCCTAC CAAAAAGATA
    GGCAAAAAGC CAGTTGCCAA AATGCCCCTG AGGAGGCCAA AGATGAAAAA GACACCCGAG
    AAACTTGACA ACACTCCTGC CTCACCTCCC AGATCCCCTG CTGAACCCAA TGACATCCCC
    ATTGCTAAAG GTACTTACAC CTTTGATATT GACAAGTGGG ATGACCCCAA TTTTAACCCT
    TTTTCTTCCA CCTCAAAAAT GCAGGAGTCT CCCAAACTGC CCCAACAATC ATACAACTTT
    GACCCAGACA CCTGTGATGA GTCCGTTGAC CCCTTTAAGA CATCCTCTAA GACCCCCAGC
    TCACCTTCTA AATCCCCAGC CTCCTTTGAG ATCCCAGCCA GTGCTATGGA AGCCAATGGA
    GTGGACGGGG ATGGGCTAAA CAAGCCCGCC AAGAAGAAGA AGACGCCCCT AAAGACGATG
    GTTGAAGATG TGATGTCTGT GTGTTCTCTG TTTGACACAT TTAGGGTGAA AAAGTCGCCA
    AAACGGTCTC CTCTCTCTGA TCCACCTTCC CAGGACCCCA CCCCAGCTGC TACACCAGAA
    ACACCACCAG TGATCTCTGC GGTGGTCCAC GCCACAGATG AGGAAAAGCT GGCGGTCACC
    AACCAGAAGT GGACGTGCAT GACAGTGGAC CTAGAGGCTG ACAAACAGGA CTACCCGCAG
    CCCTCGGACC TGTCCACCTT TGTAAACGAG ACCAAATTCA GTTCACCCAC TGAGGGTAAG
    CAACTCTGTA GCCAGCTGGA CCCCCACTCT GCCTCGGAGA ATCCTGCCCC TAGGGAGCCA
    AAGGCCAGGA GAGAAACTTC TCAGCCAGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGG AGGAGTTAGA GTTTGCCATC
    ATGCGGATAG AAGCCCTGAA GCTGGCCAGG CAGATTGCTT TGGCTTCCCG CAGCCACCAG
    GATGCCAAGA GAGAGGCTGC TCACCCAACA GACGTCTCCA TCTCCAAAAC AGCCTTGTAC
    TCCCGCATCG GGACCGCTGA GGTGGAGAAA CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC
    CTGGACTCTG CCCTCCAGAT CGCCAGAGCA GAGATCATAA CCAAGGAGAG AGAGGTCTCA
    GAATGGAAAG ATAAATATGA AGAAAGCAGG CGGGAAGTGA TGGAAATGAG GAAAATAGTG
    GCCGAGTATG AGAAGACCAT CGCTCAGATG ATAGAGGACG AACAGAGAGA GAAGTCAGTC
    TCCCACCAGA CGGTGCAGCA GCTGGTTCTG GAGAAGGAGC AAGCCCTGGC CGACCTGAAC
    TCCGTGGAGA AGTCTCTGGC CGACCTCTTC AGAAGATATG AGAAGATGAA GGAGGTCCTA
    GAAGGCTTCC GCAAGAATGA AGAGGTGTTG AAGAGATGTG CGCAGGAGTA CCTGTCCCGG
    GTGAAGAAGG AGGAGCAGAG GTACCAGGCC CTGAAGGTGC ACGCGGAGGA GAAACTGGAC
    AGGGCCAATG CTGAGATTGC TCAGGTTCGA GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC
    CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA GTGGACGCCC TGGAAAGGAC GCTGGAGCAG
    AAGAATAAAG AAATAGAAGA ACTCACCAAG ATTTGTGACG AACTGATTGC CAAAATGGGG
    AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303531.1
    CDS125..3733
    Translation

    Target ORF information:

    RefSeq Version XM_024447763.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447763.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGCATCTCCC CAGCTGCTGC CCATGCGGGT
    CTTCCTCCCT CGGCTGCAGA ACACATAGTT TCGCCATCTG CCCCAGCTGG TGACAGAGTA
    GAAGCTTCCA CTCCCTCCTG CCCAGATCCG GCCAAGGACC TCAGCAGGAG TTCCGATTCT
    GAAGAGGCAT TTGAGACCCC GGAGTCAACG ACCCCTGTCA AAGCTCCGCC AGCTCCACCC
    CCACCACCCC CCGAAGTCAT CCCAGAACCC GAGGTCAGCA CACAGCCACC CCCGGAAGAA
    CCAGGATGTG GTTCTGAGAC AGTCCCTGTC CCTGATGGCC CACGGAGCGA CTCGGTGGAA
    GGAAGTCCCT TCCGTCCCCC GTCACACTCC TTCTCTGCCG TCTTCGATGA AGACAAGCCG
    ATAGCCAGCA GTGGGACTTA CAACTTGGAC TTTGACAACA TTGAGCTTGT GGATACCTTT
    CAGACCTTGG AGCCTCGTGC CTCAGACGCT AAGAATCAGG AGGGCAAAGT GAACACACGG
    AGGAAGTCCA CGGATTCCGT CCCCATCTCT AAGTCTACAC TGTCCCGGTC GCTCAGCCTG
    CAAGCCAGTG ACTTTGATGG TGCTTCTTCC TCAGGCAATC CCGAGGCCGT GGCCCTTGCC
    CCAGATGCAT ATAGCACGGG TTCCAGCAGT GCTTCTAGTA CCCTTAAGCG AACTAAAAAA
    CCGAGGCCGC CTTCCTTAAA AAAGAAACAG ACCACCAAGA AACCCACAGA GACCCCCCCA
    GTGAAGGAGA CGCAACAGGA GCCAGATGAA GAGAGCCTTG TCCCCAGTGG GGAGAATCTA
    GCATCTGAGA CGAAAACGGA ATCTGCCAAG ACGGAAGGTC CTAGCCCAGC CTTATTGGAG
    GAGACGCCCC TTGAGCCCGC TGTGGGGCCC AAAGCTGCCT GCCCTCTGGA CTCAGAGAGT
    GCAGAAGGGG TTGTCCCCCC GGCTTCTGGA GGTGGCAGAG TGCAGAACTC ACCCCCTGTC
    GGGAGGAAAA CGCTGCCTCT TACCACGGCC CCGGAGGCAG GGGAGGTAAC CCCATCGGAT
    AGCGGGGGGC AAGAGGACTC TCCAGCCAAA GGGCTCTCCG TAAGGCTGGA GTTTGACTAT
    TCTGAGGACA AGAGTAGTTG GGACAACCAG CAGGAAAACC CCCCTCCTAC CAAAAAGATA
    GGCAAAAAGC CAGTTGCCAA AATGCCCCTG AGGAGGCCAA AGATGAAAAA GACACCCGAG
    AAACTTGACA ACACTCCTGC CTCACCTCCC AGATCCCCTG CTGAACCCAA TGACATCCCC
    ATTGCTAAAG GTACTTACAC CTTTGATATT GACAAGTGGG ATGACCCCAA TTTTAACCCT
    TTTTCTTCCA CCTCAAAAAT GCAGGAGTCT CCCAAACTGC CCCAACAATC ATACAACTTT
    GACCCAGACA CCTGTGATGA GTCCGTTGAC CCCTTTAAGA CATCCTCTAA GACCCCCAGC
    TCACCTTCTA AATCCCCAGC CTCCTTTGAG ATCCCAGCCA GTGCTATGGA AGCCAATGGA
    GTGGACGGGG ATGGGCTAAA CAAGCCCGCC AAGAAGAAGA AGACGCCCCT AAAGACGATG
    GTTGAAGATG TGATGTCTGT GTGTTCTCTG TTTGACACAT TTAGGGTGAA AAAGTCGCCA
    AAACGGTCTC CTCTCTCTGA TCCACCTTCC CAGGACCCCA CCCCAGCTGC TACACCAGAA
    ACACCACCAG TGATCTCTGC GGTGGTCCAC GCCACAGATG AGGAAAAGCT GGCGGTCACC
    AACCAGAAGT GGACGTGCAT GACAGTGGAC CTAGAGGCTG ACAAACAGGA CTACCCGCAG
    CCCTCGGACC TGTCCACCTT TGTAAACGAG ACCAAATTCA GTTCACCCAC TGAGGGTAAG
    CAACTCTGTA GCCAGCTGGA CCCCCACTCT GCCTCGGAGA ATCCTGCCCC TAGGGAGCCA
    AAGGCCAGGA GAGAAACTTC TCAGCCAGAG TTGGATTACA GAAACTCCTA TGAAATTGAA
    TATATGGAGA AAATTGGCTC CTCCTTACCT CAGGACGACG ATGCCCCGAA GAAGCAGGCC
    TTGTACCTTA TGTTTGACAC TTCTCAGGAG AGCCCTGTCA AGTCATCTCC CGTCCGCATG
    TCAGAGTCCC CGACGCCGTG TTCAGGGTCA AGTTTTGAAG AGACTGAAGC CCTTGTGAAC
    ACTGCTGCGA AAAACCAGCA TCCTGTCCCA CGAGGACTGG CCCCTAACCA AGAGTCACAC
    TTGCAGGTGC CAGAGAAATC CTCCCAGAAG GAGCTGGAGG CCATGGGCTT GGGCACCCCT
    TCAGAAGCGA TTGAAATTAC AGCTCCCGAG GGCTCCTTTG CCTCTGCTGA CGCCCTCCTC
    AGCAGGCTAG CTCACCCCGT CTCTCTCTGT GGTGCACTTG ACTATCTGGA GCCCGACTTA
    GCAGAAAAGA ACCCCCCACT ATTCGCTCAG AAACTCCAGG AGGAGTTAGA GTTTGCCATC
    ATGCGGATAG AAGCCCTGAA GCTGGCCAGG CAGATTGCTT TGGCTTCCCG CAGCCACCAG
    GATGCCAAGA GAGAGGCTGC TCACCCAACA GACGTCTCCA TCTCCAAAAC AGCCTTGTAC
    TCCCGCATCG GGACCGCTGA GGTGGAGAAA CCTGCAGGCC TTCTGTTCCA GCAGCCCGAC
    CTGGACTCTG CCCTCCAGAT CGCCAGAGCA GAGATCATAA CCAAGGAGAG AGAGGTCTCA
    GAATGGAAAG ATAAATATGA AGAAAGCAGG CGGGAAGTGA TGGAAATGAG GAAAATAGTG
    GCCGAGTATG AGAAGACCAT CGCTCAGATG ATAGAGGACG AACAGAGAGA GAAGTCAGTC
    TCCCACCAGA CGGTGCAGCA GCTGGTTCTG GAGAAGGAGC AAGCCCTGGC CGACCTGAAC
    TCCGTGGAGA AGTCTCTGGC CGACCTCTTC AGAAGATATG AGAAGATGAA GGAGGTCCTA
    GAAGGCTTCC GCAAGAATGA AGAGGTGTTG AAGAGATGTG CGCAGGAGTA CCTGTCCCGG
    GTGAAGAAGG AGGAGCAGAG GTACCAGGCC CTGAAGGTGC ACGCGGAGGA GAAACTGGAC
    AGGGCCAATG CTGAGATTGC TCAGGTTCGA GGCAAGGCCC AGCAGGAGCA AGCCGCCCAC
    CAGGCCAGCC TGCGGAAGGA GCAGCTGCGA GTGGACGCCC TGGAAAGGAC GCTGGAGCAG
    AAGAATAAAG AAATAGAAGA ACTCACCAAG ATTTGTGACG AACTGATTGC CAAAATGGGG
    AAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106409
    Clone ID Related Accession (Same CDS sequence) XM_024447764.1
    Accession Version XM_024447764.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X25
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CGATGGTTGA AGATGTGATG
    TCTGTGTGTT CTCTGTTTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG GTAAGCAACT CTGTAGCCAG
    CTGGACCCCC ACTCTGCCTC GGAGAATCCT GCCCCTAGGG AGCCAAAGGC CAGGAGAGAA
    ACTTCTCAGC CAGAGTTGGA TTACAGAAAC TCCTATGAAA TTGAATATAT GGAGAAAATT
    GGCTCCTCCT TACCTCAGGA CGACGATGCC CCGAAGAAGC AGGCCTTGTA CCTTATGTTT
    GACACTTCTC AGGAGAGCCC TGTCAAGTCA TCTCCCGTCC GCATGTCAGA GTCCCCGACG
    CCGTGTTCAG GGTCAAGTTT TGAAGAGACT GAAGCCCTTG TGAACACTGC TGCGAAAAAC
    CAGCATCCTG TCCCACGAGG ACTGGCCCCT AACCAAGAGT CACACTTGCA GGTGCCAGAG
    AAATCCTCCC AGAAGGAGCT GGAGGCCATG GGCTTGGGCA CCCCTTCAGA AGCGATTGAA
    ATTACAGCTC CCGAGGGCTC CTTTGCCTCT GCTGACGCCC TCCTCAGCAG GCTAGCTCAC
    CCCGTCTCTC TCTGTGGTGC ACTTGACTAT CTGGAGCCCG ACTTAGCAGA AAAGAACCCC
    CCACTATTCG CTCAGAAACT CCAGGAGGAG TTAGAGTTTG CCATCATGCG GATAGAAGCC
    CTGAAGCTGG CCAGGCAGAT TGCTTTGGCT TCCCGCAGCC ACCAGGATGC CAAGAGAGAG
    GCTGCTCACC CAACAGACGT CTCCATCTCC AAAACAGCCT TGTACTCCCG CATCGGGACC
    GCTGAGGTGG AGAAACCTGC AGGCCTTCTG TTCCAGCAGC CCGACCTGGA CTCTGCCCTC
    CAGATCGCCA GAGCAGAGAT CATAACCAAG GAGAGAGAGG TCTCAGAATG GAAAGATAAA
    TATGAAGAAA GCAGGCGGGA AGTGATGGAA ATGAGGAAAA TAGTGGCCGA GTATGAGAAG
    ACCATCGCTC AGATGATAGA GGACGAACAG AGAGAGAAGT CAGTCTCCCA CCAGACGGTG
    CAGCAGCTGG TTCTGGAGAA GGAGCAAGCC CTGGCCGACC TGAACTCCGT GGAGAAGTCT
    CTGGCCGACC TCTTCAGAAG ATATGAGAAG ATGAAGGAGG TCCTAGAAGG CTTCCGCAAG
    AATGAAGAGG TGTTGAAGAG ATGTGCGCAG GAGTACCTGT CCCGGGTGAA GAAGGAGGAG
    CAGAGGTACC AGGCCCTGAA GGTGCACGCG GAGGAGAAAC TGGACAGGGC CAATGCTGAG
    ATTGCTCAGG TTCGAGGCAA GGCCCAGCAG GAGCAAGCCG CCCACCAGGC CAGCCTGCGG
    AAGGAGCAGC TGCGAGTGGA CGCCCTGGAA AGGACGCTGG AGCAGAAGAA TAAAGAAATA
    GAAGAACTCA CCAAGATTTG TGACGAACTG ATTGCCAAAA TGGGGAAAAG CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303532.1
    CDS125..3598
    Translation

    Target ORF information:

    RefSeq Version XM_024447764.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447764.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CGATGGTTGA AGATGTGATG
    TCTGTGTGTT CTCTGTTTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG GTAAGCAACT CTGTAGCCAG
    CTGGACCCCC ACTCTGCCTC GGAGAATCCT GCCCCTAGGG AGCCAAAGGC CAGGAGAGAA
    ACTTCTCAGC CAGAGTTGGA TTACAGAAAC TCCTATGAAA TTGAATATAT GGAGAAAATT
    GGCTCCTCCT TACCTCAGGA CGACGATGCC CCGAAGAAGC AGGCCTTGTA CCTTATGTTT
    GACACTTCTC AGGAGAGCCC TGTCAAGTCA TCTCCCGTCC GCATGTCAGA GTCCCCGACG
    CCGTGTTCAG GGTCAAGTTT TGAAGAGACT GAAGCCCTTG TGAACACTGC TGCGAAAAAC
    CAGCATCCTG TCCCACGAGG ACTGGCCCCT AACCAAGAGT CACACTTGCA GGTGCCAGAG
    AAATCCTCCC AGAAGGAGCT GGAGGCCATG GGCTTGGGCA CCCCTTCAGA AGCGATTGAA
    ATTACAGCTC CCGAGGGCTC CTTTGCCTCT GCTGACGCCC TCCTCAGCAG GCTAGCTCAC
    CCCGTCTCTC TCTGTGGTGC ACTTGACTAT CTGGAGCCCG ACTTAGCAGA AAAGAACCCC
    CCACTATTCG CTCAGAAACT CCAGGAGGAG TTAGAGTTTG CCATCATGCG GATAGAAGCC
    CTGAAGCTGG CCAGGCAGAT TGCTTTGGCT TCCCGCAGCC ACCAGGATGC CAAGAGAGAG
    GCTGCTCACC CAACAGACGT CTCCATCTCC AAAACAGCCT TGTACTCCCG CATCGGGACC
    GCTGAGGTGG AGAAACCTGC AGGCCTTCTG TTCCAGCAGC CCGACCTGGA CTCTGCCCTC
    CAGATCGCCA GAGCAGAGAT CATAACCAAG GAGAGAGAGG TCTCAGAATG GAAAGATAAA
    TATGAAGAAA GCAGGCGGGA AGTGATGGAA ATGAGGAAAA TAGTGGCCGA GTATGAGAAG
    ACCATCGCTC AGATGATAGA GGACGAACAG AGAGAGAAGT CAGTCTCCCA CCAGACGGTG
    CAGCAGCTGG TTCTGGAGAA GGAGCAAGCC CTGGCCGACC TGAACTCCGT GGAGAAGTCT
    CTGGCCGACC TCTTCAGAAG ATATGAGAAG ATGAAGGAGG TCCTAGAAGG CTTCCGCAAG
    AATGAAGAGG TGTTGAAGAG ATGTGCGCAG GAGTACCTGT CCCGGGTGAA GAAGGAGGAG
    CAGAGGTACC AGGCCCTGAA GGTGCACGCG GAGGAGAAAC TGGACAGGGC CAATGCTGAG
    ATTGCTCAGG TTCGAGGCAA GGCCCAGCAG GAGCAAGCCG CCCACCAGGC CAGCCTGCGG
    AAGGAGCAGC TGCGAGTGGA CGCCCTGGAA AGGACGCTGG AGCAGAAGAA TAAAGAAATA
    GAAGAACTCA CCAAGATTTG TGACGAACTG ATTGCCAAAA TGGGGAAAAG CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu106410
    Clone ID Related Accession (Same CDS sequence) XM_024447765.1
    Accession Version XM_024447765.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3210bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGGTAA GCAACTCTGT AGCCAGCTGG ACCCCCACTC TGCCTCGGAG
    AATCCTGCCC CTAGGGAGCC AAAGGCCAGG AGAGAAACTT CTCAGCCAGA GTTGGATTAC
    AGAAACTCCT ATGAAATTGA ATATATGGAG AAAATTGGCT CCTCCTTACC TCAGGACGAC
    GATGCCCCGA AGAAGCAGGC CTTGTACCTT ATGTTTGACA CTTCTCAGGA GAGCCCTGTC
    AAGTCATCTC CCGTCCGCAT GTCAGAGTCC CCGACGCCGT GTTCAGGGTC AAGTTTTGAA
    GAGACTGAAG CCCTTGTGAA CACTGCTGCG AAAAACCAGC ATCCTGTCCC ACGAGGACTG
    GCCCCTAACC AAGAGTCACA CTTGCAGGTG CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG
    GCCATGGGCT TGGGCACCCC TTCAGAAGCG ATTGAAATTA CAGCTCCCGA GGGCTCCTTT
    GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA GCTCACCCCG TCTCTCTCTG TGGTGCACTT
    GACTATCTGG AGCCCGACTT AGCAGAAAAG AACCCCCCAC TATTCGCTCA GAAACTCCAG
    GAGGAGTTAG AGTTTGCCAT CATGCGGATA GAAGCCCTGA AGCTGGCCAG GCAGATTGCT
    TTGGCTTCCC GCAGCCACCA GGATGCCAAG AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_024303533.1
    CDS248..3457
    Translation

    Target ORF information:

    RefSeq Version XM_024447765.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024447765.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGGTAA GCAACTCTGT AGCCAGCTGG ACCCCCACTC TGCCTCGGAG
    AATCCTGCCC CTAGGGAGCC AAAGGCCAGG AGAGAAACTT CTCAGCCAGA GTTGGATTAC
    AGAAACTCCT ATGAAATTGA ATATATGGAG AAAATTGGCT CCTCCTTACC TCAGGACGAC
    GATGCCCCGA AGAAGCAGGC CTTGTACCTT ATGTTTGACA CTTCTCAGGA GAGCCCTGTC
    AAGTCATCTC CCGTCCGCAT GTCAGAGTCC CCGACGCCGT GTTCAGGGTC AAGTTTTGAA
    GAGACTGAAG CCCTTGTGAA CACTGCTGCG AAAAACCAGC ATCCTGTCCC ACGAGGACTG
    GCCCCTAACC AAGAGTCACA CTTGCAGGTG CCAGAGAAAT CCTCCCAGAA GGAGCTGGAG
    GCCATGGGCT TGGGCACCCC TTCAGAAGCG ATTGAAATTA CAGCTCCCGA GGGCTCCTTT
    GCCTCTGCTG ACGCCCTCCT CAGCAGGCTA GCTCACCCCG TCTCTCTCTG TGGTGCACTT
    GACTATCTGG AGCCCGACTT AGCAGAAAAG AACCCCCCAC TATTCGCTCA GAAACTCCAG
    GAGGAGTTAG AGTTTGCCAT CATGCGGATA GAAGCCCTGA AGCTGGCCAG GCAGATTGCT
    TTGGCTTCCC GCAGCCACCA GGATGCCAAG AGAGAGGCTG CTCACCCAAC AGACGTCTCC
    ATCTCCAAAA CAGCCTTGTA CTCCCGCATC GGGACCGCTG AGGTGGAGAA ACCTGCAGGC
    CTTCTGTTCC AGCAGCCCGA CCTGGACTCT GCCCTCCAGA TCGCCAGAGC AGAGATCATA
    ACCAAGGAGA GAGAGGTCTC AGAATGGAAA GATAAATATG AAGAAAGCAG GCGGGAAGTG
    ATGGAAATGA GGAAAATAGT GGCCGAGTAT GAGAAGACCA TCGCTCAGAT GATAGAGGAC
    GAACAGAGAG AGAAGTCAGT CTCCCACCAG ACGGTGCAGC AGCTGGTTCT GGAGAAGGAG
    CAAGCCCTGG CCGACCTGAA CTCCGTGGAG AAGTCTCTGG CCGACCTCTT CAGAAGATAT
    GAGAAGATGA AGGAGGTCCT AGAAGGCTTC CGCAAGAATG AAGAGGTGTT GAAGAGATGT
    GCGCAGGAGT ACCTGTCCCG GGTGAAGAAG GAGGAGCAGA GGTACCAGGC CCTGAAGGTG
    CACGCGGAGG AGAAACTGGA CAGGGCCAAT GCTGAGATTG CTCAGGTTCG AGGCAAGGCC
    CAGCAGGAGC AAGCCGCCCA CCAGGCCAGC CTGCGGAAGG AGCAGCTGCG AGTGGACGCC
    CTGGAAAGGA CGCTGGAGCA GAAGAATAAA GAAATAGAAG AACTCACCAA GATTTGTGAC
    GAACTGATTG CCAAAATGGG GAAAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90967
    Clone ID Related Accession (Same CDS sequence) XM_017015491.1
    Accession Version XM_017015491.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3225bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GGTAAGCAAC TCTGTAGCCA GCTGGACCCC
    CACTCTGCCT CGGAGAATCC TGCCCCTAGG GAGCCAAAGG CCAGGAGAGA AACTTCTCAG
    CCAGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870980.1
    CDS451..3675
    Translation

    Target ORF information:

    RefSeq Version XM_017015491.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015491.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GGTAAGCAAC TCTGTAGCCA GCTGGACCCC
    CACTCTGCCT CGGAGAATCC TGCCCCTAGG GAGCCAAAGG CCAGGAGAGA AACTTCTCAG
    CCAGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu90968
    Clone ID Related Accession (Same CDS sequence) XM_017015492.1
    Accession Version XM_017015492.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X29
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TACAGCTCCC GAGGGCTCCT TTGCCTCTGC TGACGCCCTC
    CTCAGCAGGC TAGCTCACCC CGTCTCTCTC TGTGGTGCAC TTGACTATCT GGAGCCCGAC
    TTAGCAGAAA AGAACCCCCC ACTATTCGCT CAGAAACTCC AGGAGGAGTT AGAGTTTGCC
    ATCATGCGGA TAGAAGCCCT GAAGCTGGCC AGGCAGATTG CTTTGGCTTC CCGCAGCCAC
    CAGGATGCCA AGAGAGAGGC TGCTCACCCA ACAGACGTCT CCATCTCCAA AACAGCCTTG
    TACTCCCGCA TCGGGACCGC TGAGGTGGAG AAACCTGCAG GCCTTCTGTT CCAGCAGCCC
    GACCTGGACT CTGCCCTCCA GATCGCCAGA GCAGAGATCA TAACCAAGGA GAGAGAGGTC
    TCAGAATGGA AAGATAAATA TGAAGAAAGC AGGCGGGAAG TGATGGAAAT GAGGAAAATA
    GTGGCCGAGT ATGAGAAGAC CATCGCTCAG ATGATAGAGG ACGAACAGAG AGAGAAGTCA
    GTCTCCCACC AGACGGTGCA GCAGCTGGTT CTGGAGAAGG AGCAAGCCCT GGCCGACCTG
    AACTCCGTGG AGAAGTCTCT GGCCGACCTC TTCAGAAGAT ATGAGAAGAT GAAGGAGGTC
    CTAGAAGGCT TCCGCAAGAA TGAAGAGGTG TTGAAGAGAT GTGCGCAGGA GTACCTGTCC
    CGGGTGAAGA AGGAGGAGCA GAGGTACCAG GCCCTGAAGG TGCACGCGGA GGAGAAACTG
    GACAGGGCCA ATGCTGAGAT TGCTCAGGTT CGAGGCAAGG CCCAGCAGGA GCAAGCCGCC
    CACCAGGCCA GCCTGCGGAA GGAGCAGCTG CGAGTGGACG CCCTGGAAAG GACGCTGGAG
    CAGAAGAATA AAGAAATAGA AGAACTCACC AAGATTTGTG ACGAACTGAT TGCCAAAATG
    GGGAAAAGCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016870981.1
    CDS451..3582
    Translation

    Target ORF information:

    RefSeq Version XM_017015492.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017015492.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGCCTATG CCTCCTGGCA GAGGTGGTCC CCAGTGGAAT GGGCCCGGTG GATGTGGACA 
    GCGGTGACCA GCAGTGGGGA CTCCAGTCTG CTGGTGCTTC AGGGAGACTC TGGAAAAAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TACAGCTCCC GAGGGCTCCT TTGCCTCTGC TGACGCCCTC
    CTCAGCAGGC TAGCTCACCC CGTCTCTCTC TGTGGTGCAC TTGACTATCT GGAGCCCGAC
    TTAGCAGAAA AGAACCCCCC ACTATTCGCT CAGAAACTCC AGGAGGAGTT AGAGTTTGCC
    ATCATGCGGA TAGAAGCCCT GAAGCTGGCC AGGCAGATTG CTTTGGCTTC CCGCAGCCAC
    CAGGATGCCA AGAGAGAGGC TGCTCACCCA ACAGACGTCT CCATCTCCAA AACAGCCTTG
    TACTCCCGCA TCGGGACCGC TGAGGTGGAG AAACCTGCAG GCCTTCTGTT CCAGCAGCCC
    GACCTGGACT CTGCCCTCCA GATCGCCAGA GCAGAGATCA TAACCAAGGA GAGAGAGGTC
    TCAGAATGGA AAGATAAATA TGAAGAAAGC AGGCGGGAAG TGATGGAAAT GAGGAAAATA
    GTGGCCGAGT ATGAGAAGAC CATCGCTCAG ATGATAGAGG ACGAACAGAG AGAGAAGTCA
    GTCTCCCACC AGACGGTGCA GCAGCTGGTT CTGGAGAAGG AGCAAGCCCT GGCCGACCTG
    AACTCCGTGG AGAAGTCTCT GGCCGACCTC TTCAGAAGAT ATGAGAAGAT GAAGGAGGTC
    CTAGAAGGCT TCCGCAAGAA TGAAGAGGTG TTGAAGAGAT GTGCGCAGGA GTACCTGTCC
    CGGGTGAAGA AGGAGGAGCA GAGGTACCAG GCCCTGAAGG TGCACGCGGA GGAGAAACTG
    GACAGGGCCA ATGCTGAGAT TGCTCAGGTT CGAGGCAAGG CCCAGCAGGA GCAAGCCGCC
    CACCAGGCCA GCCTGCGGAA GGAGCAGCTG CGAGTGGACG CCCTGGAAAG GACGCTGGAG
    CAGAAGAATA AAGAAATAGA AGAACTCACC AAGATTTGTG ACGAACTGAT TGCCAAAATG
    GGGAAAAGCT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21947
    Clone ID Related Accession (Same CDS sequence) NM_006997.4 , NM_006997.3
    Accession Version NM_006997.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3081bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-23
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform d
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, AF095791.2, AL135793.13 and R46074.1. On May 31, 2019 this sequence version replaced NM_006997.3. Transcript Variant: This variant (4) uses a different structure for its 5' UTR and 5' coding region compared to variant 1. The resulting protein (isoform d) has a shorter and distinct N-terminus, compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF095791.2 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2162946 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GGAGGAGTTA
    GAGTTTGCCA TCATGCGGAT AGAAGCCCTG AAGCTGGCCA GGCAGATTGC TTTGGCTTCC
    CGCAGCCACC AGGATGCCAA GAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_008928.1
    CDS296..3376
    Translation

    Target ORF information:

    RefSeq Version NM_006997.4
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_006997.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GGAGGAGTTA
    GAGTTTGCCA TCATGCGGAT AGAAGCCCTG AAGCTGGCCA GGCAGATTGC TTTGGCTTCC
    CGCAGCCACC AGGATGCCAA GAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21947
    Clone ID Related Accession (Same CDS sequence) NM_006997.4 , NM_006997.3
    Accession Version NM_006997.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3081bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform d
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, AF095791.2, AL135793.13 and R46074.1. On May 6, 2014 this sequence version replaced NM_006997.2. Transcript Variant: This variant (4) uses a different structure for its 5' UTR and 5' coding region compared to variant 1. The resulting protein (isoform d) has a shorter and distinct N-terminus, compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF095791.2 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2162946 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GGAGGAGTTA
    GAGTTTGCCA TCATGCGGAT AGAAGCCCTG AAGCTGGCCA GGCAGATTGC TTTGGCTTCC
    CGCAGCCACC AGGATGCCAA GAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_008928.1
    CDS500..3580
    Translation

    Target ORF information:

    RefSeq Version NM_006997.3
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_006997.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG AGTTGGATTA CAGAAACTCC
    TATGAAATTG AATATATGGA GAAAATTGGC TCCTCCTTAC CTCAGGACGA CGATGCCCCG
    AAGAAGCAGG CCTTGTACCT TATGTTTGAC ACTTCTCAGG AGAGCCCTGT CAAGTCATCT
    CCCGTCCGCA TGTCAGAGTC CCCGACGCCG TGTTCAGGGT CAAGTTTTGA AGAGACTGAA
    GCCCTTGTGA ACACTGCTGC GAAAAACCAG CATCCTGTCC CACGAGGACT GGCCCCTAAC
    CAAGAGTCAC ACTTGCAGGT GCCAGAGAAA TCCTCCCAGA AGGAGCTGGA GGCCATGGGC
    TTGGGCACCC CTTCAGAAGC GATTGAAATT ACAGCTCCCG AGGGCTCCTT TGCCTCTGCT
    GACGCCCTCC TCAGCAGGCT AGCTCACCCC GTCTCTCTCT GTGGTGCACT TGACTATCTG
    GAGCCCGACT TAGCAGAAAA GAACCCCCCA CTATTCGCTC AGAAACTCCA GGAGGAGTTA
    GAGTTTGCCA TCATGCGGAT AGAAGCCCTG AAGCTGGCCA GGCAGATTGC TTTGGCTTCC
    CGCAGCCACC AGGATGCCAA GAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21949
    Clone ID Related Accession (Same CDS sequence) NM_001291878.1 , NM_001291878.2
    Accession Version NM_001291878.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3027bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform g
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, BC141837.1, AL135793.13 and R46074.1. Transcript Variant: This variant (7) uses an alternate structure in the 5' UTR and 5' coding region and lacks an internal exon compared to variant 1. The encoded isoform (g) is shorter and has a distinct N-terminus compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.133156.1, SRR1803613.76499.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2146411 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278807.1
    CDS500..3526
    Translation

    Target ORF information:

    RefSeq Version NM_001291878.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291878.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21949
    Clone ID Related Accession (Same CDS sequence) NM_001291878.1 , NM_001291878.2
    Accession Version NM_001291878.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3027bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform g
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC039311.1, BC141837.1, AL135793.13 and R46074.1. On May 31, 2019 this sequence version replaced NM_001291878.1. Transcript Variant: This variant (7) uses an alternate structure in the 5' UTR and 5' coding region and lacks an internal exon compared to variant 1. The encoded isoform (g) is shorter and has a distinct N-terminus compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC142673.1, SRR1803615.133156.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2146411 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278807.1
    CDS296..3322
    Translation

    Target ORF information:

    RefSeq Version NM_001291878.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291878.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21951
    Clone ID Related Accession (Same CDS sequence) NM_206861.2 , NM_206861.3
    Accession Version NM_206861.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3285bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AF528098.1, AL135793.13 and R46074.1. On May 6, 2014 this sequence version replaced NM_206861.1. Transcript Variant: This variant (2) lacks three internal in-frame exons compared to variant 1. The resulting protein (isoform b) is shorter compared to isoform a. Isoform b has also been called the 'short' isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF528098.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_996743.1
    CDS361..3645
    Translation

    Target ORF information:

    RefSeq Version NM_206861.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206861.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21951
    Clone ID Related Accession (Same CDS sequence) NM_206861.2 , NM_206861.3
    Accession Version NM_206861.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3285bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AF528098.1, AL135793.13 and R46074.1. On May 31, 2019 this sequence version replaced NM_206861.2. Transcript Variant: This variant (2) lacks three internal in-frame exons compared to variant 1. The resulting protein (isoform b) is shorter compared to isoform a. Isoform b has also been called the 'short' isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF528098.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_996743.1
    CDS372..3656
    Translation

    Target ORF information:

    RefSeq Version NM_206861.3
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206861.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64127
    Clone ID Related Accession (Same CDS sequence) XM_011539128.1
    Accession Version XM_011539128.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3573bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGCATCTCCC CAGCTGCTGC CCATGCGGGT
    CTTCCTCCCT CGGCTGCAGA ACACATAGTT TCGCCATCTG CCCCAGCTGG TGACAGAGTA
    GAAGCTTCCA CTCCCTCCTG CCCAGATCCG GCCAAGGACC TCAGCAGGAG TTCCGATTCT
    GAAGAGGCAT TTGAGACCCC GGAGTCAACG ACCCCTGTCA AAGCTCCGCC AGCTCCACCC
    CCACCACCCC CCGAAGTCAT CCCAGAACCC GAGGTCAGCA CACAGCCACC CCCGGAAGAA
    CCAGGATGTG GTTCTGAGAC AGTCCCTGTC CCTGATGGCC CACGGAGCGA CTCGGTGGAA
    GGAAGTCCCT TCCGTCCCCC GTCACACTCC TTCTCTGCCG TCTTCGATGA AGACAAGCCG
    ATAGCCAGCA GTGGGACTTA CAACTTGGAC TTTGACAACA TTGAGCTTGT GGATACCTTT
    CAGACCTTGG AGCCTCGTGC CTCAGACGCT AAGAATCAGG AGGGCAAAGT GAACACACGG
    AGGAAGTCCA CGGATTCCGT CCCCATCTCT AAGTCTACAC TGTCCCGGTC GCTCAGCCTG
    CAAGCCAGTG ACTTTGATGG TGCTTCTTCC TCAGGCAATC CCGAGGCCGT GGCCCTTGCC
    CCAGATGCAT ATAGCACGGG TTCCAGCAGT GCTTCTAGTA CCCTTAAGCG AACTAAAAAA
    CCGAGGCCGC CTTCCTTAAA AAAGAAACAG ACCACCAAGA AACCCACAGA GACCCCCCCA
    GTGAAGGAGA CGCAACAGGA GCCAGATGAA GAGAGCCTTG TCCCCAGTGG GGAGAATCTA
    GCATCTGAGA CGAAAACGGA ATCTGCCAAG ACGGAAGGTC CTAGCCCAGC CTTATTGGAG
    GAGACGCCCC TTGAGCCCGC TGTGGGGCCC AAAGCTGCCT GCCCTCTGGA CTCAGAGAGT
    GCAGAAGGGG TTGTCCCCCC GGCTTCTGGA GGTGGCAGAG TGCAGAACTC ACCCCCTGTC
    GGGAGGAAAA CGCTGCCTCT TACCACGGCC CCGGAGGCAG GGGAGGTAAC CCCATCGGAT
    AGCGGGGGGC AAGAGGACTC TCCAGCCAAA GGGCTCTCCG TAAGGCTGGA GTTTGACTAT
    TCTGAGGACA AGAGTAGTTG GGACAACCAG CAGGAAAACC CCCCTCCTAC CAAAAAGATA
    GGCAAAAAGC CAGTTGCCAA AATGCCCCTG AGGAGGCCAA AGATGAAAAA GACACCCGAG
    AAACTTGACA ACACTCCTGC CTCACCTCCC AGATCCCCTG CTGAACCCAA TGACATCCCC
    ATTGCTAAAG GTACTTACAC CTTTGATATT GACAAGTGGG ATGACCCCAA TTTTAACCCT
    TTTTCTTCCA CCTCAAAAAT GCAGGAGTCT CCCAAACTGC CCCAACAATC ATACAACTTT
    GACCCAGACA CCTGTGATGA GTCCGTTGAC CCCTTTAAGA CATCCTCTAA GACCCCCAGC
    TCACCTTCTA AATCCCCAGC CTCCTTTGAG ATCCCAGCCA GTGCTATGGA AGCCAATGGA
    GTGGACGGGG ATGGGCTAAA CAAGCCCGCC AAGAAGAAGA AGACGCCCCT AAAGACTGAC
    ACATTTAGGG TGAAAAAGTC GCCAAAACGG TCTCCTCTCT CTGATCCACC TTCCCAGGAC
    CCCACCCCAG CTGCTACACC AGAAACACCA CCAGTGATCT CTGCGGTGGT CCACGCCACA
    GATGAGGAAA AGCTGGCGGT CACCAACCAG AAGTGGACGT GCATGACAGT GGACCTAGAG
    GCTGACAAAC AGGACTACCC GCAGCCCTCG GACCTGTCCA CCTTTGTAAA CGAGACCAAA
    TTCAGTTCAC CCACTGAGGG TAAGCAACTC TGTAGCCAGC TGGACCCCCA CTCTGCCTCG
    GAGAATCCTG CCCCTAGGGA GCCAAAGGCC AGGAGAGAAA CTTCTCAGCC AGAGTTGGAT
    TACAGAAACT CCTATGAAAT TGAATATATG GAGAAAATTG GCTCCTCCTT ACCTCAGGAC
    GACGATGCCC CGAAGAAGCA GGCCTTGTAC CTTATGTTTG ACACTTCTCA GGAGAGCCCT
    GTCAAGTCAT CTCCCGTCCG CATGTCAGAG TCCCCGACGC CGTGTTCAGG GTCAAGTTTT
    GAAGAGACTG AAGCCCTTGT GAACACTGCT GCGAAAAACC AGCATCCTGT CCCACGAGGA
    CTGGCCCCTA ACCAAGAGTC ACACTTGCAG GTGCCAGAGA AATCCTCCCA GAAGGAGCTG
    GAGGCCATGG GCTTGGGCAC CCCTTCAGAA GCGATTGAAA TTACAGCTCC CGAGGGCTCC
    TTTGCCTCTG CTGACGCCCT CCTCAGCAGG CTAGCTCACC CCGTCTCTCT CTGTGGTGCA
    CTTGACTATC TGGAGCCCGA CTTAGCAGAA AAGAACCCCC CACTATTCGC TCAGAAACTC
    CAGGAGGAGT TAGAGTTTGC CATCATGCGG ATAGAAGCCC TGAAGCTGGC CAGGCAGATT
    GCTTTGGCTT CCCGCAGCCA CCAGGATGCC AAGAGAGAGG CTGCTCACCC AACAGACGTC
    TCCATCTCCA AAACAGCCTT GTACTCCCGC ATCGGGACCG CTGAGGTGGA GAAACCTGCA
    GGCCTTCTGT TCCAGCAGCC CGACCTGGAC TCTGCCCTCC AGATCGCCAG AGCAGAGATC
    ATAACCAAGG AGAGAGAGGT CTCAGAATGG AAAGATAAAT ATGAAGAAAG CAGGCGGGAA
    GTGATGGAAA TGAGGAAAAT AGTGGCCGAG TATGAGAAGA CCATCGCTCA GATGATAGAG
    GACGAACAGA GAGAGAAGTC AGTCTCCCAC CAGACGGTGC AGCAGCTGGT TCTGGAGAAG
    GAGCAAGCCC TGGCCGACCT GAACTCCGTG GAGAAGTCTC TGGCCGACCT CTTCAGAAGA
    TATGAGAAGA TGAAGGAGGT CCTAGAAGGC TTCCGCAAGA ATGAAGAGGT GTTGAAGAGA
    TGTGCGCAGG AGTACCTGTC CCGGGTGAAG AAGGAGGAGC AGAGGTACCA GGCCCTGAAG
    GTGCACGCGG AGGAGAAACT GGACAGGGCC AATGCTGAGA TTGCTCAGGT TCGAGGCAAG
    GCCCAGCAGG AGCAAGCCGC CCACCAGGCC AGCCTGCGGA AGGAGCAGCT GCGAGTGGAC
    GCCCTGGAAA GGACGCTGGA GCAGAAGAAT AAAGAAATAG AAGAACTCAC CAAGATTTGT
    GACGAACTGA TTGCCAAAAT GGGGAAAAGC TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537430.1
    CDS125..3697
    Translation

    Target ORF information:

    RefSeq Version XM_011539128.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539128.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGCATCTCCC CAGCTGCTGC CCATGCGGGT
    CTTCCTCCCT CGGCTGCAGA ACACATAGTT TCGCCATCTG CCCCAGCTGG TGACAGAGTA
    GAAGCTTCCA CTCCCTCCTG CCCAGATCCG GCCAAGGACC TCAGCAGGAG TTCCGATTCT
    GAAGAGGCAT TTGAGACCCC GGAGTCAACG ACCCCTGTCA AAGCTCCGCC AGCTCCACCC
    CCACCACCCC CCGAAGTCAT CCCAGAACCC GAGGTCAGCA CACAGCCACC CCCGGAAGAA
    CCAGGATGTG GTTCTGAGAC AGTCCCTGTC CCTGATGGCC CACGGAGCGA CTCGGTGGAA
    GGAAGTCCCT TCCGTCCCCC GTCACACTCC TTCTCTGCCG TCTTCGATGA AGACAAGCCG
    ATAGCCAGCA GTGGGACTTA CAACTTGGAC TTTGACAACA TTGAGCTTGT GGATACCTTT
    CAGACCTTGG AGCCTCGTGC CTCAGACGCT AAGAATCAGG AGGGCAAAGT GAACACACGG
    AGGAAGTCCA CGGATTCCGT CCCCATCTCT AAGTCTACAC TGTCCCGGTC GCTCAGCCTG
    CAAGCCAGTG ACTTTGATGG TGCTTCTTCC TCAGGCAATC CCGAGGCCGT GGCCCTTGCC
    CCAGATGCAT ATAGCACGGG TTCCAGCAGT GCTTCTAGTA CCCTTAAGCG AACTAAAAAA
    CCGAGGCCGC CTTCCTTAAA AAAGAAACAG ACCACCAAGA AACCCACAGA GACCCCCCCA
    GTGAAGGAGA CGCAACAGGA GCCAGATGAA GAGAGCCTTG TCCCCAGTGG GGAGAATCTA
    GCATCTGAGA CGAAAACGGA ATCTGCCAAG ACGGAAGGTC CTAGCCCAGC CTTATTGGAG
    GAGACGCCCC TTGAGCCCGC TGTGGGGCCC AAAGCTGCCT GCCCTCTGGA CTCAGAGAGT
    GCAGAAGGGG TTGTCCCCCC GGCTTCTGGA GGTGGCAGAG TGCAGAACTC ACCCCCTGTC
    GGGAGGAAAA CGCTGCCTCT TACCACGGCC CCGGAGGCAG GGGAGGTAAC CCCATCGGAT
    AGCGGGGGGC AAGAGGACTC TCCAGCCAAA GGGCTCTCCG TAAGGCTGGA GTTTGACTAT
    TCTGAGGACA AGAGTAGTTG GGACAACCAG CAGGAAAACC CCCCTCCTAC CAAAAAGATA
    GGCAAAAAGC CAGTTGCCAA AATGCCCCTG AGGAGGCCAA AGATGAAAAA GACACCCGAG
    AAACTTGACA ACACTCCTGC CTCACCTCCC AGATCCCCTG CTGAACCCAA TGACATCCCC
    ATTGCTAAAG GTACTTACAC CTTTGATATT GACAAGTGGG ATGACCCCAA TTTTAACCCT
    TTTTCTTCCA CCTCAAAAAT GCAGGAGTCT CCCAAACTGC CCCAACAATC ATACAACTTT
    GACCCAGACA CCTGTGATGA GTCCGTTGAC CCCTTTAAGA CATCCTCTAA GACCCCCAGC
    TCACCTTCTA AATCCCCAGC CTCCTTTGAG ATCCCAGCCA GTGCTATGGA AGCCAATGGA
    GTGGACGGGG ATGGGCTAAA CAAGCCCGCC AAGAAGAAGA AGACGCCCCT AAAGACTGAC
    ACATTTAGGG TGAAAAAGTC GCCAAAACGG TCTCCTCTCT CTGATCCACC TTCCCAGGAC
    CCCACCCCAG CTGCTACACC AGAAACACCA CCAGTGATCT CTGCGGTGGT CCACGCCACA
    GATGAGGAAA AGCTGGCGGT CACCAACCAG AAGTGGACGT GCATGACAGT GGACCTAGAG
    GCTGACAAAC AGGACTACCC GCAGCCCTCG GACCTGTCCA CCTTTGTAAA CGAGACCAAA
    TTCAGTTCAC CCACTGAGGG TAAGCAACTC TGTAGCCAGC TGGACCCCCA CTCTGCCTCG
    GAGAATCCTG CCCCTAGGGA GCCAAAGGCC AGGAGAGAAA CTTCTCAGCC AGAGTTGGAT
    TACAGAAACT CCTATGAAAT TGAATATATG GAGAAAATTG GCTCCTCCTT ACCTCAGGAC
    GACGATGCCC CGAAGAAGCA GGCCTTGTAC CTTATGTTTG ACACTTCTCA GGAGAGCCCT
    GTCAAGTCAT CTCCCGTCCG CATGTCAGAG TCCCCGACGC CGTGTTCAGG GTCAAGTTTT
    GAAGAGACTG AAGCCCTTGT GAACACTGCT GCGAAAAACC AGCATCCTGT CCCACGAGGA
    CTGGCCCCTA ACCAAGAGTC ACACTTGCAG GTGCCAGAGA AATCCTCCCA GAAGGAGCTG
    GAGGCCATGG GCTTGGGCAC CCCTTCAGAA GCGATTGAAA TTACAGCTCC CGAGGGCTCC
    TTTGCCTCTG CTGACGCCCT CCTCAGCAGG CTAGCTCACC CCGTCTCTCT CTGTGGTGCA
    CTTGACTATC TGGAGCCCGA CTTAGCAGAA AAGAACCCCC CACTATTCGC TCAGAAACTC
    CAGGAGGAGT TAGAGTTTGC CATCATGCGG ATAGAAGCCC TGAAGCTGGC CAGGCAGATT
    GCTTTGGCTT CCCGCAGCCA CCAGGATGCC AAGAGAGAGG CTGCTCACCC AACAGACGTC
    TCCATCTCCA AAACAGCCTT GTACTCCCGC ATCGGGACCG CTGAGGTGGA GAAACCTGCA
    GGCCTTCTGT TCCAGCAGCC CGACCTGGAC TCTGCCCTCC AGATCGCCAG AGCAGAGATC
    ATAACCAAGG AGAGAGAGGT CTCAGAATGG AAAGATAAAT ATGAAGAAAG CAGGCGGGAA
    GTGATGGAAA TGAGGAAAAT AGTGGCCGAG TATGAGAAGA CCATCGCTCA GATGATAGAG
    GACGAACAGA GAGAGAAGTC AGTCTCCCAC CAGACGGTGC AGCAGCTGGT TCTGGAGAAG
    GAGCAAGCCC TGGCCGACCT GAACTCCGTG GAGAAGTCTC TGGCCGACCT CTTCAGAAGA
    TATGAGAAGA TGAAGGAGGT CCTAGAAGGC TTCCGCAAGA ATGAAGAGGT GTTGAAGAGA
    TGTGCGCAGG AGTACCTGTC CCGGGTGAAG AAGGAGGAGC AGAGGTACCA GGCCCTGAAG
    GTGCACGCGG AGGAGAAACT GGACAGGGCC AATGCTGAGA TTGCTCAGGT TCGAGGCAAG
    GCCCAGCAGG AGCAAGCCGC CCACCAGGCC AGCCTGCGGA AGGAGCAGCT GCGAGTGGAC
    GCCCTGGAAA GGACGCTGGA GCAGAAGAAT AAAGAAATAG AAGAACTCAC CAAGATTTGT
    GACGAACTGA TTGCCAAAAT GGGGAAAAGC TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64128
    Clone ID Related Accession (Same CDS sequence) XM_011539129.1
    Accession Version XM_011539129.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3438bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGGTAAGC AACTCTGTAG CCAGCTGGAC CCCCACTCTG CCTCGGAGAA TCCTGCCCCT
    AGGGAGCCAA AGGCCAGGAG AGAAACTTCT CAGCCAGAGT TGGATTACAG AAACTCCTAT
    GAAATTGAAT ATATGGAGAA AATTGGCTCC TCCTTACCTC AGGACGACGA TGCCCCGAAG
    AAGCAGGCCT TGTACCTTAT GTTTGACACT TCTCAGGAGA GCCCTGTCAA GTCATCTCCC
    GTCCGCATGT CAGAGTCCCC GACGCCGTGT TCAGGGTCAA GTTTTGAAGA GACTGAAGCC
    CTTGTGAACA CTGCTGCGAA AAACCAGCAT CCTGTCCCAC GAGGACTGGC CCCTAACCAA
    GAGTCACACT TGCAGGTGCC AGAGAAATCC TCCCAGAAGG AGCTGGAGGC CATGGGCTTG
    GGCACCCCTT CAGAAGCGAT TGAAATTACA GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC
    GCCCTCCTCA GCAGGCTAGC TCACCCCGTC TCTCTCTGTG GTGCACTTGA CTATCTGGAG
    CCCGACTTAG CAGAAAAGAA CCCCCCACTA TTCGCTCAGA AACTCCAGGA GGAGTTAGAG
    TTTGCCATCA TGCGGATAGA AGCCCTGAAG CTGGCCAGGC AGATTGCTTT GGCTTCCCGC
    AGCCACCAGG ATGCCAAGAG AGAGGCTGCT CACCCAACAG ACGTCTCCAT CTCCAAAACA
    GCCTTGTACT CCCGCATCGG GACCGCTGAG GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG
    CAGCCCGACC TGGACTCTGC CCTCCAGATC GCCAGAGCAG AGATCATAAC CAAGGAGAGA
    GAGGTCTCAG AATGGAAAGA TAAATATGAA GAAAGCAGGC GGGAAGTGAT GGAAATGAGG
    AAAATAGTGG CCGAGTATGA GAAGACCATC GCTCAGATGA TAGAGGACGA ACAGAGAGAG
    AAGTCAGTCT CCCACCAGAC GGTGCAGCAG CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC
    GACCTGAACT CCGTGGAGAA GTCTCTGGCC GACCTCTTCA GAAGATATGA GAAGATGAAG
    GAGGTCCTAG AAGGCTTCCG CAAGAATGAA GAGGTGTTGA AGAGATGTGC GCAGGAGTAC
    CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG TACCAGGCCC TGAAGGTGCA CGCGGAGGAG
    AAACTGGACA GGGCCAATGC TGAGATTGCT CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA
    GCCGCCCACC AGGCCAGCCT GCGGAAGGAG CAGCTGCGAG TGGACGCCCT GGAAAGGACG
    CTGGAGCAGA AGAATAAAGA AATAGAAGAA CTCACCAAGA TTTGTGACGA ACTGATTGCC
    AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537431.1
    CDS125..3562
    Translation

    Target ORF information:

    RefSeq Version XM_011539129.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539129.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGGTAAGC AACTCTGTAG CCAGCTGGAC CCCCACTCTG CCTCGGAGAA TCCTGCCCCT
    AGGGAGCCAA AGGCCAGGAG AGAAACTTCT CAGCCAGAGT TGGATTACAG AAACTCCTAT
    GAAATTGAAT ATATGGAGAA AATTGGCTCC TCCTTACCTC AGGACGACGA TGCCCCGAAG
    AAGCAGGCCT TGTACCTTAT GTTTGACACT TCTCAGGAGA GCCCTGTCAA GTCATCTCCC
    GTCCGCATGT CAGAGTCCCC GACGCCGTGT TCAGGGTCAA GTTTTGAAGA GACTGAAGCC
    CTTGTGAACA CTGCTGCGAA AAACCAGCAT CCTGTCCCAC GAGGACTGGC CCCTAACCAA
    GAGTCACACT TGCAGGTGCC AGAGAAATCC TCCCAGAAGG AGCTGGAGGC CATGGGCTTG
    GGCACCCCTT CAGAAGCGAT TGAAATTACA GCTCCCGAGG GCTCCTTTGC CTCTGCTGAC
    GCCCTCCTCA GCAGGCTAGC TCACCCCGTC TCTCTCTGTG GTGCACTTGA CTATCTGGAG
    CCCGACTTAG CAGAAAAGAA CCCCCCACTA TTCGCTCAGA AACTCCAGGA GGAGTTAGAG
    TTTGCCATCA TGCGGATAGA AGCCCTGAAG CTGGCCAGGC AGATTGCTTT GGCTTCCCGC
    AGCCACCAGG ATGCCAAGAG AGAGGCTGCT CACCCAACAG ACGTCTCCAT CTCCAAAACA
    GCCTTGTACT CCCGCATCGG GACCGCTGAG GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG
    CAGCCCGACC TGGACTCTGC CCTCCAGATC GCCAGAGCAG AGATCATAAC CAAGGAGAGA
    GAGGTCTCAG AATGGAAAGA TAAATATGAA GAAAGCAGGC GGGAAGTGAT GGAAATGAGG
    AAAATAGTGG CCGAGTATGA GAAGACCATC GCTCAGATGA TAGAGGACGA ACAGAGAGAG
    AAGTCAGTCT CCCACCAGAC GGTGCAGCAG CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC
    GACCTGAACT CCGTGGAGAA GTCTCTGGCC GACCTCTTCA GAAGATATGA GAAGATGAAG
    GAGGTCCTAG AAGGCTTCCG CAAGAATGAA GAGGTGTTGA AGAGATGTGC GCAGGAGTAC
    CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG TACCAGGCCC TGAAGGTGCA CGCGGAGGAG
    AAACTGGACA GGGCCAATGC TGAGATTGCT CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA
    GCCGCCCACC AGGCCAGCCT GCGGAAGGAG CAGCTGCGAG TGGACGCCCT GGAAAGGACG
    CTGGAGCAGA AGAATAAAGA AATAGAAGAA CTCACCAAGA TTTGTGACGA ACTGATTGCC
    AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64129
    Clone ID Related Accession (Same CDS sequence) XM_011539130.1
    Accession Version XM_011539130.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3345bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X26
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537432.1
    CDS125..3469
    Translation

    Target ORF information:

    RefSeq Version XM_011539130.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539130.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGCAGGAGG ACTCCGTCTT GCATAACGTC 
    ATTCTGTGGC CTCCAAACCC TGAGCCCACA CAGAGGACTT TATCAGCTCA GACTCCAAGG
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGTTCA CCTGTGGCAG ATGATATCAT CCAGCCCGCT
    GCCCCCGCAG ACCTGGAAAG CCCAACCTTA GCTGCCTCTT CCTACCACGG TGATGTTGTT
    GGCCAGGTCT CTACGGATCT GATAGCCCAG AGGAGTTCCG ATTCTGAAGA GGCATTTGAG
    ACCCCGGAGT CAACGACCCC TGTCAAAGCT CCGCCAGCTC CACCCCCACC ACCCCCCGAA
    GTCATCCCAG AACCCGAGGT CAGCACACAG CCACCCCCGG AAGAACCAGG ATGTGGTTCT
    GAGACAGTCC CTGTCCCTGA TGGCCCACGG AGCGACTCGG TGGAAGGAAG TCCCTTCCGT
    CCCCCGTCAC ACTCCTTCTC TGCCGTCTTC GATGAAGACA AGCCGATAGC CAGCAGTGGG
    ACTTACAACT TGGACTTTGA CAACATTGAG CTTGTGGATA CCTTTCAGAC CTTGGAGCCT
    CGTGCCTCAG ACGCTAAGAA TCAGGAGGGC AAAGTGAACA CACGGAGGAA GTCCACGGAT
    TCCGTCCCCA TCTCTAAGTC TACACTGTCC CGGTCGCTCA GCCTGCAAGC CAGTGACTTT
    GATGGTGCTT CTTCCTCAGG CAATCCCGAG GCCGTGGCCC TTGCCCCAGA TGCATATAGC
    ACGGGTTCCA GCAGTGCTTC TAGTACCCTT AAGCGAACTA AAAAACCGAG GCCGCCTTCC
    TTAAAAAAGA AACAGACCAC CAAGAAACCC ACAGAGACCC CCCCAGTGAA GGAGACGCAA
    CAGGAGCCAG ATGAAGAGAG CCTTGTCCCC AGTGGGGAGA ATCTAGCATC TGAGACGAAA
    ACGGAATCTG CCAAGACGGA AGGTCCTAGC CCAGCCTTAT TGGAGGAGAC GCCCCTTGAG
    CCCGCTGTGG GGCCCAAAGC TGCCTGCCCT CTGGACTCAG AGAGTGCAGA AGGGGTTGTC
    CCCCCGGCTT CTGGAGGTGG CAGAGTGCAG AACTCACCCC CTGTCGGGAG GAAAACGCTG
    CCTCTTACCA CGGCCCCGGA GGCAGGGGAG GTAACCCCAT CGGATAGCGG GGGGCAAGAG
    GACTCTCCAG CCAAAGGGCT CTCCGTAAGG CTGGAGTTTG ACTATTCTGA GGACAAGAGT
    AGTTGGGACA ACCAGCAGGA AAACCCCCCT CCTACCAAAA AGATAGGCAA AAAGCCAGTT
    GCCAAAATGC CCCTGAGGAG GCCAAAGATG AAAAAGACAC CCGAGAAACT TGACAACACT
    CCTGCCTCAC CTCCCAGATC CCCTGCTGAA CCCAATGACA TCCCCATTGC TAAAGGTACT
    TACACCTTTG ATATTGACAA GTGGGATGAC CCCAATTTTA ACCCTTTTTC TTCCACCTCA
    AAAATGCAGG AGTCTCCCAA ACTGCCCCAA CAATCATACA ACTTTGACCC AGACACCTGT
    GATGAGTCCG TTGACCCCTT TAAGACATCC TCTAAGACCC CCAGCTCACC TTCTAAATCC
    CCAGCCTCCT TTGAGATCCC AGCCAGTGCT ATGGAAGCCA ATGGAGTGGA CGGGGATGGG
    CTAAACAAGC CCGCCAAGAA GAAGAAGACG CCCCTAAAGA CTGACACATT TAGGGTGAAA
    AAGTCGCCAA AACGGTCTCC TCTCTCTGAT CCACCTTCCC AGGACCCCAC CCCAGCTGCT
    ACACCAGAAA CACCACCAGT GATCTCTGCG GTGGTCCACG CCACAGATGA GGAAAAGCTG
    GCGGTCACCA ACCAGAAGTG GACGTGCATG ACAGTGGACC TAGAGGCTGA CAAACAGGAC
    TACCCGCAGC CCTCGGACCT GTCCACCTTT GTAAACGAGA CCAAATTCAG TTCACCCACT
    GAGGAGTTGG ATTACAGAAA CTCCTATGAA ATTGAATATA TGGAGAAAAT TGGCTCCTCC
    TTACCTCAGG ACGACGATGC CCCGAAGAAG CAGGCCTTGT ACCTTATGTT TGACACTTCT
    CAGGAGAGCC CTGTCAAGTC ATCTCCCGTC CGCATGTCAG AGTCCCCGAC GCCGTGTTCA
    GGGTCAAGTT TTGAAGAGAC TGAAGCCCTT GTGAACACTG CTGCGAAAAA CCAGCATCCT
    GTCCCACGAG GACTGGCCCC TAACCAAGAG TCACACTTGC AGGTGCCAGA GAAATCCTCC
    CAGAAGGAGC TGGAGGCCAT GGGCTTGGGC ACCCCTTCAG AAGCGATTGA AATTACAGCT
    CCCGAGGGCT CCTTTGCCTC TGCTGACGCC CTCCTCAGCA GGCTAGCTCA CCCCGTCTCT
    CTCTGTGGTG CACTTGACTA TCTGGAGCCC GACTTAGCAG AAAAGAACCC CCCACTATTC
    GCTCAGAAAC TCCAGGAGGA GTTAGAGTTT GCCATCATGC GGATAGAAGC CCTGAAGCTG
    GCCAGGCAGA TTGCTTTGGC TTCCCGCAGC CACCAGGATG CCAAGAGAGA GGCTGCTCAC
    CCAACAGACG TCTCCATCTC CAAAACAGCC TTGTACTCCC GCATCGGGAC CGCTGAGGTG
    GAGAAACCTG CAGGCCTTCT GTTCCAGCAG CCCGACCTGG ACTCTGCCCT CCAGATCGCC
    AGAGCAGAGA TCATAACCAA GGAGAGAGAG GTCTCAGAAT GGAAAGATAA ATATGAAGAA
    AGCAGGCGGG AAGTGATGGA AATGAGGAAA ATAGTGGCCG AGTATGAGAA GACCATCGCT
    CAGATGATAG AGGACGAACA GAGAGAGAAG TCAGTCTCCC ACCAGACGGT GCAGCAGCTG
    GTTCTGGAGA AGGAGCAAGC CCTGGCCGAC CTGAACTCCG TGGAGAAGTC TCTGGCCGAC
    CTCTTCAGAA GATATGAGAA GATGAAGGAG GTCCTAGAAG GCTTCCGCAA GAATGAAGAG
    GTGTTGAAGA GATGTGCGCA GGAGTACCTG TCCCGGGTGA AGAAGGAGGA GCAGAGGTAC
    CAGGCCCTGA AGGTGCACGC GGAGGAGAAA CTGGACAGGG CCAATGCTGA GATTGCTCAG
    GTTCGAGGCA AGGCCCAGCA GGAGCAAGCC GCCCACCAGG CCAGCCTGCG GAAGGAGCAG
    CTGCGAGTGG ACGCCCTGGA AAGGACGCTG GAGCAGAAGA ATAAAGAAAT AGAAGAACTC
    ACCAAGATTT GTGACGAACT GATTGCCAAA ATGGGGAAAA GCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64130
    Clone ID Related Accession (Same CDS sequence) XM_011539131.1
    Accession Version XM_011539131.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3174bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG GTAAGCAACT CTGTAGCCAG
    CTGGACCCCC ACTCTGCCTC GGAGAATCCT GCCCCTAGGG AGCCAAAGGC CAGGAGAGAA
    ACTTCTCAGC CAGAGTTGGA TTACAGAAAC TCCTATGAAA TTGAATATAT GGAGAAAATT
    GGCTCCTCCT TACCTCAGGA CGACGATGCC CCGAAGAAGC AGGCCTTGTA CCTTATGTTT
    GACACTTCTC AGGAGAGCCC TGTCAAGTCA TCTCCCGTCC GCATGTCAGA GTCCCCGACG
    CCGTGTTCAG GGTCAAGTTT TGAAGAGACT GAAGCCCTTG TGAACACTGC TGCGAAAAAC
    CAGCATCCTG TCCCACGAGG ACTGGCCCCT AACCAAGAGT CACACTTGCA GGTGCCAGAG
    AAATCCTCCC AGAAGGAGCT GGAGGCCATG GGCTTGGGCA CCCCTTCAGA AGCGATTGAA
    ATTACAGCTC CCGAGGGCTC CTTTGCCTCT GCTGACGCCC TCCTCAGCAG GCTAGCTCAC
    CCCGTCTCTC TCTGTGGTGC ACTTGACTAT CTGGAGCCCG ACTTAGCAGA AAAGAACCCC
    CCACTATTCG CTCAGAAACT CCAGGAGGAG TTAGAGTTTG CCATCATGCG GATAGAAGCC
    CTGAAGCTGG CCAGGCAGAT TGCTTTGGCT TCCCGCAGCC ACCAGGATGC CAAGAGAGAG
    GCTGCTCACC CAACAGACGT CTCCATCTCC AAAACAGCCT TGTACTCCCG CATCGGGACC
    GCTGAGGTGG AGAAACCTGC AGGCCTTCTG TTCCAGCAGC CCGACCTGGA CTCTGCCCTC
    CAGATCGCCA GAGCAGAGAT CATAACCAAG GAGAGAGAGG TCTCAGAATG GAAAGATAAA
    TATGAAGAAA GCAGGCGGGA AGTGATGGAA ATGAGGAAAA TAGTGGCCGA GTATGAGAAG
    ACCATCGCTC AGATGATAGA GGACGAACAG AGAGAGAAGT CAGTCTCCCA CCAGACGGTG
    CAGCAGCTGG TTCTGGAGAA GGAGCAAGCC CTGGCCGACC TGAACTCCGT GGAGAAGTCT
    CTGGCCGACC TCTTCAGAAG ATATGAGAAG ATGAAGGAGG TCCTAGAAGG CTTCCGCAAG
    AATGAAGAGG TGTTGAAGAG ATGTGCGCAG GAGTACCTGT CCCGGGTGAA GAAGGAGGAG
    CAGAGGTACC AGGCCCTGAA GGTGCACGCG GAGGAGAAAC TGGACAGGGC CAATGCTGAG
    ATTGCTCAGG TTCGAGGCAA GGCCCAGCAG GAGCAAGCCG CCCACCAGGC CAGCCTGCGG
    AAGGAGCAGC TGCGAGTGGA CGCCCTGGAA AGGACGCTGG AGCAGAAGAA TAAAGAAATA
    GAAGAACTCA CCAAGATTTG TGACGAACTG ATTGCCAAAA TGGGGAAAAG CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537433.1
    CDS362..3535
    Translation

    Target ORF information:

    RefSeq Version XM_011539131.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539131.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACTGA CACATTTAGG GTGAAAAAGT CGCCAAAACG GTCTCCTCTC
    TCTGATCCAC CTTCCCAGGA CCCCACCCCA GCTGCTACAC CAGAAACACC ACCAGTGATC
    TCTGCGGTGG TCCACGCCAC AGATGAGGAA AAGCTGGCGG TCACCAACCA GAAGTGGACG
    TGCATGACAG TGGACCTAGA GGCTGACAAA CAGGACTACC CGCAGCCCTC GGACCTGTCC
    ACCTTTGTAA ACGAGACCAA ATTCAGTTCA CCCACTGAGG GTAAGCAACT CTGTAGCCAG
    CTGGACCCCC ACTCTGCCTC GGAGAATCCT GCCCCTAGGG AGCCAAAGGC CAGGAGAGAA
    ACTTCTCAGC CAGAGTTGGA TTACAGAAAC TCCTATGAAA TTGAATATAT GGAGAAAATT
    GGCTCCTCCT TACCTCAGGA CGACGATGCC CCGAAGAAGC AGGCCTTGTA CCTTATGTTT
    GACACTTCTC AGGAGAGCCC TGTCAAGTCA TCTCCCGTCC GCATGTCAGA GTCCCCGACG
    CCGTGTTCAG GGTCAAGTTT TGAAGAGACT GAAGCCCTTG TGAACACTGC TGCGAAAAAC
    CAGCATCCTG TCCCACGAGG ACTGGCCCCT AACCAAGAGT CACACTTGCA GGTGCCAGAG
    AAATCCTCCC AGAAGGAGCT GGAGGCCATG GGCTTGGGCA CCCCTTCAGA AGCGATTGAA
    ATTACAGCTC CCGAGGGCTC CTTTGCCTCT GCTGACGCCC TCCTCAGCAG GCTAGCTCAC
    CCCGTCTCTC TCTGTGGTGC ACTTGACTAT CTGGAGCCCG ACTTAGCAGA AAAGAACCCC
    CCACTATTCG CTCAGAAACT CCAGGAGGAG TTAGAGTTTG CCATCATGCG GATAGAAGCC
    CTGAAGCTGG CCAGGCAGAT TGCTTTGGCT TCCCGCAGCC ACCAGGATGC CAAGAGAGAG
    GCTGCTCACC CAACAGACGT CTCCATCTCC AAAACAGCCT TGTACTCCCG CATCGGGACC
    GCTGAGGTGG AGAAACCTGC AGGCCTTCTG TTCCAGCAGC CCGACCTGGA CTCTGCCCTC
    CAGATCGCCA GAGCAGAGAT CATAACCAAG GAGAGAGAGG TCTCAGAATG GAAAGATAAA
    TATGAAGAAA GCAGGCGGGA AGTGATGGAA ATGAGGAAAA TAGTGGCCGA GTATGAGAAG
    ACCATCGCTC AGATGATAGA GGACGAACAG AGAGAGAAGT CAGTCTCCCA CCAGACGGTG
    CAGCAGCTGG TTCTGGAGAA GGAGCAAGCC CTGGCCGACC TGAACTCCGT GGAGAAGTCT
    CTGGCCGACC TCTTCAGAAG ATATGAGAAG ATGAAGGAGG TCCTAGAAGG CTTCCGCAAG
    AATGAAGAGG TGTTGAAGAG ATGTGCGCAG GAGTACCTGT CCCGGGTGAA GAAGGAGGAG
    CAGAGGTACC AGGCCCTGAA GGTGCACGCG GAGGAGAAAC TGGACAGGGC CAATGCTGAG
    ATTGCTCAGG TTCGAGGCAA GGCCCAGCAG GAGCAAGCCG CCCACCAGGC CAGCCTGCGG
    AAGGAGCAGC TGCGAGTGGA CGCCCTGGAA AGGACGCTGG AGCAGAAGAA TAAAGAAATA
    GAAGAACTCA CCAAGATTTG TGACGAACTG ATTGCCAAAA TGGGGAAAAG CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64131
    Clone ID Related Accession (Same CDS sequence) XM_011539132.2 , XM_011539132.1
    Accession Version XM_011539132.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3117bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011539132.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGGAG GAGTTAGAGT TTGCCATCAT GCGGATAGAA
    GCCCTGAAGC TGGCCAGGCA GATTGCTTTG GCTTCCCGCA GCCACCAGGA TGCCAAGAGA
    GAGGCTGCTC ACCCAACAGA CGTCTCCATC TCCAAAACAG CCTTGTACTC CCGCATCGGG
    ACCGCTGAGG TGGAGAAACC TGCAGGCCTT CTGTTCCAGC AGCCCGACCT GGACTCTGCC
    CTCCAGATCG CCAGAGCAGA GATCATAACC AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT
    AAATATGAAG AAAGCAGGCG GGAAGTGATG GAAATGAGGA AAATAGTGGC CGAGTATGAG
    AAGACCATCG CTCAGATGAT AGAGGACGAA CAGAGAGAGA AGTCAGTCTC CCACCAGACG
    GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA GCCCTGGCCG ACCTGAACTC CGTGGAGAAG
    TCTCTGGCCG ACCTCTTCAG AAGATATGAG AAGATGAAGG AGGTCCTAGA AGGCTTCCGC
    AAGAATGAAG AGGTGTTGAA GAGATGTGCG CAGGAGTACC TGTCCCGGGT GAAGAAGGAG
    GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC GCGGAGGAGA AACTGGACAG GGCCAATGCT
    GAGATTGCTC AGGTTCGAGG CAAGGCCCAG CAGGAGCAAG CCGCCCACCA GGCCAGCCTG
    CGGAAGGAGC AGCTGCGAGT GGACGCCCTG GAAAGGACGC TGGAGCAGAA GAATAAAGAA
    ATAGAAGAAC TCACCAAGAT TTGTGACGAA CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537434.1
    CDS248..3364
    Translation

    Target ORF information:

    RefSeq Version XM_011539132.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539132.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGGAG GAGTTAGAGT TTGCCATCAT GCGGATAGAA
    GCCCTGAAGC TGGCCAGGCA GATTGCTTTG GCTTCCCGCA GCCACCAGGA TGCCAAGAGA
    GAGGCTGCTC ACCCAACAGA CGTCTCCATC TCCAAAACAG CCTTGTACTC CCGCATCGGG
    ACCGCTGAGG TGGAGAAACC TGCAGGCCTT CTGTTCCAGC AGCCCGACCT GGACTCTGCC
    CTCCAGATCG CCAGAGCAGA GATCATAACC AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT
    AAATATGAAG AAAGCAGGCG GGAAGTGATG GAAATGAGGA AAATAGTGGC CGAGTATGAG
    AAGACCATCG CTCAGATGAT AGAGGACGAA CAGAGAGAGA AGTCAGTCTC CCACCAGACG
    GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA GCCCTGGCCG ACCTGAACTC CGTGGAGAAG
    TCTCTGGCCG ACCTCTTCAG AAGATATGAG AAGATGAAGG AGGTCCTAGA AGGCTTCCGC
    AAGAATGAAG AGGTGTTGAA GAGATGTGCG CAGGAGTACC TGTCCCGGGT GAAGAAGGAG
    GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC GCGGAGGAGA AACTGGACAG GGCCAATGCT
    GAGATTGCTC AGGTTCGAGG CAAGGCCCAG CAGGAGCAAG CCGCCCACCA GGCCAGCCTG
    CGGAAGGAGC AGCTGCGAGT GGACGCCCTG GAAAGGACGC TGGAGCAGAA GAATAAAGAA
    ATAGAAGAAC TCACCAAGAT TTGTGACGAA CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu64131
    Clone ID Related Accession (Same CDS sequence) XM_011539132.2 , XM_011539132.1
    Accession Version XM_011539132.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3117bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform X29
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGGAG GAGTTAGAGT TTGCCATCAT GCGGATAGAA
    GCCCTGAAGC TGGCCAGGCA GATTGCTTTG GCTTCCCGCA GCCACCAGGA TGCCAAGAGA
    GAGGCTGCTC ACCCAACAGA CGTCTCCATC TCCAAAACAG CCTTGTACTC CCGCATCGGG
    ACCGCTGAGG TGGAGAAACC TGCAGGCCTT CTGTTCCAGC AGCCCGACCT GGACTCTGCC
    CTCCAGATCG CCAGAGCAGA GATCATAACC AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT
    AAATATGAAG AAAGCAGGCG GGAAGTGATG GAAATGAGGA AAATAGTGGC CGAGTATGAG
    AAGACCATCG CTCAGATGAT AGAGGACGAA CAGAGAGAGA AGTCAGTCTC CCACCAGACG
    GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA GCCCTGGCCG ACCTGAACTC CGTGGAGAAG
    TCTCTGGCCG ACCTCTTCAG AAGATATGAG AAGATGAAGG AGGTCCTAGA AGGCTTCCGC
    AAGAATGAAG AGGTGTTGAA GAGATGTGCG CAGGAGTACC TGTCCCGGGT GAAGAAGGAG
    GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC GCGGAGGAGA AACTGGACAG GGCCAATGCT
    GAGATTGCTC AGGTTCGAGG CAAGGCCCAG CAGGAGCAAG CCGCCCACCA GGCCAGCCTG
    CGGAAGGAGC AGCTGCGAGT GGACGCCCTG GAAAGGACGC TGGAGCAGAA GAATAAAGAA
    ATAGAAGAAC TCACCAAGAT TTGTGACGAA CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011537434.1
    CDS362..3478
    Translation

    Target ORF information:

    RefSeq Version XM_011539132.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011539132.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGGAGGGT CGCAGTCCCT GCAGCCAGCC CCAGCCAGCG ACCTGAACCT GGAGGCTTCC 
    GAGGCAATGA GTTCCGATTC TGAAGAGGCA TTTGAGACCC CGGAGTCAAC GACCCCTGTC
    AAAGCTCCGC CAGCTCCACC CCCACCACCC CCCGAAGTCA TCCCAGAACC CGAGGTCAGC
    ACACAGCCAC CCCCGGAAGA ACCAGGATGT GGTTCTGAGA CAGTCCCTGT CCCTGATGGC
    CCACGGAGCG ACTCGGTGGA AGGAAGTCCC TTCCGTCCCC CGTCACACTC CTTCTCTGCC
    GTCTTCGATG AAGACAAGCC GATAGCCAGC AGTGGGACTT ACAACTTGGA CTTTGACAAC
    ATTGAGCTTG TGGATACCTT TCAGACCTTG GAGCCTCGTG CCTCAGACGC TAAGAATCAG
    GAGGGCAAAG TGAACACACG GAGGAAGTCC ACGGATTCCG TCCCCATCTC TAAGTCTACA
    CTGTCCCGGT CGCTCAGCCT GCAAGCCAGT GACTTTGATG GTGCTTCTTC CTCAGGCAAT
    CCCGAGGCCG TGGCCCTTGC CCCAGATGCA TATAGCACGG GTTCCAGCAG TGCTTCTAGT
    ACCCTTAAGC GAACTAAAAA ACCGAGGCCG CCTTCCTTAA AAAAGAAACA GACCACCAAG
    AAACCCACAG AGACCCCCCC AGTGAAGGAG ACGCAACAGG AGCCAGATGA AGAGAGCCTT
    GTCCCCAGTG GGGAGAATCT AGCATCTGAG ACGAAAACGG AATCTGCCAA GACGGAAGGT
    CCTAGCCCAG CCTTATTGGA GGAGACGCCC CTTGAGCCCG CTGTGGGGCC CAAAGCTGCC
    TGCCCTCTGG ACTCAGAGAG TGCAGAAGGG GTTGTCCCCC CGGCTTCTGG AGGTGGCAGA
    GTGCAGAACT CACCCCCTGT CGGGAGGAAA ACGCTGCCTC TTACCACGGC CCCGGAGGCA
    GGGGAGGTAA CCCCATCGGA TAGCGGGGGG CAAGAGGACT CTCCAGCCAA AGGGCTCTCC
    GTAAGGCTGG AGTTTGACTA TTCTGAGGAC AAGAGTAGTT GGGACAACCA GCAGGAAAAC
    CCCCCTCCTA CCAAAAAGAT AGGCAAAAAG CCAGTTGCCA AAATGCCCCT GAGGAGGCCA
    AAGATGAAAA AGACACCCGA GAAACTTGAC AACACTCCTG CCTCACCTCC CAGATCCCCT
    GCTGAACCCA ATGACATCCC CATTGCTAAA GGTACTTACA CCTTTGATAT TGACAAGTGG
    GATGACCCCA ATTTTAACCC TTTTTCTTCC ACCTCAAAAA TGCAGGAGTC TCCCAAACTG
    CCCCAACAAT CATACAACTT TGACCCAGAC ACCTGTGATG AGTCCGTTGA CCCCTTTAAG
    ACATCCTCTA AGACCCCCAG CTCACCTTCT AAATCCCCAG CCTCCTTTGA GATCCCAGCC
    AGTGCTATGG AAGCCAATGG AGTGGACGGG GATGGGCTAA ACAAGCCCGC CAAGAAGAAG
    AAGACGCCCC TAAAGACGAT GGTTGAAGAT GTGATGTCTG TGTGTTCTCT GTTTGACACA
    TTTAGGGTGA AAAAGTCGCC AAAACGGTCT CCTCTCTCTG ATCCACCTTC CCAGGACCCC
    ACCCCAGCTG CTACACCAGA AACACCACCA GTGATCTCTG CGGTGGTCCA CGCCACAGAT
    GAGGAAAAGC TGGCGGTCAC CAACCAGAAG TGGACGTGCA TGACAGTGGA CCTAGAGGCT
    GACAAACAGG ACTACCCGCA GCCCTCGGAC CTGTCCACCT TTGTAAACGA GACCAAATTC
    AGTTCACCCA CTGAGGAGTT GGATTACAGA AACTCCTATG AAATTGAATA TATGGAGAAA
    ATTGGCTCCT CCTTACCTCA GGACGACGAT GCCCCGAAGA AGCAGGCCTT GTACCTTATG
    TTTGACACTT CTCAGGAGAG CCCTGTCAAG TCATCTCCCG TCCGCATGTC AGAGTCCCCG
    ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG ACTGAAGCCC TTGTGAACAC TGCTGCGAAA
    AACCAGCATC CTGTCCCACG AGGACTGGCC CCTAACCAAG AGTCACACTT GCAGGTGCCA
    GAGAAATCCT CCCAGAAGGA GCTGGAGGCC ATGGGCTTGG GCACCCCTTC AGAAGCGATT
    GAAATTACAG CTCCCGAGGG CTCCTTTGCC TCTGCTGACG CCCTCCTCAG CAGGCTAGCT
    CACCCCGTCT CTCTCTGTGG TGCACTTGAC TATCTGGAGC CCGACTTAGC AGAAAAGAAC
    CCCCCACTAT TCGCTCAGAA ACTCCAGGAG GAGTTAGAGT TTGCCATCAT GCGGATAGAA
    GCCCTGAAGC TGGCCAGGCA GATTGCTTTG GCTTCCCGCA GCCACCAGGA TGCCAAGAGA
    GAGGCTGCTC ACCCAACAGA CGTCTCCATC TCCAAAACAG CCTTGTACTC CCGCATCGGG
    ACCGCTGAGG TGGAGAAACC TGCAGGCCTT CTGTTCCAGC AGCCCGACCT GGACTCTGCC
    CTCCAGATCG CCAGAGCAGA GATCATAACC AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT
    AAATATGAAG AAAGCAGGCG GGAAGTGATG GAAATGAGGA AAATAGTGGC CGAGTATGAG
    AAGACCATCG CTCAGATGAT AGAGGACGAA CAGAGAGAGA AGTCAGTCTC CCACCAGACG
    GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA GCCCTGGCCG ACCTGAACTC CGTGGAGAAG
    TCTCTGGCCG ACCTCTTCAG AAGATATGAG AAGATGAAGG AGGTCCTAGA AGGCTTCCGC
    AAGAATGAAG AGGTGTTGAA GAGATGTGCG CAGGAGTACC TGTCCCGGGT GAAGAAGGAG
    GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC GCGGAGGAGA AACTGGACAG GGCCAATGCT
    GAGATTGCTC AGGTTCGAGG CAAGGCCCAG CAGGAGCAAG CCGCCCACCA GGCCAGCCTG
    CGGAAGGAGC AGCTGCGAGT GGACGCCCTG GAAAGGACGC TGGAGCAGAA GAATAAAGAA
    ATAGAAGAAC TCACCAAGAT TTGTGACGAA CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu107253
    Clone ID Related Accession (Same CDS sequence) NM_206862.4
    Accession Version NM_206862.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8847bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-10-23
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AC063960.10 and AL135793.13. On Nov 23, 2018 this sequence version replaced NM_206862.3. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (a). Isoform a has also been called the 'long' isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF528099.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000369005.6/ ENSP00000358001.1 RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGC
    ATCTCCCCAG CTGCTGCCCA TGCGGGTCTT CCTCCCTCGG CTGCAGAACA CATAGTTTCG
    CCATCTGCCC CAGCTGGTGA CAGAGTAGAA GCTTCCACTC CCTCCTGCCC AGATCCGGCC
    AAGGACCTCA GCAGGAGTTC CGATTCTGAA GAGGCATTTG AGACCCCGGA GTCAACGACC
    CCTGTCAAAG CTCCGCCAGC TCCACCCCCA CCACCCCCCG AAGTCATCCC AGAACCCGAG
    GTCAGCACAC AGCCACCCCC GGAAGAACCA GGATGTGGTT CTGAGACAGT CCCTGTCCCT
    GATGGCCCAC GGAGCGACTC GGTGGAAGGA AGTCCCTTCC GTCCCCCGTC ACACTCCTTC
    TCTGCCGTCT TCGATGAAGA CAAGCCGATA GCCAGCAGTG GGACTTACAA CTTGGACTTT
    GACAACATTG AGCTTGTGGA TACCTTTCAG ACCTTGGAGC CTCGTGCCTC AGACGCTAAG
    AATCAGGAGG GCAAAGTGAA CACACGGAGG AAGTCCACGG ATTCCGTCCC CATCTCTAAG
    TCTACACTGT CCCGGTCGCT CAGCCTGCAA GCCAGTGACT TTGATGGTGC TTCTTCCTCA
    GGCAATCCCG AGGCCGTGGC CCTTGCCCCA GATGCATATA GCACGGGTTC CAGCAGTGCT
    TCTAGTACCC TTAAGCGAAC TAAAAAACCG AGGCCGCCTT CCTTAAAAAA GAAACAGACC
    ACCAAGAAAC CCACAGAGAC CCCCCCAGTG AAGGAGACGC AACAGGAGCC AGATGAAGAG
    AGCCTTGTCC CCAGTGGGGA GAATCTAGCA TCTGAGACGA AAACGGAATC TGCCAAGACG
    GAAGGTCCTA GCCCAGCCTT ATTGGAGGAG ACGCCCCTTG AGCCCGCTGT GGGGCCCAAA
    GCTGCCTGCC CTCTGGACTC AGAGAGTGCA GAAGGGGTTG TCCCCCCGGC TTCTGGAGGT
    GGCAGAGTGC AGAACTCACC CCCTGTCGGG AGGAAAACGC TGCCTCTTAC CACGGCCCCG
    GAGGCAGGGG AGGTAACCCC ATCGGATAGC GGGGGGCAAG AGGACTCTCC AGCCAAAGGG
    CTCTCCGTAA GGCTGGAGTT TGACTATTCT GAGGACAAGA GTAGTTGGGA CAACCAGCAG
    GAAAACCCCC CTCCTACCAA AAAGATAGGC AAAAAGCCAG TTGCCAAAAT GCCCCTGAGG
    AGGCCAAAGA TGAAAAAGAC ACCCGAGAAA CTTGACAACA CTCCTGCCTC ACCTCCCAGA
    TCCCCTGCTG AACCCAATGA CATCCCCATT GCTAAAGGTA CTTACACCTT TGATATTGAC
    AAGTGGGATG ACCCCAATTT TAACCCTTTT TCTTCCACCT CAAAAATGCA GGAGTCTCCC
    AAACTGCCCC AACAATCATA CAACTTTGAC CCAGACACCT GTGATGAGTC CGTTGACCCC
    TTTAAGACAT CCTCTAAGAC CCCCAGCTCA CCTTCTAAAT CCCCAGCCTC CTTTGAGATC
    CCAGCCAGTG CTATGGAAGC CAATGGAGTG GACGGGGATG GGCTAAACAA GCCCGCCAAG
    AAGAAGAAGA CGCCCCTAAA GACTGACACA TTTAGGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGAGTT GGATTACAGA
    AACTCCTATG AAATTGAATA TATGGAGAAA ATTGGCTCCT CCTTACCTCA GGACGACGAT
    GCCCCGAAGA AGCAGGCCTT GTACCTTATG TTTGACACTT CTCAGGAGAG CCCTGTCAAG
    TCATCTCCCG TCCGCATGTC AGAGTCCCCG ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG
    ACTGAAGCCC TTGTGAACAC TGCTGCGAAA AACCAGCATC CTGTCCCACG AGGACTGGCC
    CCTAACCAAG AGTCACACTT GCAGGTGCCA GAGAAATCCT CCCAGAAGGA GCTGGAGGCC
    ATGGGCTTGG GCACCCCTTC AGAAGCGATT GAAATTACAG CTCCCGAGGG CTCCTTTGCC
    TCTGCTGACG CCCTCCTCAG CAGGCTAGCT CACCCCGTCT CTCTCTGTGG TGCACTTGAC
    TATCTGGAGC CCGACTTAGC AGAAAAGAAC CCCCCACTAT TCGCTCAGAA ACTCCAGGAG
    GAGTTAGAGT TTGCCATCAT GCGGATAGAA GCCCTGAAGC TGGCCAGGCA GATTGCTTTG
    GCTTCCCGCA GCCACCAGGA TGCCAAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_996744.4
    CDS372..9218
    Translation

    Target ORF information:

    RefSeq Version NM_206862.4
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206862.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGC
    ATCTCCCCAG CTGCTGCCCA TGCGGGTCTT CCTCCCTCGG CTGCAGAACA CATAGTTTCG
    CCATCTGCCC CAGCTGGTGA CAGAGTAGAA GCTTCCACTC CCTCCTGCCC AGATCCGGCC
    AAGGACCTCA GCAGGAGTTC CGATTCTGAA GAGGCATTTG AGACCCCGGA GTCAACGACC
    CCTGTCAAAG CTCCGCCAGC TCCACCCCCA CCACCCCCCG AAGTCATCCC AGAACCCGAG
    GTCAGCACAC AGCCACCCCC GGAAGAACCA GGATGTGGTT CTGAGACAGT CCCTGTCCCT
    GATGGCCCAC GGAGCGACTC GGTGGAAGGA AGTCCCTTCC GTCCCCCGTC ACACTCCTTC
    TCTGCCGTCT TCGATGAAGA CAAGCCGATA GCCAGCAGTG GGACTTACAA CTTGGACTTT
    GACAACATTG AGCTTGTGGA TACCTTTCAG ACCTTGGAGC CTCGTGCCTC AGACGCTAAG
    AATCAGGAGG GCAAAGTGAA CACACGGAGG AAGTCCACGG ATTCCGTCCC CATCTCTAAG
    TCTACACTGT CCCGGTCGCT CAGCCTGCAA GCCAGTGACT TTGATGGTGC TTCTTCCTCA
    GGCAATCCCG AGGCCGTGGC CCTTGCCCCA GATGCATATA GCACGGGTTC CAGCAGTGCT
    TCTAGTACCC TTAAGCGAAC TAAAAAACCG AGGCCGCCTT CCTTAAAAAA GAAACAGACC
    ACCAAGAAAC CCACAGAGAC CCCCCCAGTG AAGGAGACGC AACAGGAGCC AGATGAAGAG
    AGCCTTGTCC CCAGTGGGGA GAATCTAGCA TCTGAGACGA AAACGGAATC TGCCAAGACG
    GAAGGTCCTA GCCCAGCCTT ATTGGAGGAG ACGCCCCTTG AGCCCGCTGT GGGGCCCAAA
    GCTGCCTGCC CTCTGGACTC AGAGAGTGCA GAAGGGGTTG TCCCCCCGGC TTCTGGAGGT
    GGCAGAGTGC AGAACTCACC CCCTGTCGGG AGGAAAACGC TGCCTCTTAC CACGGCCCCG
    GAGGCAGGGG AGGTAACCCC ATCGGATAGC GGGGGGCAAG AGGACTCTCC AGCCAAAGGG
    CTCTCCGTAA GGCTGGAGTT TGACTATTCT GAGGACAAGA GTAGTTGGGA CAACCAGCAG
    GAAAACCCCC CTCCTACCAA AAAGATAGGC AAAAAGCCAG TTGCCAAAAT GCCCCTGAGG
    AGGCCAAAGA TGAAAAAGAC ACCCGAGAAA CTTGACAACA CTCCTGCCTC ACCTCCCAGA
    TCCCCTGCTG AACCCAATGA CATCCCCATT GCTAAAGGTA CTTACACCTT TGATATTGAC
    AAGTGGGATG ACCCCAATTT TAACCCTTTT TCTTCCACCT CAAAAATGCA GGAGTCTCCC
    AAACTGCCCC AACAATCATA CAACTTTGAC CCAGACACCT GTGATGAGTC CGTTGACCCC
    TTTAAGACAT CCTCTAAGAC CCCCAGCTCA CCTTCTAAAT CCCCAGCCTC CTTTGAGATC
    CCAGCCAGTG CTATGGAAGC CAATGGAGTG GACGGGGATG GGCTAAACAA GCCCGCCAAG
    AAGAAGAAGA CGCCCCTAAA GACTGACACA TTTAGGGTGA AAAAGTCGCC AAAACGGTCT
    CCTCTCTCTG ATCCACCTTC CCAGGACCCC ACCCCAGCTG CTACACCAGA AACACCACCA
    GTGATCTCTG CGGTGGTCCA CGCCACAGAT GAGGAAAAGC TGGCGGTCAC CAACCAGAAG
    TGGACGTGCA TGACAGTGGA CCTAGAGGCT GACAAACAGG ACTACCCGCA GCCCTCGGAC
    CTGTCCACCT TTGTAAACGA GACCAAATTC AGTTCACCCA CTGAGGAGTT GGATTACAGA
    AACTCCTATG AAATTGAATA TATGGAGAAA ATTGGCTCCT CCTTACCTCA GGACGACGAT
    GCCCCGAAGA AGCAGGCCTT GTACCTTATG TTTGACACTT CTCAGGAGAG CCCTGTCAAG
    TCATCTCCCG TCCGCATGTC AGAGTCCCCG ACGCCGTGTT CAGGGTCAAG TTTTGAAGAG
    ACTGAAGCCC TTGTGAACAC TGCTGCGAAA AACCAGCATC CTGTCCCACG AGGACTGGCC
    CCTAACCAAG AGTCACACTT GCAGGTGCCA GAGAAATCCT CCCAGAAGGA GCTGGAGGCC
    ATGGGCTTGG GCACCCCTTC AGAAGCGATT GAAATTACAG CTCCCGAGGG CTCCTTTGCC
    TCTGCTGACG CCCTCCTCAG CAGGCTAGCT CACCCCGTCT CTCTCTGTGG TGCACTTGAC
    TATCTGGAGC CCGACTTAGC AGAAAAGAAC CCCCCACTAT TCGCTCAGAA ACTCCAGGAG
    GAGTTAGAGT TTGCCATCAT GCGGATAGAA GCCCTGAAGC TGGCCAGGCA GATTGCTTTG
    GCTTCCCGCA GCCACCAGGA TGCCAAGAGA GAGGCTGCTC ACCCAACAGA CGTCTCCATC
    TCCAAAACAG CCTTGTACTC CCGCATCGGG ACCGCTGAGG TGGAGAAACC TGCAGGCCTT
    CTGTTCCAGC AGCCCGACCT GGACTCTGCC CTCCAGATCG CCAGAGCAGA GATCATAACC
    AAGGAGAGAG AGGTCTCAGA ATGGAAAGAT AAATATGAAG AAAGCAGGCG GGAAGTGATG
    GAAATGAGGA AAATAGTGGC CGAGTATGAG AAGACCATCG CTCAGATGAT AGAGGACGAA
    CAGAGAGAGA AGTCAGTCTC CCACCAGACG GTGCAGCAGC TGGTTCTGGA GAAGGAGCAA
    GCCCTGGCCG ACCTGAACTC CGTGGAGAAG TCTCTGGCCG ACCTCTTCAG AAGATATGAG
    AAGATGAAGG AGGTCCTAGA AGGCTTCCGC AAGAATGAAG AGGTGTTGAA GAGATGTGCG
    CAGGAGTACC TGTCCCGGGT GAAGAAGGAG GAGCAGAGGT ACCAGGCCCT GAAGGTGCAC
    GCGGAGGAGA AACTGGACAG GGCCAATGCT GAGATTGCTC AGGTTCGAGG CAAGGCCCAG
    CAGGAGCAAG CCGCCCACCA GGCCAGCCTG CGGAAGGAGC AGCTGCGAGT GGACGCCCTG
    GAAAGGACGC TGGAGCAGAA GAATAAAGAA ATAGAAGAAC TCACCAAGAT TTGTGACGAA
    CTGATTGCCA AAATGGGGAA AAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108196
    Clone ID Related Accession (Same CDS sequence) NM_001291877.2
    Accession Version NM_001291877.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8628bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform f
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AC063960.10 and AL135793.13. On May 31, 2019 this sequence version replaced NM_001291877.1. Transcript Variant: This variant (6) lacks several internal exons and uses an alternate splice site in the CDS compared to variant 1. The encoded isoform (f) is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC144599.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGGTCAGCG
    AAAGATATTG GTCTTTGGAA GGCCATGATG CCTTCCTTAG ATACAGACAC ACTGGATGTT
    TTGGAAAGGA GAGTAGTCCT TATACAGCAT GAGTTCCTAC ATAAGAAAGA AGCAAATGGC
    CATTCCCGTT TTATGTACAG TTCACCTGTG GCAGATGATA TCATCCAGCC CGCTGCCCCC
    GCAGACCTGG AAAGCCCAAC CTTAGCTGCC TCTTCCTACC ACGGTGATGT TGTTGGCCAG
    GTCTCTACGG ATCTGATAGC CCAGAGGAGT TCCGATTCTG AAGAGGCATT TGAGACCCCG
    GAGTCAACGA CCCCTGTCAA AGCTCCGCCA GCTCCACCCC CACCACCCCC CGAAGTCATC
    CCAGAACCCG AGGTCAGCAC ACAGCCACCC CCGGAAGAAC CAGGATGTGG TTCTGAGACA
    GTCCCTGTCC CTGATGGCCC ACGGAGCGAC TCGGTGGAAG GAAGTCCCTT CCGTCCCCCG
    TCACACTCCT TCTCTGCCGT CTTCGATGAA GACAAGCCGA TAGCCAGCAG TGGGACTTAC
    AACTTGGACT TTGACAACAT TGAGCTTGTG GATACCTTTC AGACCTTGGA GCCTCGTGCC
    TCAGACGCTA AGAATCAGGA GGGCAAAGTG AACACACGGA GGAAGTCCAC GGATTCCGTC
    CCCATCTCTA AGTCTACACT GTCCCGGTCG CTCAGCCTGC AAGCCAGTGA CTTTGATGGT
    GCTTCTTCCT CAGGCAATCC CGAGGCCGTG GCCCTTGCCC CAGATGCATA TAGCACGGGT
    TCCAGCAGTG CTTCTAGTAC CCTTAAGCGA ACTAAAAAAC CGAGGCCGCC TTCCTTAAAA
    AAGAAACAGA CCACCAAGAA ACCCACAGAG ACCCCCCCAG TGAAGGAGAC GCAACAGGAG
    CCAGATGAAG AGAGCCTTGT CCCCAGTGGG GAGAATCTAG CATCTGAGAC GAAAACGGAA
    TCTGCCAAGA CGGAAGGTCC TAGCCCAGCC TTATTGGAGG AGACGCCCCT TGAGCCCGCT
    GTGGGGCCCA AAGCTGCCTG CCCTCTGGAC TCAGAGAGTG CAGAAGGGGT TGTCCCCCCG
    GCTTCTGGAG GTGGCAGAGT GCAGAACTCA CCCCCTGTCG GGAGGAAAAC GCTGCCTCTT
    ACCACGGCCC CGGAGGCAGG GGAGGTAACC CCATCGGATA GCGGGGGGCA AGAGGACTCT
    CCAGCCAAAG GGCTCTCCGT AAGGCTGGAG TTTGACTATT CTGAGGACAA GAGTAGTTGG
    GACAACCAGC AGGAAAACCC CCCTCCTACC AAAAAGATAG GCAAAAAGCC AGTTGCCAAA
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278806.2
    CDS372..8999
    Translation

    Target ORF information:

    RefSeq Version NM_001291877.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291877.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGGTCAGCG
    AAAGATATTG GTCTTTGGAA GGCCATGATG CCTTCCTTAG ATACAGACAC ACTGGATGTT
    TTGGAAAGGA GAGTAGTCCT TATACAGCAT GAGTTCCTAC ATAAGAAAGA AGCAAATGGC
    CATTCCCGTT TTATGTACAG TTCACCTGTG GCAGATGATA TCATCCAGCC CGCTGCCCCC
    GCAGACCTGG AAAGCCCAAC CTTAGCTGCC TCTTCCTACC ACGGTGATGT TGTTGGCCAG
    GTCTCTACGG ATCTGATAGC CCAGAGGAGT TCCGATTCTG AAGAGGCATT TGAGACCCCG
    GAGTCAACGA CCCCTGTCAA AGCTCCGCCA GCTCCACCCC CACCACCCCC CGAAGTCATC
    CCAGAACCCG AGGTCAGCAC ACAGCCACCC CCGGAAGAAC CAGGATGTGG TTCTGAGACA
    GTCCCTGTCC CTGATGGCCC ACGGAGCGAC TCGGTGGAAG GAAGTCCCTT CCGTCCCCCG
    TCACACTCCT TCTCTGCCGT CTTCGATGAA GACAAGCCGA TAGCCAGCAG TGGGACTTAC
    AACTTGGACT TTGACAACAT TGAGCTTGTG GATACCTTTC AGACCTTGGA GCCTCGTGCC
    TCAGACGCTA AGAATCAGGA GGGCAAAGTG AACACACGGA GGAAGTCCAC GGATTCCGTC
    CCCATCTCTA AGTCTACACT GTCCCGGTCG CTCAGCCTGC AAGCCAGTGA CTTTGATGGT
    GCTTCTTCCT CAGGCAATCC CGAGGCCGTG GCCCTTGCCC CAGATGCATA TAGCACGGGT
    TCCAGCAGTG CTTCTAGTAC CCTTAAGCGA ACTAAAAAAC CGAGGCCGCC TTCCTTAAAA
    AAGAAACAGA CCACCAAGAA ACCCACAGAG ACCCCCCCAG TGAAGGAGAC GCAACAGGAG
    CCAGATGAAG AGAGCCTTGT CCCCAGTGGG GAGAATCTAG CATCTGAGAC GAAAACGGAA
    TCTGCCAAGA CGGAAGGTCC TAGCCCAGCC TTATTGGAGG AGACGCCCCT TGAGCCCGCT
    GTGGGGCCCA AAGCTGCCTG CCCTCTGGAC TCAGAGAGTG CAGAAGGGGT TGTCCCCCCG
    GCTTCTGGAG GTGGCAGAGT GCAGAACTCA CCCCCTGTCG GGAGGAAAAC GCTGCCTCTT
    ACCACGGCCC CGGAGGCAGG GGAGGTAACC CCATCGGATA GCGGGGGGCA AGAGGACTCT
    CCAGCCAAAG GGCTCTCCGT AAGGCTGGAG TTTGACTATT CTGAGGACAA GAGTAGTTGG
    GACAACCAGC AGGAAAACCC CCCTCCTACC AAAAAGATAG GCAAAAAGCC AGTTGCCAAA
    ATGCCCCTGA GGAGGCCAAA GATGAAAAAG ACACCCGAGA AACTTGACAA CACTCCTGCC
    TCACCTCCCA GATCCCCTGC TGAACCCAAT GACATCCCCA TTGCTAAAGG TACTTACACC
    TTTGATATTG ACAAGTGGGA TGACCCCAAT TTTAACCCTT TTTCTTCCAC CTCAAAAATG
    CAGGAGTCTC CCAAACTGCC CCAACAATCA TACAACTTTG ACCCAGACAC CTGTGATGAG
    TCCGTTGACC CCTTTAAGAC ATCCTCTAAG ACCCCCAGCT CACCTTCTAA ATCCCCAGCC
    TCCTTTGAGA TCCCAGCCAG TGCTATGGAA GCCAATGGAG TGGACGGGGA TGGGCTAAAC
    AAGCCCGCCA AGAAGAAGAA GACGCCCCTA AAGACTGACA CATTTAGGGT GAAAAAGTCG
    CCAAAACGGT CTCCTCTCTC TGATCCACCT TCCCAGGACC CCACCCCAGC TGCTACACCA
    GAAACACCAC CAGTGATCTC TGCGGTGGTC CACGCCACAG ATGAGGAAAA GCTGGCGGTC
    ACCAACCAGA AGTGGACGTG CATGACAGTG GACCTAGAGG CTGACAAACA GGACTACCCG
    CAGCCCTCGG ACCTGTCCAC CTTTGTAAAC GAGACCAAAT TCAGTTCACC CACTGAGGAG
    TTGGATTACA GAAACTCCTA TGAAATTGAA TATATGGAGA AAATTGGCTC CTCCTTACCT
    CAGGACGACG ATGCCCCGAA GAAGCAGGCC TTGTACCTTA TGTTTGACAC TTCTCAGGAG
    AGCCCTGTCA AGTCATCTCC CGTCCGCATG TCAGAGTCCC CGACGCCGTG TTCAGGGTCA
    AGTTTTGAAG AGACTGAAGC CCTTGTGAAC ACTGCTGCGA AAAACCAGCA TCCTGTCCCA
    CGAGGACTGG CCCCTAACCA AGAGTCACAC TTGCAGGTGC CAGAGAAATC CTCCCAGAAG
    GAGCTGGAGG CCATGGGCTT GGGCACCCCT TCAGAAGCGA TTGAAATTAG AGAGGCTGCT
    CACCCAACAG ACGTCTCCAT CTCCAAAACA GCCTTGTACT CCCGCATCGG GACCGCTGAG
    GTGGAGAAAC CTGCAGGCCT TCTGTTCCAG CAGCCCGACC TGGACTCTGC CCTCCAGATC
    GCCAGAGCAG AGATCATAAC CAAGGAGAGA GAGGTCTCAG AATGGAAAGA TAAATATGAA
    GAAAGCAGGC GGGAAGTGAT GGAAATGAGG AAAATAGTGG CCGAGTATGA GAAGACCATC
    GCTCAGATGA TAGAGGACGA ACAGAGAGAG AAGTCAGTCT CCCACCAGAC GGTGCAGCAG
    CTGGTTCTGG AGAAGGAGCA AGCCCTGGCC GACCTGAACT CCGTGGAGAA GTCTCTGGCC
    GACCTCTTCA GAAGATATGA GAAGATGAAG GAGGTCCTAG AAGGCTTCCG CAAGAATGAA
    GAGGTGTTGA AGAGATGTGC GCAGGAGTAC CTGTCCCGGG TGAAGAAGGA GGAGCAGAGG
    TACCAGGCCC TGAAGGTGCA CGCGGAGGAG AAACTGGACA GGGCCAATGC TGAGATTGCT
    CAGGTTCGAG GCAAGGCCCA GCAGGAGCAA GCCGCCCACC AGGCCAGCCT GCGGAAGGAG
    CAGCTGCGAG TGGACGCCCT GGAAAGGACG CTGGAGCAGA AGAATAAAGA AATAGAAGAA
    CTCACCAAGA TTTGTGACGA ACTGATTGCC AAAATGGGGA AAAGCTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108200
    Clone ID Related Accession (Same CDS sequence) NM_001291876.2
    Accession Version NM_001291876.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8481bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-07-22
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform e
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AC063960.10 and AL135793.13. On May 31, 2019 this sequence version replaced NM_001291876.1. Transcript Variant: This variant (5) lacks several internal exons in the CDS compared to variant 1. The encoded isoform (e) is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC144600.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142363, SAMEA2142853 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278805.2
    CDS372..8852
    Translation

    Target ORF information:

    RefSeq Version NM_001291876.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291876.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCTGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu21945
    Clone ID Related Accession (Same CDS sequence) NM_001291876.1
    Accession Version NM_001291876.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8481bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-15
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform e
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, BC144600.1, AL135793.13 and R46074.1. Transcript Variant: This variant (5) lacks several internal exons in the CDS compared to variant 1. The encoded isoform (e) is shorter than isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC144600.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142363, SAMEA2142853 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCCGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001278805.1
    CDS361..8841
    Translation

    Target ORF information:

    RefSeq Version NM_001291876.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transforming acidic coiled-coil containing protein 2 (TACC2), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001291876.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    ATGGGCAATG AGAACAGCAC CTCGGACAAC CAGAGGACTT TATCAGCTCA GACTCCAAGG 
    TCCGCGCAGC CACCCGGGAA CAGTCAGAAT ATAAAAAGGA AGCAGCAGGA CACGCCCGGA
    AGCCCTGACC ACAGAGACGC GTCCAGCATT GGCAGCGTTG GGCTTGGAGG CTTCTGCACC
    GCTTCTGAGA GTTCTGCCAG CCTGGATCCA TGCCTTGTGT CCCCAGAGGT GACTGAGCCA
    AGGAAGGACC CACAGGGAGC CAGGGGGCCA GAAGGTTCTT TGCTGCCCAG CCCACCACCG
    TCCCAGGAGC GAGAGCACCC CTCGTCCTCC ATGCCCTTTG CCGAGTGTCC CCCGGAAGGT
    TGCTTGGCAA GTCCAGCAGC GGCACCTGAA GATGGTCCTC AGACTCAGTC TCCCAGGAGG
    GAACCTGCCC CAAATGCCCC AGGAGACATC GCGGCGGCAT TTCCCGCTGA GAGGGACAGC
    TCTACTCCAT ACCAAGAGAT TGCTGCCGTC CCCAGTGCTG GAAGAGAGAG ACAGCCGAAG
    GAAGAAGGAC AGAAGTCCTC CTTCTCCTTC TCCAGTGGCA TCGACCAGTC ACCTGGAATG
    TCGCCAGTAC CCCTCAGAGA GCCAATGAAG GCACCGCTGT GTGGAGAGGG GGACCAGCCT
    GGTGGTTTTG AGTCCCAAGA GAAAGAGGCT GCAGGTGGCT TTCCCCCTGC AGAGTCCAGG
    CAGGGGGTGG CTTCTGTGCA AGTGACCCCT GAGGCCCCTG CTGCAGCCCA GCAGGGCACA
    GAAAGCTCAG CGGTCTTGGA GAAGTCCCCC CTAAAACCCA TGGCCCCGAT CCCACAAGAT
    CCAGCCCCAA GAGCCTCAGA CAGAGAAAGA GGCCAAGGGG AGGCGCCGCC TCAGTATTTA
    ACAGATGACT TGGAATTCCT CAGGGCCTGC CATCTCCCTA GGAGCAATTC AGGGGCTGCC
    CCAGAAGCAG AAGTGAATGC CGCTTCCCAG GAGAGCTGCC AGCAGCCAGT GGGAGCATAT
    CTGCCGCACG CAGAGCTGCC CTGGGGCTTG CCAAGTCCTG CCCTGGTGCC AGAGGCTGGG
    GGCTCTGGGA AGGAGGCTCT GGACACCATT GATGTTCAGG GTCACCCACA GACAGGGATG
    CGAGGAACCA AGCCCAATCA AGTTGTCTGT GTGGCAGCAG GCGGCCAGCC CGAAGGGGGT
    TTGCCTGTGA GCCCTGAACC TTCCCTGCTC ACTCCGACTG AGGAAGCACA TCCAGCTTCA
    AGCCTCGCTT CATTCCCAGC TGCTCAGATT CCTATTGCTG TAGAAGAACC TGGATCATCA
    TCCAGGGAAT CAGTTTCCAA GGCTGGGATG CCAGTTTCTG CAGATGCAGC CAAAGAGGTG
    GTGGATGCAG GGTTGGTGGG ACTGGAGAGG CAGGTGTCAG ATCTTGGAAG CAAGGGAGAG
    CATCCAGAAG GGGACCCTGG AGAGGTTCCT GCCCCATCAC CCCAGGAGAG GGGAGAGCAC
    TTGAACACGG AGCAAAGCCA TGAGGTCCAA CCAGGAGTAC CACCCCCTCC TCTTCCCAAG
    GAGCAAAGCC ATGAGGTCCA ACCAGGAGCA CCACCCCCTC CTCTTCCCAA GGCACCAAGT
    GAAAGTGCCA GAGGGCCACC GGGGCCAACG GATGGAGCCA AGGTCCATGA AGATTCCACA
    AGCCCAGCCG TGGCTAAAGA AGGAAGCAGA TCACCTGGTG ACAGCCCTGG AGGAAAGGAG
    GAAGCCCCAG AGCCACCTGA TGGTGGAGAC CCAGGGAACC TGCAAGGAGA GGACTCTCAG
    GCTTTCAGCA GCAAGCGTGA TCCAGAAGTA GGCAAAGATG AGCTTTCAAA GCCAAGCAGT
    GATGCAGAGA GCAGAGACCA TCCCAGCTCA CACTCAGCAC AGCCACCCAG AAAGGGGGGT
    GCTGGGCACA CGGACGGGCC CCACTCTCAG ACAGCAGAGG CTGATGCATC TGGCCTACCA
    CACAAGCTGG GTGAGGAGGA CCCCGTCCTG CCCCCTGTGC CAGATGGAGC TGGTGAGCCC
    ACTGTTCCCG AAGGAGCCAT CTGGGAGGGG TCAGGATTGC AGCCCAAATG TCCTGACACC
    CTTCAGAGCA GGGAAGGATT GGGAAGAATG GAGTCTTTCC TGACTTTAGA ATCAGAGAAA
    TCAGATTTTC CACCAACTCC TGTTGCAGAG GTTGCACCCA AAGCCCAGGA AGGTGAGAGC
    ACATTGGAAA TAAGGAAGAT GGGCAGCTGT GATGGGGAGG GCTTGCTGAC GTCCCCAGAT
    CAACCCCGCG GGCCGGCGTG TGATGCGTCG AGACAGGAAT TTCATGCTGG GGTGCCACAT
    CCCCCCCAGG GGGAGAACTT GGCAGCAGAC CTGGGGCTCA CGGCACTCAT CCTGGACCAA
    GATCAGCAGG GAATCCCATC CTGCCCAGGG GAAGGCTGGA TAAGAGGAGC TGCATCCGAG
    TGGCCCCTAC TATCTTCTGA GAAGCATCTC CAGCCATCCC AGGCACAACC AGAGACATCC
    ATCTTTGACG TGCTCAAGGA GCAGGCCCAG CCACCTGAAA ATGGGAAAGA GACTTCTCCA
    AGCCATCCAG GTTTTAAGGA CCAGGGAGCA GATTCTTCCC AAATCCATGT ACCTGTGGAA
    CCTCAGGAAG ATAACAACTT GCCCACTCAT GGAGGACAGG AGCAGGCTTT GGGATCAGAA
    CTTCAAAGTC AGCTCCCCAA AGGCACCCTG TCTGATACTC CAACTTCATC TCCCACTGAC
    ATGGTTTGGG AGAGTTCTCT GACAGAAGAG TCAGAATTGT CAGCACCAAC GAGACAGAAG
    TTGCCTGCAC TAGGGGAGAA GCGGCCAGAG GGAGCATGCG GTGATGGTCA GTCCTCGAGG
    GTCTCGCCTC CAGCAGCAGA TGTCTTAAAA GACTTTTCTC TTGCAGGGAA CTTCAGCAGA
    AAGGAAACTT GCTGCACTGG GCAGGGGCCA AACAAGTCTC AACAGGCATT GGCTGATGCC
    TTGGAAGAAG GCAGCCAGCA TGAAGAAGCA TGTCAAAGGC ATCCAGGAGC TTCTGAAGCA
    GCTGATGGTT GTTCCCCACT CTGGGGCTTG AGTAAGAGGG AGATGGCAAG TGGAAACACA
    GGGGAGGCCC CACCTTGTCA GCCTGACTCA GTAGCTCTCC TGGATGCAGT TCCCTGCCTG
    CCAGCCCTGG CGCCCGCCAG CCCCGGAGTC ACACCCACCC AGGATGCCCC AGAGACAGAG
    GCATGTGATG AAACCCAGGA AGGCAGGCAG CAACCAGTGC CGGCCCCGCA GCAGAAAATG
    GAGTGCCGGG CCACTTCGGA TGCAGAGTCC CCAAAGCTTC TTGCAAGTTT CCCATCAGCT
    GGGGAGCAAG GTGGTGAAGC CGGGGCTGCT GAGACTGGTG GCAGCGCTGG TGCAGGAGAC
    CCAGGAAAGC AGCAGGCTCC GGAGAAACCT GGAGAAGCTA CTTTGAGTTG TGGCCTCCTT
    CAGACTGAGC ACTGCCTTAC CTCCGGGGAG GAAGCTTCTA CCTCTGCCCT ACGTGAGTCC
    TGCCAAGCTG AGCACCCCAT GGCCAGCTGC CAGGATGCCT TGCTGCCAGC CAGAGAGCTG
    GGTGGGATTC CCAGGAGCAC CATGGATTTT TCTACACACC AGGCTGTCCC AGACCCAAAG
    GAGCTCCTGC TGTCTGGGCC ACCAGAAGTG GCTGCTCCTG ACACCCCTTA CCTGCATGTC
    GACAGTGCTG CCCAGAGAGG AGCAGAAGAC AGTGGAGTGA AAGCTGTTTC CTCTGCAGAC
    CCCAGAGCTC CTGGCGAAAG CCCCTGTCCT GTAGGGGAGC CCCCACTTGC CTTGGAAAAT
    GCTGCCTCCT TGAAGCTGTT TGCTGGCTCC CTCGCCCCCC TGTTGCAACC AGGAGCTGCA
    GGTGGGGAAA TCCCTGCAGT GCAAGCCAGC AGTGGTAGTC CCAAAGCCAG AACCACTGAG
    GGACCAGTGG ACTCCATGCC ATGCCTGGAC CGGATGCCAC TTCTGGCCAA GGGCAAGCAG
    GCAACAGGGG AAGAGAAAGC AGCAACAGCT CCAGGTGCAG GTGCCAAGGC CAGTGGGGAG
    GGCATGGCAG GTGATGCAGC AGGAGAGACA GAGGGCAGCA TGGAGAGGAT GGGAGAGCCT
    TCCCAGGACC CAAAGCAGGG CACATCAGGT GGTGTGGACA CAAGCTCTGA GCAAATCGCC
    ACCCTCACTG GCTTCCCAGA CTTCAGGGAG CACATCGCCA AGATCTTCGA GAAGCCTGTG
    CTCGGAGCCC TGGCCACACC TGGAGAAAAG GCAGGAGCTG GGAGGAGTGC AGTGGGTAAA
    GACCTCACCA GGCCATTGGG CCCAGAGAAG CTTCTAGATG GGCCTCCAGG AGTGGATGTC
    ACCCTTCTCC CTGCACCTCC TGCTCGACTC CAGGTGGAGA AGAAGCAACA GTTGGCTGGA
    GAGGCTGAGA TTTCCCATCT GGCTCTGCAA GATCCAGCTT CAGACAAGCT TCTGGGTCCA
    GCAGGGCTGA CCTGGGAGCG GAACTTGCCA GGTGCCGGTG TGGGGAAGGA GATGGCAGGT
    GTCCCACCCA CACTGAGGGA AGACGAGAGG CCAGAGGGGC CTGGGGCAGC CTGGCCAGGC
    CTGGAAGGCC AGGCTTACTC ACAGCTGGAG AGGAGCAGGC AGGAATTAGC TTCAGGTCTT
    CCTTCACCAG CAGCTACTCA GGAGCTCCCT GTGGAGAGAG CTGCTGCCTT CCAGGTGGCT
    CCCCATAGCC ATGGAGAAGA GGCCGTGGCC CAAGACAGAA TTCCTTCTGG AAAGCAGCAC
    CAGGAAACAT CTGCCTGCGA CAGTCCACAT GGAGAAGATG GTCCCGGGGA CTTTGCTCAC
    ACAGGGGTTC CAGGACATGT GCCAAGGTCC ACGTGTGCCC CTTCTCCTCA GAGGGAGGTT
    TTGACTGTGC CTGAGGCCAA CAGTGAGCCC TGGACCCTTG ACACGCTTGG GGGTGAAAGG
    AGACCCGGAG TCACTGCTGG CATCTTGGAA ATGCGAAATG CCCTGGGCAA CCAGAGCACC
    CCTGCACCAC CAACTGGAGA AGTGGCAGAC ACTCCCCTGG AGCCTGGCAA GGTGGCAGGC
    GCTGCTGGGG AAGCAGAGGG TGACATCACC CTGAGCACAG CTGAGACACA GGCATGTGCG
    TCCGGTGATC TGCCTGAAGC AGGTACTACG AGGACATTCT CCGTTGTGGC AGGTGACTTG
    GTGCTGCCAG GAAGCTGTCA GGACCCAGCC TGCTCTGACA AGGCTCCGGG GATGGAGGGT
    ACAGCTGCCC TTCATGGGGA CAGCCCAGCC AGGCCCCAGC AGGCTAAGGA GCAGCCAGGG
    CCTGAGCGCC CCATTCCAGC TGGGGATGGG AAGGTGTGCG TCTCCTCACC TCCAGAGCCT
    GACGAAACTC ACGACCCGAA GCTGCAACAT TTGGCTCCAG AAGAGCTCCA CACTGACAGA
    GAGAGCCCCA GGCCTGGCCC ATCCATGTTA CCTTCGGTTC CTAAGAAGGA TGCTCCAAGA
    GTCATGGATA AAGTCACTTC AGATGAGACC AGAGGTGCGG AAGGAACAGA AAGTTCACCT
    GTGGCAGATG ATATCATCCA GCCCGCTGCC CCCGCAGACC TGGAAAGCCC AACCTTAGCT
    GCCTCTTCCT ACCACGGTGA TGTTGTTGGC CAGGTCTCTA CGGATCTGAT AGCCCAGAGG
    AGTTCCGATT CTGAAGAGGC ATTTGAGACC CCGGAGTCAA CGACCCCTGT CAAAGCTCCG
    CCAGCTCCAC CCCCACCACC CCCCGAAGTC ATCCCAGAAC CCGAGGTCAG CACACAGCCA
    CCCCCGGAAG AACCAGGATG TGGTTCTGAG ACAGTCCCTG TCCCTGATGG CCCACGGAGC
    GACTCGGTGG AAGGAAGTCC CTTCCGTCCC CCGTCACACT CCTTCTCTGC CGTCTTCGAT
    GAAGACAAGC CGATAGCCAG CAGTGGGACT TACAACTTGG ACTTTGACAA CATTGAGCTT
    GTGGATACCT TTCAGACCTT GGAGCCTCGT GCCTCAGACG CTAAGAATCA GGAGGGCAAA
    GTGAACACAC GGAGGAAGTC CACGGATTCC GTCCCCATCT CTAAGTCTAC ACTGTCCCGG
    TCGCTCAGCC TGCAAGCCAG TGACTTTGAT GGTGCTTCTT CCTCAGGCAA TCCCGAGGCC
    GTGGCCCTTG CCCCAGATGC ATATAGCACG GGTTCCAGCA GTGCTTCTAG TACCCTTAAG
    CGAACTAAAA AACCGAGGCC GCCTTCCTTA AAAAAGAAAC AGACCACCAA GAAACCCACA
    GAGACCCCCC CAGTGAAGGA GACGCAACAG GAGCCAGATG AAGAGAGCCT TGTCCCCAGT
    GGGGAGAATC TAGCATCTGA GACGAAAACG GAATCTGCCA AGACGGAAGG TCCTAGCCCA
    GCCTTATTGG AGGAGACGCC CCTTGAGCCC GCTGTGGGGC CCAAAGCTGC CTGCCCTCTG
    GACTCAGAGA GTGCAGAAGG GGTTGTCCCC CCGGCTTCTG GAGGTGGCAG AGTGCAGAAC
    TCACCCCCTG TCGGGAGGAA AACGCTGCCT CTTACCACGG CCCCGGAGGC AGGGGAGGTA
    ACCCCATCGG ATAGCGGGGG GCAAGAGGAC TCTCCAGCCA AAGGGCTCTC CGTAAGGCTG
    GAGTTTGACT ATTCTGAGGA CAAGAGTAGT TGGGACAACC AGCAGGAAAA CCCCCCTCCT
    ACCAAAAAGA TAGGCAAAAA GCCAGTTGCC AAAATGCCCC TGAGGAGGCC AAAGATGAAA
    AAGACACCCG AGAAACTTGA CAACACTCCT GCCTCACCTC CCAGATCCCC TGCTGAACCC
    AATGACATCC CCATTGCTAA AGGTACTTAC ACCTTTGATA TTGACAAGTG GGATGACCCC
    AATTTTAACC CTTTTTCTTC CACCTCAAAA ATGCAGGAGT CTCCCAAACT GCCCCAACAA
    TCATACAACT TTGACCCAGA CACCTGTGAT GAGTCCGTTG ACCCCTTTAA GACATCCTCT
    AAGACCCCCA GCTCACCTTC TAAATCCCCA GCCTCCTTTG AGATCCCAGC CAGTGCTATG
    GAAGCCAATG GAGTGGACGG GGATGGGCTA AACAAGCCCG CCAAGAAGAA GAAGACGCCC
    CTAAAGACTG ACACATTTAG GGTGAAAAAG TCGCCAAAAC GGTCTCCTCT CTCTGATCCA
    CCTTCCCAGG ACCCCACCCC AGCTGCTACA CCAGAAACAC CACCAGTGAT CTCTGCGGTG
    GTCCACGCCA CAGATGAGGA AAAGCTGGCG GTCACCAACC AGAAGTGGAC GTGCATGACA
    GTGGACCTAG AGGCTGACAA ACAGGACTAC CCGCAGCCCT CGGACCTGTC CACCTTTGTA
    AACGAGACCA AATTCAGTTC ACCCACTGAG GAGTTGGATT ACAGAAACTC CTATGAAATT
    GAATATATGG AGAAAATTGG CTCCTCCTTA CCTCAGGACG ACGATGCCCC GAAGAAGCAG
    GCCTTGTACC TTATGTTTGA CACTTCTCAG GAGAGCCCTG TCAAGTCATC TCCCGTCCGC
    ATGTCAGAGT CCCCGACGCC GTGTTCAGGG TCAAGTTTTG AAGAGACTGA AGCCCTTGTG
    AACACTGCTG CGAAAAACCA GCATCCTGTC CCACGAGGAC TGGCCCCTAA CCAAGAGTCA
    CACTTGCAGG TGCCAGAGAA ATCCTCCCAG AAGGAGCTGG AGGCCATGGG CTTGGGCACC
    CCTTCAGAAG CGATTGAAAT TAGAGAGGCT GCTCACCCAA CAGACGTCTC CATCTCCAAA
    ACAGCCTTGT ACTCCCGCAT CGGGACCGCT GAGGTGGAGA AACCTGCAGG CCTTCTGTTC
    CAGCAGCCCG ACCTGGACTC TGCCCTCCAG ATCGCCAGAG CAGAGATCAT AACCAAGGAG
    AGAGAGGTCT CAGAATGGAA AGATAAATAT GAAGAAAGCA GGCGGGAAGT GATGGAAATG
    AGGAAAATAG TGGCCGAGTA TGAGAAGACC ATCGCTCAGA TGATAGAGGA CGAACAGAGA
    GAGAAGTCAG TCTCCCACCA GACGGTGCAG CAGCTGGTTC TGGAGAAGGA GCAAGCCCTG
    GCCGACCTGA ACTCCGTGGA GAAGTCTCTG GCCGACCTCT TCAGAAGATA TGAGAAGATG
    AAGGAGGTCC TAGAAGGCTT CCGCAAGAAT GAAGAGGTGT TGAAGAGATG TGCGCAGGAG
    TACCTGTCCC GGGTGAAGAA GGAGGAGCAG AGGTACCAGG CCCTGAAGGT GCACGCGGAG
    GAGAAACTGG ACAGGGCCAA TGCTGAGATT GCTCAGGTTC GAGGCAAGGC CCAGCAGGAG
    CAAGCCGCCC ACCAGGCCAG CCTGCGGAAG GAGCAGCTGC GAGTGGACGC CCTGGAAAGG
    ACGCTGGAGC AGAAGAATAA AGAAATAGAA GAACTCACCA AGATTTGTGA CGAACTGATT
    GCCAAAATGG GGAAAAGCTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu28256
    Clone ID Related Accession (Same CDS sequence) NM_206862.3
    Accession Version NM_206862.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 8847bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-11-19
    Organism Homo sapiens(human)
    Product transforming acidic coiled-coil-containing protein 2 isoform a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL731566.7, AF528099.1, AC063960.10, AL135793.13 and R46074.1. This sequence is a reference standard in the RefSeqGene project. On May 6, 2014 this sequence version replaced NM_206862.2. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (a). Isoform a has also been called the 'long' isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF528099.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    12