SYCP2 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following SYCP2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SYCP2 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
OHu06285 NM_014258.4
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu06285 XM_011528489.2
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu63959 XM_017027592.2
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu92880 XM_017027591.1
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu92879 XM_017027587.1
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu63954 XM_011528488.2
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63954 XM_011528487.3
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63954 XM_017027586.1
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63955 XM_011528490.3
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63956 XM_017027588.1
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63957 XM_017027589.1
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63958 XM_017027590.2
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu63958 XM_011528493.2
Latest version!
Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu06285 NM_014258.3 Homo sapiens synaptonemal complex protein 2 (SYCP2), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu63955 XM_011528490.2 Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63954 XM_011528487.2 Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu63959 XM_017027592.1 Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu63958 XM_017027590.1 Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
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 OHu06285
    Clone ID Related Accession (Same CDS sequence) NM_014258.4 , NM_014258.3 , XM_011528489.2
    Accession Version NM_014258.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product synaptonemal complex protein 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX649108.1, AL109928.33, AL158092.30 and DB636651.1. This sequence is a reference standard in the RefSeqGene project. On Nov 22, 2018 this sequence version replaced NM_014258.3. ##Evidence-Data-START## Transcript exon combination :: BX649108.1, BX648091.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000357552.8/ ENSP00000350162.2 RefSeq Select criteria :: based on conservation, expression ##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
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    RefSeq NP_055073.2
    CDS209..4801
    Translation

    Target ORF information:

    RefSeq Version NM_014258.4
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014258.4

    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
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    CloneID OHu06285
    Clone ID Related Accession (Same CDS sequence) NM_014258.4 , NM_014258.3 , XM_011528489.2
    Accession Version NM_014258.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 2017-10-02
    Organism Homo sapiens(human)
    Product synaptonemal complex protein 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB443704.1, AL109928.33, BX649108.1, AL158092.30 and DB636651.1. This sequence is a reference standard in the RefSeqGene project. On or before Dec 17, 2015 this sequence version replaced XM_005260247.2, NM_014258.2. ##Evidence-Data-START## Transcript exon combination :: BX649108.1, BX648091.1 [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
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    RefSeq NP_055073.2
    CDS235..4827
    Translation

    Target ORF information:

    RefSeq Version NM_014258.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014258.3

    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
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    CloneID OHu06285
    Clone ID Related Accession (Same CDS sequence) NM_014258.4 , NM_014258.3 , XM_011528489.2
    Accession Version XM_011528489.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 synaptonemal complex protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011528489.1. ##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
    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
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    RefSeq XP_011526791.1
    CDS266..4858
    Translation

    Target ORF information:

    RefSeq Version XM_011528489.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528489.2

    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
    ATGCCAATAA GACCAGATCT CCAGCAGTTG GAAAAATGCA TTGATGATGC TTTAAGAAAA 
    AATGATTTCA AACCTTTGAA AACACTTTTG CAAATTGATA TTTGTGAAGA TGTGAAGATT
    AAATGCAGCA AACAGTTTTT CCACAAGGTG GACAACCTTA TATGCAGGGA ACTTAATAAA
    GAGGATATCC ACAATGTTTC AGCCATTTTG GTTTCTGTTG GAAGATGTGG CAAAAATATC
    AGTGTATTGG GGCAAGCTGG ACTTCTAACG ATGATAAAAC AAGGACTAAT ACAAAAGATG
    GTTGCCTGGT TTGAAAAATC CAAGGACATT ATTCAGAGTC AAGGAAATTC AAAAGATGAA
    GCTGTTCTAA ATATGATAGA AGACTTAGTT GATCTTCTGC TGGTCATACA TGATGTCAGT
    GATGAAGGTA AAAAACAAGT AGTGGAAAGT TTCGTACCTC GCATTTGTTC CCTGGTTATT
    GACTCAAGAG TGAATATTTG TATTCAGCAA GAGATTATAA AAAAAATGAA TGCTATGCTT
    GACAAAATGC CTCAAGATGC CCGGAAAATA CTCTCTAACC AAGAAATGTT AATTCTCATG
    AGTAGTATGG GAGAAAGGAT TTTAGATGCT GGAGATTATG ACTTACAGGT AGGCATTGTA
    GAAGCTTTGT GTAGAATGAC CACAGAAAAA CAAAGACAAG AACTGGCACA TCAGTGGTTT
    TCAATGGATT TTATTGCTAA GGCATTTAAA AGAATTAAGG ACTCTGAATT TGAAACAGAT
    TGCAGGATAT TTCTCAACCT TGTAAATGGC ATGCTTGGAG ACAAAAGAAG GGTCTTTACA
    TTTCCTTGTT TATCAGCATT TCTTGATAAA TATGAGCTGC AAATACCATC AGATGAAAAA
    CTTGAGGAAT TTTGGATTGA TTTTAATCTT GGGAGTCAGA CTCTCTCATT CTACATTGCT
    GGAGATAATG ATGATCATCA ATGGGAAGCA GTTACTGTGC CAGAGGAAAA AGTACAAATA
    TACAGCATTG AAGTGAGAGA ATCAAAGAAG CTACTGACAA TAATTCTGAA AAATACAGTA
    AAAATTAGCA AAAGAGAAGG GAAAGAATTG CTTTTGTATT TTGACGCATC ACTAGAAATC
    ACTAATGTAA CTCAAAAAAT TTTTGGTGCA ACTAAACATA GGGAATCTAT CAGAAAACAA
    GGTATTTCAG TTGCCAAAAC GTCGCTGCAT ATACTTTTTG ACGCAAGTGG ATCACAGATT
    CTAGTGCCAG AAAGTCAAAT CTCACCAGTC GGAGAAGAGC TCGTTAGTTT AAAGGAAAAA
    TCAAAGTCCC CAAAGGAATT TGCTAAACCT TCAAAATATA TCAAAAACAG TGACAAAGGG
    AATAGAAATA ATAGTCAGCT TGAGAAAACT ACTCCTAGCA AAAGAAAAAT GTCTGAAGCA
    TCAATGATTG TTTCTGGTGC AGATAGATAC ACTATGAGAA GTCCAGTGCT TTTCAGCAAC
    ACATCAATAC CACCACGAAG AAGAAGAATT AAACCACCAC TGCAAATGAC GAGCTCTGCA
    GAGAAACCTA GTGTTTCTCA AACATCAGAA AATAGAGTGG ATAATGCTGC ATCACTGAAA
    TCTAGATCAT CAGAAGGAAG ACATAGAAGA GATAATATAG ACAAACATAT CAAAACTGCT
    AAGTGTGTAG AAAACACAGA AAATAAGAAT GTTGAATTCC CAAACCAAAA TTTTAGTGAA
    CTCCAGGATG TTATACCAGA TTCACAGGCA GCGGAAAAAA GAGATCATAC TATATTACCT
    GGTGTTTTAG ACAACATCTG TGGAAATAAA ATACACAGCA AATGGGCATG TTGGACACCT
    GTAACAAACA TTGAACTATG TAATAACCAA AGAGCAAGTA CTTCGTCAGG AGACACATTG
    AATCAAGATA TTGTTATAAA TAAAAAACTT ACTAAACAAA AATCATCCTC TTCAATATCT
    GATCATAATT CTGAAGGAAC AGGAAAAGTG AAATATAAGA AAGAACAAAC CGACCATATC
    AAAATAGATA AAGCAGAAGT AGAAGTTTGC AAGAAACACA ATCAGCAACA AAATCATCCT
    AAATATTCAG GGCAGAAAAA TACTGAAAAT GCCAAGCAGA GTGATTGGCC TGTTGAATCT
    GAAACTACTT TTAAATCGGT TCTCCTAAAT AAGACAATTG AAGAATCGCT GATATATAGG
    AAGAAATACA TATTGTCAAA AGATGTGAAT ACTGCTACTT GCGATAAAAA TCCATCTGCT
    AGCAAAAATG TGCAAAGTCA TAGAAAAGCA GAGAAAGAAT TGACTTCTGA GCTTAATTCC
    TGGGATTCGA AACAAAAAAA AATGAGAGAA AAGTCAAAAG GGAAAGAATT TACCAATGTA
    GCAGAATCCT TGATAAGCCA AATCAATAAA AGATACAAAA CAAAAGATGA CATCAAGTCT
    ACAAGAAAAT TAAAGGAGTC TTTGATTAAC AGTGGTTTTT CAAACAAACC TGTTGTACAA
    CTCAGTAAGG AAAAAGTTCA GAAAAAAAGC TACAGAAAAC TGAAGACTAC CTTTGTTAAT
    GTTACTTCTG AATGCCCAGT GAATGATGTT TACAATTTTA ATTTGAATGG AGCTGATGAC
    CCTATCATAA AACTTGGAAT CCAAGAGTTT CAAGCTACAG CTAAAGAAGC TTGTGCGGAT
    AGGTCAATTA GATTGGTAGG TCCAAGGAAT CATGATGAAC TTAAATCTTC TGTCAAAACA
    AAAGATAAAA AAATTATAAC AAATCATCAA AAGAAAAATC TGTTTAGTGA TACTGAAACA
    GAGTACAGAT GTGATGACAG CAAGACTGAT ATTAGCTGGC TAAGAGAACC GAAATCAAAA
    CCACAGCTAA TAGACTATAG CAGAAATAAA AATGTGAAGA ATCATAAAAG TGGAAAATCA
    AGATCATCCT TGGAAAAGGG ACAGCCAAGC TCTAAAATGA CACCCAGTAA AAATATCACA
    AAAAAGATGG ACAAGACAAT TCCGGAAGGA AGAATCAGAC TTCCACGAAA AGCAACCAAA
    ACAAAAAAAA ACTATAAAGA TCTCTCAAAT TCAGAATCAG AGTGTGAACA AGAATTTTCA
    CATTCATTTA AAGAGAACAT ACCAGTAAAG GAGGAGAATA TCCATTCCAG AATGAAAACG
    GTAAAGCTAC CAAAGAAACA ACAGAAAGTC TTCTGTGCTG AAACAGAAAA GGAACTATCA
    AAACAATGGA AAAACTCATC TCTACTAAAA GATGCTATAC GAGATAATTG CCTTGACTTA
    TCTCCCAGAT CTTTATCTGG CAGTCCATCA TCTATAGAAG TAACGAGATG TATAGAGAAA
    ATAACAGAAA AGGATTTTAC TCAGGATTAT GACTGCATAA CAAAATCTAT ATCACCTTAT
    CCAAAAACTT CATCACTTGA ATCCTTAAAT AGTAACAGTG GAGTTGGAGG TACAATAAAG
    TCACCCAAAA ACAATGAGAA AAACTTCCTG TGTGCAAGTG AAAGTTGTTC ACCAATTCCA
    CGACCACTGT TTTTGCCCAG ACATACTCCA ACTAAGAGTA ATACTATTGT AAATAGAAAA
    AAAATAAGTT CTCTGGTACT TACACAAGAA ACACAAAACA GTAACAGCTA TTCAGATGTA
    AGCAGTTATA GTTCAGAAGA ACGGTTTATG GAAATTGAAT CTCCACATAT CAATGAAAAT
    TATATACAAA GCAAAAGAGA GGAAAGTCAT TTAGCATCTT CATTATCCAA GTCTAGTGAA
    GGAAGAGAGA AAACGTGGTT TGACATGCCC TGTGATGCTA CTCATGTATC AGGCCCCACC
    CAACATCTTA GTCGCAAAAG AATATATATA GAAGATAATC TAAGTAATTC CAATGAAGTA
    GAAATGGAAG AGAAAGGAGA AAGGAGAGCA AACTTGCTTC CCAAAAAACT GTGTAAAATT
    GAAGATGCAG ATCATCATAT CCACAAAATG TCTGAAAGTG TATCTTCATT ATCAACAAAT
    GACTTTTCTA TTCCTTGGGA GACCTGGCAA AATGAATTTG CAGGGATAGA GATGACTTAT
    GAGACTTACG AGAGGCTCAA TTCAGAATTT AAGAGAAGGA ATAATATCCG ACATAAAATG
    TTGAGTTATT TTACTACGCA GTCTTGGAAA ACAGCTCAGC AACATCTGAG AACAATGAAT
    CATCAAAGTC AGGACTCTAG GATTAAAAAA CTTGATAAAT TCCAATTCAT TATCATAGAG
    GAGCTGGAGA ATTTTGAAAA AGATTCACAG TCTTTAAAAG ATTTGGAAAA GGAATTTGTG
    GACTTTTGGG AAAAGATATT TCAGAAGTTC AGTGCATATC AAAAAAGCGA ACAACAGAGG
    CTTCATCTTT TGAAAACTTC ATTGGCTAAA AGTGTCTTCT GTAATACTGA TAGTGAAGAA
    ACTGTTTTTA CATCCGAGAT GTGTTTGATG AAAGAAGATA TGAAAGTGCT GCAAGACAGG
    CTTCTTAAGG ACATGCTAGA AGAGGAGCTT CTTAATGTAC GCAGAGAACT GATGTCAGTA
    TTCATGTCTC ATGAAAGAAA TGCTAATGTG TGA

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

    CloneID OHu63959
    Clone ID Related Accession (Same CDS sequence) XM_017027592.2 , XM_017027592.1
    Accession Version XM_017027592.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2571bp)
    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 synaptonemal complex protein 2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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_017027592.1. ##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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG TTGCTCTCTG TGTCCACTTA A

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

    RefSeq XP_016883081.1
    CDS449..3019
    Translation

    Target ORF information:

    RefSeq Version XM_017027592.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027592.2

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG TTGCTCTCTG TGTCCACTTA A

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

    CloneID OHu63959
    Clone ID Related Accession (Same CDS sequence) XM_017027592.2 , XM_017027592.1
    Accession Version XM_017027592.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2571bp)
    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 synaptonemal complex protein 2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG TTGCTCTCTG TGTCCACTTA A

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

    RefSeq XP_016883081.1
    CDS448..3018
    Translation

    Target ORF information:

    RefSeq Version XM_017027592.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027592.1

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG TTGCTCTCTG TGTCCACTTA A

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

    CloneID OHu92880
    Clone ID Related Accession (Same CDS sequence) XM_017027591.1
    Accession Version XM_017027591.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3165bp)
    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 synaptonemal complex protein 2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGTCTGAAG CATCAATGAT TGTTTCTGGT GCAGATAGAT ACACTATGAG AAGTCCAGTG 
    CTTTTCAGCA ACACATCAAT ACCACCACGA AGAAGAAGAA TTAAACCACC ACTGCAAATG
    ACGAGCTCTG CAGAGAAACC TAGTGTTTCT CAAACATCAG AAAATAGAGT GGATAATGCT
    GCATCACTGA AATCTAGATC ATCAGAAGGA AGACATAGAA GAGATAATAT AGACAAACAT
    ATCAAAACTG CTAAGTGTGT AGAAAACACA GAAAATAAGA ATGTTGAATT CCCAAACCAA
    AATTTTAGTG AACTCCAGGA TGTTATACCA GATTCACAGG CAGCGGAAAA AAGAGATCAT
    ACTATATTAC CTGGTGTTTT AGACAACATC TGTGGAAATA AAATACACAG CAAATGGGCA
    TGTTGGACAC CTGTAACAAA CATTGAACTA TGTAATAACC AAAGAGCAAG TACTTCGTCA
    GGAGACACAT TGAATCAAGA TATTGTTATA AATAAAAAAC TTACTAAACA AAAATCATCC
    TCTTCAATAT CTGATCATAA TTCTGAAGGA ACAGGAAAAG TGAAATATAA GAAAGAACAA
    ACCGACCATA TCAAAATAGA TAAAGCAGAA GTAGAAGTTT GCAAGAAACA CAATCAGCAA
    CAAAATCATC CTAAATATTC AGGGCAGAAA AATACTGAAA ATGCCAAGCA GAGTGATTGG
    CCTGTTGAAT CTGAAACTAC TTTTAAATCG GTTCTCCTAA ATAAGACAAT TGAAGAATCG
    CTGATATATA GGAAGAAATA CATATTGTCA AAAGATGTGA ATACTGCTAC TTGCGATAAA
    AATCCATCTG CTAGCAAAAA TGTGCAAAGT CATAGAAAAG CAGAGAAAGA ATTGACTTCT
    GAGCTTAATT CCTGGGATTC GAAACAAAAA AAAATGAGAG AAAAGTCAAA AGGGAAAGAA
    TTTACCAATG TAGCAGAATC CTTGATAAGC CAAATCAATA AAAGATACAA AACAAAAGAT
    GACATCAAGT CTACAAGAAA ATTAAAGGAG TCTTTGATTA ACAGTGGTTT TTCAAACAAA
    CCTGTTGTAC AACTCAGTAA GGAAAAAGTT CAGAAAAAAA GCTACAGAAA ACTGAAGACT
    ACCTTTGTTA ATGTTACTTC TGAATGCCCA GTGAATGATG TTTACAATTT TAATTTGAAT
    GGAGCTGATG ACCCTATCAT AAAACTTGGA ATCCAAGAGT TTCAAGCTAC AGCTAAAGAA
    GCTTGTGCGG ATAGGTCAAT TAGATTGGTA GGTCCAAGGA ATCATGATGA ACTTAAATCT
    TCTGTCAAAA CAAAAGATAA AAAAATTATA ACAAATCATC AAAAGAAAAA TCTGTTTAGT
    GATACTGAAA CAGAGTACAG ATGTGATGAC AGCAAGACTG ATATTAGCTG GCTAAGAGAA
    CCGAAATCAA AACCACAGCT AATAGACTAT AGCAGAAATA AAAATGTGAA GAATCATAAA
    AGTGGAAAAT CAAGATCATC CTTGGAAAAG GGACAGCCAA GCTCTAAAAT GACACCCAGT
    AAAAATATCA CAAAAAAGAT GGACAAGACA ATTCCGGAAG GAAGAATCAG ACTTCCACGA
    AAAGCAACCA AAACAAAAAA AAACTATAAA GATCTCTCAA ATTCAGAATC AGAGTGTGAA
    CAAGAATTTT CACATTCATT TAAAGAGAAC ATACCAGTAA AGGAGGAGAA TATCCATTCC
    AGAATGAAAA CGGTAAAGCT ACCAAAGAAA CAACAGAAAG TCTTCTGTGC TGAAACAGAA
    AAGGAACTAT CAAAACAATG GAAAAACTCA TCTCTACTAA AAGATGCTAT ACGAGATAAT
    TGCCTTGACT TATCTCCCAG ATCTTTATCT GGCAGTCCAT CATCTATAGA AGTAACGAGA
    TGTATAGAGA AAATAACAGA AAAGGATTTT ACTCAGGATT ATGACTGCAT AACAAAATCT
    ATATCACCTT ATCCAAAAAC TTCATCACTT GAATCCTTAA ATAGTAACAG TGGAGTTGGA
    GGTACAATAA AGTCACCCAA AAACAATGAG AAAAACTTCC TGTGTGCAAG TGAAAGTTGT
    TCACCAATTC CACGACCACT GTTTTTGCCC AGACATACTC CAACTAAGAG TAATACTATT
    GTAAATAGAA AAAAAATAAG TTCTCTGGTA CTTACACAAG AAACACAAAA CAGTAACAGC
    TATTCAGATG TAAGCAGTTA TAGTTCAGAA GAACGGTTTA TGGAAATTGA ATCTCCACAT
    ATCAATGAAA ATTATATACA AAGCAAAAGA GAGGAAAGTC ATTTAGCATC TTCATTATCC
    AAGTCTAGTG AAGGAAGAGA GAAAACGTGG TTTGACATGC CCTGTGATGC TACTCATGTA
    TCAGGCCCCA CCCAACATCT TAGTCGCAAA AGAATATATA TAGAAGATAA TCTAAGTAAT
    TCCAATGAAG TAGAAATGGA AGAGAAAGGA GAAAGGAGAG CAAACTTGCT TCCCAAAAAA
    CTGTGTAAAA TTGAAGATGC AGATCATCAT ATCCACAAAA TGTCTGAAAG TGTATCTTCA
    TTATCAACAA ATGACTTTTC TATTCCTTGG GAGACCTGGC AAAATGAATT TGCAGGGATA
    GAGATGACTT ATGAGACTTA CGAGAGGCTC AATTCAGAAT TTAAGAGAAG GAATAATATC
    CGACATAAAA TGTTGAGTTA TTTTACTACG CAGTCTTGGA AAACAGCTCA GCAACATCTG
    AGAACAATGA ATCATCAAAG TCAGGACTCT AGGATTAAAA AACTTGATAA ATTCCAATTC
    ATTATCATAG AGGAGCTGGA GAATTTTGAA AAAGATTCAC AGTCTTTAAA AGATTTGGAA
    AAGGAATTTG TGGACTTTTG GGAAAAGATA TTTCAGAAGT TCAGTGCATA TCAAAAAAGC
    GAACAACAGA GGCTTCATCT TTTGAAAACT TCATTGGCTA AAAGTGTCTT CTGTAATACT
    GATAGTGAAG AAACTGTTTT TACATCCGAG ATGTGTTTGA TGAAAGAAGA TATGAAAGTG
    CTGCAAGACA GGCTTCTTAA GGACATGCTA GAAGAGGAGC TTCTTAATGT ACGCAGAGAA
    CTGATGTCAG TATTCATGTC TCATGAAAGA AATGCTAATG TGTGA

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

    RefSeq XP_016883080.1
    CDS994..4158
    Translation

    Target ORF information:

    RefSeq Version XM_017027591.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027591.1

    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
    ATGTCTGAAG CATCAATGAT TGTTTCTGGT GCAGATAGAT ACACTATGAG AAGTCCAGTG 
    CTTTTCAGCA ACACATCAAT ACCACCACGA AGAAGAAGAA TTAAACCACC ACTGCAAATG
    ACGAGCTCTG CAGAGAAACC TAGTGTTTCT CAAACATCAG AAAATAGAGT GGATAATGCT
    GCATCACTGA AATCTAGATC ATCAGAAGGA AGACATAGAA GAGATAATAT AGACAAACAT
    ATCAAAACTG CTAAGTGTGT AGAAAACACA GAAAATAAGA ATGTTGAATT CCCAAACCAA
    AATTTTAGTG AACTCCAGGA TGTTATACCA GATTCACAGG CAGCGGAAAA AAGAGATCAT
    ACTATATTAC CTGGTGTTTT AGACAACATC TGTGGAAATA AAATACACAG CAAATGGGCA
    TGTTGGACAC CTGTAACAAA CATTGAACTA TGTAATAACC AAAGAGCAAG TACTTCGTCA
    GGAGACACAT TGAATCAAGA TATTGTTATA AATAAAAAAC TTACTAAACA AAAATCATCC
    TCTTCAATAT CTGATCATAA TTCTGAAGGA ACAGGAAAAG TGAAATATAA GAAAGAACAA
    ACCGACCATA TCAAAATAGA TAAAGCAGAA GTAGAAGTTT GCAAGAAACA CAATCAGCAA
    CAAAATCATC CTAAATATTC AGGGCAGAAA AATACTGAAA ATGCCAAGCA GAGTGATTGG
    CCTGTTGAAT CTGAAACTAC TTTTAAATCG GTTCTCCTAA ATAAGACAAT TGAAGAATCG
    CTGATATATA GGAAGAAATA CATATTGTCA AAAGATGTGA ATACTGCTAC TTGCGATAAA
    AATCCATCTG CTAGCAAAAA TGTGCAAAGT CATAGAAAAG CAGAGAAAGA ATTGACTTCT
    GAGCTTAATT CCTGGGATTC GAAACAAAAA AAAATGAGAG AAAAGTCAAA AGGGAAAGAA
    TTTACCAATG TAGCAGAATC CTTGATAAGC CAAATCAATA AAAGATACAA AACAAAAGAT
    GACATCAAGT CTACAAGAAA ATTAAAGGAG TCTTTGATTA ACAGTGGTTT TTCAAACAAA
    CCTGTTGTAC AACTCAGTAA GGAAAAAGTT CAGAAAAAAA GCTACAGAAA ACTGAAGACT
    ACCTTTGTTA ATGTTACTTC TGAATGCCCA GTGAATGATG TTTACAATTT TAATTTGAAT
    GGAGCTGATG ACCCTATCAT AAAACTTGGA ATCCAAGAGT TTCAAGCTAC AGCTAAAGAA
    GCTTGTGCGG ATAGGTCAAT TAGATTGGTA GGTCCAAGGA ATCATGATGA ACTTAAATCT
    TCTGTCAAAA CAAAAGATAA AAAAATTATA ACAAATCATC AAAAGAAAAA TCTGTTTAGT
    GATACTGAAA CAGAGTACAG ATGTGATGAC AGCAAGACTG ATATTAGCTG GCTAAGAGAA
    CCGAAATCAA AACCACAGCT AATAGACTAT AGCAGAAATA AAAATGTGAA GAATCATAAA
    AGTGGAAAAT CAAGATCATC CTTGGAAAAG GGACAGCCAA GCTCTAAAAT GACACCCAGT
    AAAAATATCA CAAAAAAGAT GGACAAGACA ATTCCGGAAG GAAGAATCAG ACTTCCACGA
    AAAGCAACCA AAACAAAAAA AAACTATAAA GATCTCTCAA ATTCAGAATC AGAGTGTGAA
    CAAGAATTTT CACATTCATT TAAAGAGAAC ATACCAGTAA AGGAGGAGAA TATCCATTCC
    AGAATGAAAA CGGTAAAGCT ACCAAAGAAA CAACAGAAAG TCTTCTGTGC TGAAACAGAA
    AAGGAACTAT CAAAACAATG GAAAAACTCA TCTCTACTAA AAGATGCTAT ACGAGATAAT
    TGCCTTGACT TATCTCCCAG ATCTTTATCT GGCAGTCCAT CATCTATAGA AGTAACGAGA
    TGTATAGAGA AAATAACAGA AAAGGATTTT ACTCAGGATT ATGACTGCAT AACAAAATCT
    ATATCACCTT ATCCAAAAAC TTCATCACTT GAATCCTTAA ATAGTAACAG TGGAGTTGGA
    GGTACAATAA AGTCACCCAA AAACAATGAG AAAAACTTCC TGTGTGCAAG TGAAAGTTGT
    TCACCAATTC CACGACCACT GTTTTTGCCC AGACATACTC CAACTAAGAG TAATACTATT
    GTAAATAGAA AAAAAATAAG TTCTCTGGTA CTTACACAAG AAACACAAAA CAGTAACAGC
    TATTCAGATG TAAGCAGTTA TAGTTCAGAA GAACGGTTTA TGGAAATTGA ATCTCCACAT
    ATCAATGAAA ATTATATACA AAGCAAAAGA GAGGAAAGTC ATTTAGCATC TTCATTATCC
    AAGTCTAGTG AAGGAAGAGA GAAAACGTGG TTTGACATGC CCTGTGATGC TACTCATGTA
    TCAGGCCCCA CCCAACATCT TAGTCGCAAA AGAATATATA TAGAAGATAA TCTAAGTAAT
    TCCAATGAAG TAGAAATGGA AGAGAAAGGA GAAAGGAGAG CAAACTTGCT TCCCAAAAAA
    CTGTGTAAAA TTGAAGATGC AGATCATCAT ATCCACAAAA TGTCTGAAAG TGTATCTTCA
    TTATCAACAA ATGACTTTTC TATTCCTTGG GAGACCTGGC AAAATGAATT TGCAGGGATA
    GAGATGACTT ATGAGACTTA CGAGAGGCTC AATTCAGAAT TTAAGAGAAG GAATAATATC
    CGACATAAAA TGTTGAGTTA TTTTACTACG CAGTCTTGGA AAACAGCTCA GCAACATCTG
    AGAACAATGA ATCATCAAAG TCAGGACTCT AGGATTAAAA AACTTGATAA ATTCCAATTC
    ATTATCATAG AGGAGCTGGA GAATTTTGAA AAAGATTCAC AGTCTTTAAA AGATTTGGAA
    AAGGAATTTG TGGACTTTTG GGAAAAGATA TTTCAGAAGT TCAGTGCATA TCAAAAAAGC
    GAACAACAGA GGCTTCATCT TTTGAAAACT TCATTGGCTA AAAGTGTCTT CTGTAATACT
    GATAGTGAAG AAACTGTTTT TACATCCGAG ATGTGTTTGA TGAAAGAAGA TATGAAAGTG
    CTGCAAGACA GGCTTCTTAA GGACATGCTA GAAGAGGAGC TTCTTAATGT ACGCAGAGAA
    CTGATGTCAG TATTCATGTC TCATGAAAGA AATGCTAATG TGTGA

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

    CloneID OHu92879
    Clone ID Related Accession (Same CDS sequence) XM_017027587.1
    Accession Version XM_017027587.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4611bp)
    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 synaptonemal complex protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAATTGGA AAAATGCATT 
    GATGATGCTT TAAGAAAAAA TGATTTCAAA CCTTTGAAAA CACTTTTGCA AATTGATATT
    TGTGAAGATG TGAAGATTAA ATGCAGCAAA CAGTTTTTCC ACAAGGTGGA CAACCTTATA
    TGCAGGGAAC TTAATAAAGA GGATATCCAC AATGTTTCAG CCATTTTGGT TTCTGTTGGA
    AGATGTGGCA AAAATATCAG TGTATTGGGG CAAGCTGGAC TTCTAACGAT GATAAAACAA
    GGACTAATAC AAAAGATGGT TGCCTGGTTT GAAAAATCCA AGGACATTAT TCAGAGTCAA
    GGAAATTCAA AAGATGAAGC TGTTCTAAAT ATGATAGAAG ACTTAGTTGA TCTTCTGCTG
    GTCATACATG ATGTCAGTGA TGAAGGTAAA AAACAAGTAG TGGAAAGTTT CGTACCTCGC
    ATTTGTTCCC TGGTTATTGA CTCAAGAGTG AATATTTGTA TTCAGCAAGA GATTATAAAA
    AAAATGAATG CTATGCTTGA CAAAATGCCT CAAGATGCCC GGAAAATACT CTCTAACCAA
    GAAATGTTAA TTCTCATGAG TAGTATGGGA GAAAGGATTT TAGATGCTGG AGATTATGAC
    TTACAGGTAG GCATTGTAGA AGCTTTGTGT AGAATGACCA CAGAAAAACA AAGACAAGAA
    CTGGCACATC AGTGGTTTTC AATGGATTTT ATTGCTAAGG CATTTAAAAG AATTAAGGAC
    TCTGAATTTG AAACAGATTG CAGGATATTT CTCAACCTTG TAAATGGCAT GCTTGGAGAC
    AAAAGAAGGG TCTTTACATT TCCTTGTTTA TCAGCATTTC TTGATAAATA TGAGCTGCAA
    ATACCATCAG ATGAAAAACT TGAGGAATTT TGGATTGATT TTAATCTTGG GAGTCAGACT
    CTCTCATTCT ACATTGCTGG AGATAATGAT GATCATCAAT GGGAAGCAGT TACTGTGCCA
    GAGGAAAAAG TACAAATATA CAGCATTGAA GTGAGAGAAT CAAAGAAGCT ACTGACAATA
    ATTCTGAAAA ATACAGTAAA AATTAGCAAA AGAGAAGGGA AAGAATTGCT TTTGTATTTT
    GACGCATCAC TAGAAATCAC TAATGTAACT CAAAAAATTT TTGGTGCAAC TAAACATAGG
    GAATCTATCA GAAAACAAGG TATTTCAGTT GCCAAAACGT CGCTGCATAT ACTTTTTGAC
    GCAAGTGGAT CACAGATTCT AGTGCCAGAA AGTCAAATCT CACCAGTCGG AGAAGAGCTC
    GTTAGTTTAA AGGAAAAATC AAAGTCCCCA AAGGAATTTG CTAAACCTTC AAAATATATC
    AAAAACAGTG ACAAAGGGAA TAGAAATAAT AGTCAGCTTG AGAAAACTAC TCCTAGCAAA
    AGAAAAATGT CTGAAGCATC AATGATTGTT TCTGGTGCAG ATAGATACAC TATGAGAAGT
    CCAGTGCTTT TCAGCAACAC ATCAATACCA CCACGAAGAA GAAGAATTAA ACCACCACTG
    CAAATGACGA GCTCTGCAGA GAAACCTAGT GTTTCTCAAA CATCAGAAAA TAGAGTGGAT
    AATGCTGCAT CACTGAAATC TAGATCATCA GAAGGAAGAC ATAGAAGAGA TAATATAGAC
    AAACATATCA AAACTGCTAA GTGTGTAGAA AACACAGAAA ATAAGAATGT TGAATTCCCA
    AACCAAAATT TTAGTGAACT CCAGGATGTT ATACCAGATT CACAGGCAGC GGAAAAAAGA
    GATCATACTA TATTACCTGG TGTTTTAGAC AACATCTGTG GAAATAAAAT ACACAGCAAA
    TGGGCATGTT GGACACCTGT AACAAACATT GAACTATGTA ATAACCAAAG AGCAAGTACT
    TCGTCAGGAG ACACATTGAA TCAAGATATT GTTATAAATA AAAAACTTAC TAAACAAAAA
    TCATCCTCTT CAATATCTGA TCATAATTCT GAAGGAACAG GAAAAGTGAA ATATAAGAAA
    GAACAAACCG ACCATATCAA AATAGATAAA GCAGAAGTAG AAGTTTGCAA GAAACACAAT
    CAGCAACAAA ATCATCCTAA ATATTCAGGG CAGAAAAATA CTGAAAATGC CAAGCAGAGT
    GATTGGCCTG TTGAATCTGA AACTACTTTT AAATCGGTTC TCCTAAATAA GACAATTGAA
    GAATCGCTGA TATATAGGAA GAAATACATA TTGTCAAAAG ATGTGAATAC TGCTACTTGC
    GATAAAAATC CATCTGCTAG CAAAAATGTG CAAAGTCATA GAAAAGCAGA GAAAGAATTG
    ACTTCTGAGC TTAATTCCTG GGATTCGAAA CAAAAAAAAA TGAGAGAAAA GTCAAAAGGG
    AAAGAATTTA CCAATGTAGC AGAATCCTTG ATAAGCCAAA TCAATAAAAG ATACAAAACA
    AAAGATGACA TCAAGTCTAC AAGAAAATTA AAGGAGTCTT TGATTAACAG TGGTTTTTCA
    AACAAACCTG TTGTACAACT CAGTAAGGAA AAAGTTCAGA AAAAAAGCTA CAGAAAACTG
    AAGACTACCT TTGTTAATGT TACTTCTGAA TGCCCAGTGA ATGATGTTTA CAATTTTAAT
    TTGAATGGAG CTGATGACCC TATCATAAAA CTTGGAATCC AAGAGTTTCA AGCTACAGCT
    AAAGAAGCTT GTGCGGATAG GTCAATTAGA TTGGTAGGTC CAAGGAATCA TGATGAACTT
    AAATCTTCTG TCAAAACAAA AGATAAAAAA ATTATAACAA ATCATCAAAA GAAAAATCTG
    TTTAGTGATA CTGAAACAGA GTACAGATGT GATGACAGCA AGACTGATAT TAGCTGGCTA
    AGAGAACCGA AATCAAAACC ACAGCTAATA GACTATAGCA GAAATAAAAA TGTGAAGAAT
    CATAAAAGTG GAAAATCAAG ATCATCCTTG GAAAAGGGAC AGCCAAGCTC TAAAATGACA
    CCCAGTAAAA ATATCACAAA AAAGATGGAC AAGACAATTC CGGAAGGAAG AATCAGACTT
    CCACGAAAAG CAACCAAAAC AAAAAAAAAC TATAAAGATC TCTCAAATTC AGAATCAGAG
    TGTGAACAAG AATTTTCACA TTCATTTAAA GAGAACATAC CAGTAAAGGA GGAGAATATC
    CATTCCAGAA TGAAAACGGT AAAGCTACCA AAGAAACAAC AGAAAGTCTT CTGTGCTGAA
    ACAGAAAAGG AACTATCAAA ACAATGGAAA AACTCATCTC TACTAAAAGA TGCTATACGA
    GATAATTGCC TTGACTTATC TCCCAGATCT TTATCTGGCA GTCCATCATC TATAGAAGTA
    ACGAGATGTA TAGAGAAAAT AACAGAAAAG GATTTTACTC AGGATTATGA CTGCATAACA
    AAATCTATAT CACCTTATCC AAAAACTTCA TCACTTGAAT CCTTAAATAG TAACAGTGGA
    GTTGGAGGTA CAATAAAGTC ACCCAAAAAC AATGAGAAAA ACTTCCTGTG TGCAAGTGAA
    AGTTGTTCAC CAATTCCACG ACCACTGTTT TTGCCCAGAC ATACTCCAAC TAAGAGTAAT
    ACTATTGTAA ATAGAAAAAA AATAAGTTCT CTGGTACTTA CACAAGAAAC ACAAAACAGT
    AACAGCTATT CAGATGTAAG CAGTTATAGT TCAGAAGAAC GGTTTATGGA AATTGAATCT
    CCACATATCA ATGAAAATTA TATACAAAGC AAAAGAGAGG AAAGTCATTT AGCATCTTCA
    TTATCCAAGT CTAGTGAAGG AAGAGAGAAA ACGTGGTTTG ACATGCCCTG TGATGCTACT
    CATGTATCAG GCCCCACCCA ACATCTTAGT CGCAAAAGAA TATATATAGA AGATAATCTA
    AGTAATTCCA ATGAAGTAGA AATGGAAGAG AAAGGAGAAA GGAGAGCAAA CTTGCTTCCC
    AAAAAACTGT GTAAAATTGA AGATGCAGAT CATCATATCC ACAAAATGTC TGAAAGTGTA
    TCTTCATTAT CAACAAATGA CTTTTCTATT CCTTGGGAGA CCTGGCAAAA TGAATTTGCA
    GGGATAGAGA TGACTTATGA GACTTACGAG AGGCTCAATT CAGAATTTAA GAGAAGGAAT
    AATATCCGAC ATAAAATGTT GAGTTATTTT ACTACGCAGT CTTGGAAAAC AGCTCAGCAA
    CATCTGAGAA CAATGAATCA TCAAAGTCAG GACTCTAGGA TTAAAAAACT TGATAAATTC
    CAATTCATTA TCATAGAGGA GCTGGAGAAT TTTGAAAAAG ATTCACAGTC TTTAAAAGAT
    TTGGAAAAGG AATTTGTGGA CTTTTGGGAA AAGATATTTC AGAAGTTCAG TGCATATCAA
    AAAAGCGAAC AACAGAGGCT TCATCTTTTG AAAACTTCAT TGGCTAAAAG TGTCTTCTGT
    AATACTGATA GTGAAGAAAC TGTTTTTACA TCCGAGATGT GTTTGATGAA AGAAGATATG
    AAAGTGCTGC AAGACAGGCT TCTTAAGGAC ATGCTAGAAG AGGAGCTTCT TAATGTACGC
    AGAGAACTGA TGTCAGTATT CATGTCTCAT GAAAGAAATG CTAATGTGTG A

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

    RefSeq XP_016883076.1
    CDS446..5056
    Translation

    Target ORF information:

    RefSeq Version XM_017027587.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027587.1

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAATTGGA AAAATGCATT 
    GATGATGCTT TAAGAAAAAA TGATTTCAAA CCTTTGAAAA CACTTTTGCA AATTGATATT
    TGTGAAGATG TGAAGATTAA ATGCAGCAAA CAGTTTTTCC ACAAGGTGGA CAACCTTATA
    TGCAGGGAAC TTAATAAAGA GGATATCCAC AATGTTTCAG CCATTTTGGT TTCTGTTGGA
    AGATGTGGCA AAAATATCAG TGTATTGGGG CAAGCTGGAC TTCTAACGAT GATAAAACAA
    GGACTAATAC AAAAGATGGT TGCCTGGTTT GAAAAATCCA AGGACATTAT TCAGAGTCAA
    GGAAATTCAA AAGATGAAGC TGTTCTAAAT ATGATAGAAG ACTTAGTTGA TCTTCTGCTG
    GTCATACATG ATGTCAGTGA TGAAGGTAAA AAACAAGTAG TGGAAAGTTT CGTACCTCGC
    ATTTGTTCCC TGGTTATTGA CTCAAGAGTG AATATTTGTA TTCAGCAAGA GATTATAAAA
    AAAATGAATG CTATGCTTGA CAAAATGCCT CAAGATGCCC GGAAAATACT CTCTAACCAA
    GAAATGTTAA TTCTCATGAG TAGTATGGGA GAAAGGATTT TAGATGCTGG AGATTATGAC
    TTACAGGTAG GCATTGTAGA AGCTTTGTGT AGAATGACCA CAGAAAAACA AAGACAAGAA
    CTGGCACATC AGTGGTTTTC AATGGATTTT ATTGCTAAGG CATTTAAAAG AATTAAGGAC
    TCTGAATTTG AAACAGATTG CAGGATATTT CTCAACCTTG TAAATGGCAT GCTTGGAGAC
    AAAAGAAGGG TCTTTACATT TCCTTGTTTA TCAGCATTTC TTGATAAATA TGAGCTGCAA
    ATACCATCAG ATGAAAAACT TGAGGAATTT TGGATTGATT TTAATCTTGG GAGTCAGACT
    CTCTCATTCT ACATTGCTGG AGATAATGAT GATCATCAAT GGGAAGCAGT TACTGTGCCA
    GAGGAAAAAG TACAAATATA CAGCATTGAA GTGAGAGAAT CAAAGAAGCT ACTGACAATA
    ATTCTGAAAA ATACAGTAAA AATTAGCAAA AGAGAAGGGA AAGAATTGCT TTTGTATTTT
    GACGCATCAC TAGAAATCAC TAATGTAACT CAAAAAATTT TTGGTGCAAC TAAACATAGG
    GAATCTATCA GAAAACAAGG TATTTCAGTT GCCAAAACGT CGCTGCATAT ACTTTTTGAC
    GCAAGTGGAT CACAGATTCT AGTGCCAGAA AGTCAAATCT CACCAGTCGG AGAAGAGCTC
    GTTAGTTTAA AGGAAAAATC AAAGTCCCCA AAGGAATTTG CTAAACCTTC AAAATATATC
    AAAAACAGTG ACAAAGGGAA TAGAAATAAT AGTCAGCTTG AGAAAACTAC TCCTAGCAAA
    AGAAAAATGT CTGAAGCATC AATGATTGTT TCTGGTGCAG ATAGATACAC TATGAGAAGT
    CCAGTGCTTT TCAGCAACAC ATCAATACCA CCACGAAGAA GAAGAATTAA ACCACCACTG
    CAAATGACGA GCTCTGCAGA GAAACCTAGT GTTTCTCAAA CATCAGAAAA TAGAGTGGAT
    AATGCTGCAT CACTGAAATC TAGATCATCA GAAGGAAGAC ATAGAAGAGA TAATATAGAC
    AAACATATCA AAACTGCTAA GTGTGTAGAA AACACAGAAA ATAAGAATGT TGAATTCCCA
    AACCAAAATT TTAGTGAACT CCAGGATGTT ATACCAGATT CACAGGCAGC GGAAAAAAGA
    GATCATACTA TATTACCTGG TGTTTTAGAC AACATCTGTG GAAATAAAAT ACACAGCAAA
    TGGGCATGTT GGACACCTGT AACAAACATT GAACTATGTA ATAACCAAAG AGCAAGTACT
    TCGTCAGGAG ACACATTGAA TCAAGATATT GTTATAAATA AAAAACTTAC TAAACAAAAA
    TCATCCTCTT CAATATCTGA TCATAATTCT GAAGGAACAG GAAAAGTGAA ATATAAGAAA
    GAACAAACCG ACCATATCAA AATAGATAAA GCAGAAGTAG AAGTTTGCAA GAAACACAAT
    CAGCAACAAA ATCATCCTAA ATATTCAGGG CAGAAAAATA CTGAAAATGC CAAGCAGAGT
    GATTGGCCTG TTGAATCTGA AACTACTTTT AAATCGGTTC TCCTAAATAA GACAATTGAA
    GAATCGCTGA TATATAGGAA GAAATACATA TTGTCAAAAG ATGTGAATAC TGCTACTTGC
    GATAAAAATC CATCTGCTAG CAAAAATGTG CAAAGTCATA GAAAAGCAGA GAAAGAATTG
    ACTTCTGAGC TTAATTCCTG GGATTCGAAA CAAAAAAAAA TGAGAGAAAA GTCAAAAGGG
    AAAGAATTTA CCAATGTAGC AGAATCCTTG ATAAGCCAAA TCAATAAAAG ATACAAAACA
    AAAGATGACA TCAAGTCTAC AAGAAAATTA AAGGAGTCTT TGATTAACAG TGGTTTTTCA
    AACAAACCTG TTGTACAACT CAGTAAGGAA AAAGTTCAGA AAAAAAGCTA CAGAAAACTG
    AAGACTACCT TTGTTAATGT TACTTCTGAA TGCCCAGTGA ATGATGTTTA CAATTTTAAT
    TTGAATGGAG CTGATGACCC TATCATAAAA CTTGGAATCC AAGAGTTTCA AGCTACAGCT
    AAAGAAGCTT GTGCGGATAG GTCAATTAGA TTGGTAGGTC CAAGGAATCA TGATGAACTT
    AAATCTTCTG TCAAAACAAA AGATAAAAAA ATTATAACAA ATCATCAAAA GAAAAATCTG
    TTTAGTGATA CTGAAACAGA GTACAGATGT GATGACAGCA AGACTGATAT TAGCTGGCTA
    AGAGAACCGA AATCAAAACC ACAGCTAATA GACTATAGCA GAAATAAAAA TGTGAAGAAT
    CATAAAAGTG GAAAATCAAG ATCATCCTTG GAAAAGGGAC AGCCAAGCTC TAAAATGACA
    CCCAGTAAAA ATATCACAAA AAAGATGGAC AAGACAATTC CGGAAGGAAG AATCAGACTT
    CCACGAAAAG CAACCAAAAC AAAAAAAAAC TATAAAGATC TCTCAAATTC AGAATCAGAG
    TGTGAACAAG AATTTTCACA TTCATTTAAA GAGAACATAC CAGTAAAGGA GGAGAATATC
    CATTCCAGAA TGAAAACGGT AAAGCTACCA AAGAAACAAC AGAAAGTCTT CTGTGCTGAA
    ACAGAAAAGG AACTATCAAA ACAATGGAAA AACTCATCTC TACTAAAAGA TGCTATACGA
    GATAATTGCC TTGACTTATC TCCCAGATCT TTATCTGGCA GTCCATCATC TATAGAAGTA
    ACGAGATGTA TAGAGAAAAT AACAGAAAAG GATTTTACTC AGGATTATGA CTGCATAACA
    AAATCTATAT CACCTTATCC AAAAACTTCA TCACTTGAAT CCTTAAATAG TAACAGTGGA
    GTTGGAGGTA CAATAAAGTC ACCCAAAAAC AATGAGAAAA ACTTCCTGTG TGCAAGTGAA
    AGTTGTTCAC CAATTCCACG ACCACTGTTT TTGCCCAGAC ATACTCCAAC TAAGAGTAAT
    ACTATTGTAA ATAGAAAAAA AATAAGTTCT CTGGTACTTA CACAAGAAAC ACAAAACAGT
    AACAGCTATT CAGATGTAAG CAGTTATAGT TCAGAAGAAC GGTTTATGGA AATTGAATCT
    CCACATATCA ATGAAAATTA TATACAAAGC AAAAGAGAGG AAAGTCATTT AGCATCTTCA
    TTATCCAAGT CTAGTGAAGG AAGAGAGAAA ACGTGGTTTG ACATGCCCTG TGATGCTACT
    CATGTATCAG GCCCCACCCA ACATCTTAGT CGCAAAAGAA TATATATAGA AGATAATCTA
    AGTAATTCCA ATGAAGTAGA AATGGAAGAG AAAGGAGAAA GGAGAGCAAA CTTGCTTCCC
    AAAAAACTGT GTAAAATTGA AGATGCAGAT CATCATATCC ACAAAATGTC TGAAAGTGTA
    TCTTCATTAT CAACAAATGA CTTTTCTATT CCTTGGGAGA CCTGGCAAAA TGAATTTGCA
    GGGATAGAGA TGACTTATGA GACTTACGAG AGGCTCAATT CAGAATTTAA GAGAAGGAAT
    AATATCCGAC ATAAAATGTT GAGTTATTTT ACTACGCAGT CTTGGAAAAC AGCTCAGCAA
    CATCTGAGAA CAATGAATCA TCAAAGTCAG GACTCTAGGA TTAAAAAACT TGATAAATTC
    CAATTCATTA TCATAGAGGA GCTGGAGAAT TTTGAAAAAG ATTCACAGTC TTTAAAAGAT
    TTGGAAAAGG AATTTGTGGA CTTTTGGGAA AAGATATTTC AGAAGTTCAG TGCATATCAA
    AAAAGCGAAC AACAGAGGCT TCATCTTTTG AAAACTTCAT TGGCTAAAAG TGTCTTCTGT
    AATACTGATA GTGAAGAAAC TGTTTTTACA TCCGAGATGT GTTTGATGAA AGAAGATATG
    AAAGTGCTGC AAGACAGGCT TCTTAAGGAC ATGCTAGAAG AGGAGCTTCT TAATGTACGC
    AGAGAACTGA TGTCAGTATT CATGTCTCAT GAAAGAAATG CTAATGTGTG A

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

    CloneID OHu63954
    Clone ID Related Accession (Same CDS sequence) XM_017027586.1 , XM_011528487.3 , XM_011528488.2 , XM_011528487.2
    Accession Version XM_017027586.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 synaptonemal complex protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    RefSeq XP_016883075.1
    CDS446..5059
    Translation

    Target ORF information:

    RefSeq Version XM_017027586.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027586.1

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    CloneID OHu63954
    Clone ID Related Accession (Same CDS sequence) XM_017027586.1 , XM_011528487.3 , XM_011528488.2 , XM_011528487.2
    Accession Version XM_011528487.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 synaptonemal complex protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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_011528487.2. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    RefSeq XP_011526789.1
    CDS249..4862
    Translation

    Target ORF information:

    RefSeq Version XM_011528487.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528487.3

    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
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    CloneID OHu63954
    Clone ID Related Accession (Same CDS sequence) XM_017027586.1 , XM_011528487.3 , XM_011528488.2 , XM_011528487.2
    Accession Version XM_011528488.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 synaptonemal complex protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011528488.1. ##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
    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    RefSeq XP_011526790.1
    CDS202..4815
    Translation

    Target ORF information:

    RefSeq Version XM_011528488.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528488.2

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    CloneID OHu63954
    Clone ID Related Accession (Same CDS sequence) XM_017027586.1 , XM_011528487.3 , XM_011528488.2 , XM_011528487.2
    Accession Version XM_011528487.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 synaptonemal complex protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011528487.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    RefSeq XP_011526789.1
    CDS250..4863
    Translation

    Target ORF information:

    RefSeq Version XM_011528487.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528487.2

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGGCCCCAC CCAACATCTT AGTCGCAAAA GAATATATAT AGAAGATAAT
    CTAAGTAATT CCAATGAAGT AGAAATGGAA GAGAAAGGAG AAAGGAGAGC AAACTTGCTT
    CCCAAAAAAC TGTGTAAAAT TGAAGATGCA GATCATCATA TCCACAAAAT GTCTGAAAGT
    GTATCTTCAT TATCAACAAA TGACTTTTCT ATTCCTTGGG AGACCTGGCA AAATGAATTT
    GCAGGGATAG AGATGACTTA TGAGACTTAC GAGAGGCTCA ATTCAGAATT TAAGAGAAGG
    AATAATATCC GACATAAAAT GTTGAGTTAT TTTACTACGC AGTCTTGGAA AACAGCTCAG
    CAACATCTGA GAACAATGAA TCATCAAAGT CAGGACTCTA GGATTAAAAA ACTTGATAAA
    TTCCAATTCA TTATCATAGA GGAGCTGGAG AATTTTGAAA AAGATTCACA GTCTTTAAAA
    GATTTGGAAA AGGAATTTGT GGACTTTTGG GAAAAGATAT TTCAGAAGTT CAGTGCATAT
    CAAAAAAGCG AACAACAGAG GCTTCATCTT TTGAAAACTT CATTGGCTAA AAGTGTCTTC
    TGTAATACTG ATAGTGAAGA AACTGTTTTT ACATCCGAGA TGTGTTTGAT GAAAGAAGAT
    ATGAAAGTGC TGCAAGACAG GCTTCTTAAG GACATGCTAG AAGAGGAGCT TCTTAATGTA
    CGCAGAGAAC TGATGTCAGT ATTCATGTCT CATGAAAGAA ATGCTAATGT GTGA

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

    CloneID OHu63955
    Clone ID Related Accession (Same CDS sequence) XM_011528490.3 , XM_011528490.2
    Accession Version XM_011528490.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 synaptonemal complex protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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_011528490.2. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGTTGGAA AAATGCATTG ATGATGCTTT AAGAAAAAAT 
    GATTTCAAAC CTTTGAAAAC ACTTTTGCAA ATTGATATTT GTGAAGATGT GAAGATTAAA
    TGCAGCAAAC AGTTTTTCCA CAAGGTGGAC AACCTTATAT GCAGGGAACT TAATAAAGAG
    GATATCCACA ATGTTTCAGC CATTTTGGTT TCTGTTGGAA GATGTGGCAA AAATATCAGT
    GTATTGGGGC AAGCTGGACT TCTAACGATG ATAAAACAAG GACTAATACA AAAGATGGTT
    GCCTGGTTTG AAAAATCCAA GGACATTATT CAGAGTCAAG GAAATTCAAA AGATGAAGCT
    GTTCTAAATA TGATAGAAGA CTTAGTTGAT CTTCTGCTGG TCATACATGA TGTCAGTGAT
    GAAGGTAAAA AACAAGTAGT GGAAAGTTTC GTACCTCGCA TTTGTTCCCT GGTTATTGAC
    TCAAGAGTGA ATATTTGTAT TCAGCAAGAG ATTATAAAAA AAATGAATGC TATGCTTGAC
    AAAATGCCTC AAGATGCCCG GAAAATACTC TCTAACCAAG AAATGTTAAT TCTCATGAGT
    AGTATGGGAG AAAGGATTTT AGATGCTGGA GATTATGACT TACAGGTAGG CATTGTAGAA
    GCTTTGTGTA GAATGACCAC AGAAAAACAA AGACAAGAAC TGGCACATCA GTGGTTTTCA
    ATGGATTTTA TTGCTAAGGC ATTTAAAAGA ATTAAGGACT CTGAATTTGA AACAGATTGC
    AGGATATTTC TCAACCTTGT AAATGGCATG CTTGGAGACA AAAGAAGGGT CTTTACATTT
    CCTTGTTTAT CAGCATTTCT TGATAAATAT GAGCTGCAAA TACCATCAGA TGAAAAACTT
    GAGGAATTTT GGATTGATTT TAATCTTGGG AGTCAGACTC TCTCATTCTA CATTGCTGGA
    GATAATGATG ATCATCAATG GGAAGCAGTT ACTGTGCCAG AGGAAAAAGT ACAAATATAC
    AGCATTGAAG TGAGAGAATC AAAGAAGCTA CTGACAATAA TTCTGAAAAA TACAGTAAAA
    ATTAGCAAAA GAGAAGGGAA AGAATTGCTT TTGTATTTTG ACGCATCACT AGAAATCACT
    AATGTAACTC AAAAAATTTT TGGTGCAACT AAACATAGGG AATCTATCAG AAAACAAGGT
    ATTTCAGTTG CCAAAACGTC GCTGCATATA CTTTTTGACG CAAGTGGATC ACAGATTCTA
    GTGCCAGAAA GTCAAATCTC ACCAGTCGGA GAAGAGCTCG TTAGTTTAAA GGAAAAATCA
    AAGTCCCCAA AGGAATTTGC TAAACCTTCA AAATATATCA AAAACAGTGA CAAAGGGAAT
    AGAAATAATA GTCAGCTTGA GAAAACTACT CCTAGCAAAA GAAAAATGTC TGAAGCATCA
    ATGATTGTTT CTGGTGCAGA TAGATACACT ATGAGAAGTC CAGTGCTTTT CAGCAACACA
    TCAATACCAC CACGAAGAAG AAGAATTAAA CCACCACTGC AAATGACGAG CTCTGCAGAG
    AAACCTAGTG TTTCTCAAAC ATCAGAAAAT AGAGTGGATA ATGCTGCATC ACTGAAATCT
    AGATCATCAG AAGGAAGACA TAGAAGAGAT AATATAGACA AACATATCAA AACTGCTAAG
    TGTGTAGAAA ACACAGAAAA TAAGAATGTT GAATTCCCAA ACCAAAATTT TAGTGAACTC
    CAGGATGTTA TACCAGATTC ACAGGCAGCG GAAAAAAGAG ATCATACTAT ATTACCTGGT
    GTTTTAGACA ACATCTGTGG AAATAAAATA CACAGCAAAT GGGCATGTTG GACACCTGTA
    ACAAACATTG AACTATGTAA TAACCAAAGA GCAAGTACTT CGTCAGGAGA CACATTGAAT
    CAAGATATTG TTATAAATAA AAAACTTACT AAACAAAAAT CATCCTCTTC AATATCTGAT
    CATAATTCTG AAGGAACAGG AAAAGTGAAA TATAAGAAAG AACAAACCGA CCATATCAAA
    ATAGATAAAG CAGAAGTAGA AGTTTGCAAG AAACACAATC AGCAACAAAA TCATCCTAAA
    TATTCAGGGC AGAAAAATAC TGAAAATGCC AAGCAGAGTG ATTGGCCTGT TGAATCTGAA
    ACTACTTTTA AATCGGTTCT CCTAAATAAG ACAATTGAAG AATCGCTGAT ATATAGGAAG
    AAATACATAT TGTCAAAAGA TGTGAATACT GCTACTTGCG ATAAAAATCC ATCTGCTAGC
    AAAAATGTGC AAAGTCATAG AAAAGCAGAG AAAGAATTGA CTTCTGAGCT TAATTCCTGG
    GATTCGAAAC AAAAAAAAAT GAGAGAAAAG TCAAAAGGGA AAGAATTTAC CAATGTAGCA
    GAATCCTTGA TAAGCCAAAT CAATAAAAGA TACAAAACAA AAGATGACAT CAAGTCTACA
    AGAAAATTAA AGGAGTCTTT GATTAACAGT GGTTTTTCAA ACAAACCTGT TGTACAACTC
    AGTAAGGAAA AAGTTCAGAA AAAAAGCTAC AGAAAACTGA AGACTACCTT TGTTAATGTT
    ACTTCTGAAT GCCCAGTGAA TGATGTTTAC AATTTTAATT TGAATGGAGC TGATGACCCT
    ATCATAAAAC TTGGAATCCA AGAGTTTCAA GCTACAGCTA AAGAAGCTTG TGCGGATAGG
    TCAATTAGAT TGGTAGGTCC AAGGAATCAT GATGAACTTA AATCTTCTGT CAAAACAAAA
    GATAAAAAAA TTATAACAAA TCATCAAAAG AAAAATCTGT TTAGTGATAC TGAAACAGAG
    TACAGATGTG ATGACAGCAA GACTGATATT AGCTGGCTAA GAGAACCGAA ATCAAAACCA
    CAGCTAATAG ACTATAGCAG AAATAAAAAT GTGAAGAATC ATAAAAGTGG AAAATCAAGA
    TCATCCTTGG AAAAGGGACA GCCAAGCTCT AAAATGACAC CCAGTAAAAA TATCACAAAA
    AAGATGGACA AGACAATTCC GGAAGGAAGA ATCAGACTTC CACGAAAAGC AACCAAAACA
    AAAAAAAACT ATAAAGATCT CTCAAATTCA GAATCAGAGT GTGAACAAGA ATTTTCACAT
    TCATTTAAAG AGAACATACC AGTAAAGGAG GAGAATATCC ATTCCAGAAT GAAAACGGTA
    AAGCTACCAA AGAAACAACA GAAAGTCTTC TGTGCTGAAA CAGAAAAGGA ACTATCAAAA
    CAATGGAAAA ACTCATCTCT ACTAAAAGAT GCTATACGAG ATAATTGCCT TGACTTATCT
    CCCAGATCTT TATCTGGCAG TCCATCATCT ATAGAAGTAA CGAGATGTAT AGAGAAAATA
    ACAGAAAAGG ATTTTACTCA GGATTATGAC TGCATAACAA AATCTATATC ACCTTATCCA
    AAAACTTCAT CACTTGAATC CTTAAATAGT AACAGTGGAG TTGGAGGTAC AATAAAGTCA
    CCCAAAAACA ATGAGAAAAA CTTCCTGTGT GCAAGTGAAA GTTGTTCACC AATTCCACGA
    CCACTGTTTT TGCCCAGACA TACTCCAACT AAGAGTAATA CTATTGTAAA TAGAAAAAAA
    ATAAGTTCTC TGGTACTTAC ACAAGAAACA CAAAACAGTA ACAGCTATTC AGATGTAAGC
    AGTTATAGTT CAGAAGAACG GTTTATGGAA ATTGAATCTC CACATATCAA TGAAAATTAT
    ATACAAAGCA AAAGAGAGGA AAGTCATTTA GCATCTTCAT TATCCAAGTC TAGTGAAGGA
    AGAGAGAAAA CGTGGTTTGA CATGCCCTGT GATGCTACTC ATGTATCAGG CCCCACCCAA
    CATCTTAGTC GCAAAAGAAT ATATATAGAA GATAATCTAA GTAATTCCAA TGAAGTAGAA
    ATGGAAGAGA AAGGAGAAAG GAGAGCAAAC TTGCTTCCCA AAAAACTGTG TAAAATTGAA
    GATGCAGATC ATCATATCCA CAAAATGTCT GAAAGTGTAT CTTCATTATC AACAAATGAC
    TTTTCTATTC CTTGGGAGAC CTGGCAAAAT GAATTTGCAG GGATAGAGAT GACTTATGAG
    ACTTACGAGA GGCTCAATTC AGAATTTAAG AGAAGGAATA ATATCCGACA TAAAATGTTG
    AGTTATTTTA CTACGCAGTC TTGGAAAACA GCTCAGCAAC ATCTGAGAAC AATGAATCAT
    CAAAGTCAGG ACTCTAGGAT TAAAAAACTT GATAAATTCC AATTCATTAT CATAGAGGAG
    CTGGAGAATT TTGAAAAAGA TTCACAGTCT TTAAAAGATT TGGAAAAGGA ATTTGTGGAC
    TTTTGGGAAA AGATATTTCA GAAGTTCAGT GCATATCAAA AAAGCGAACA ACAGAGGCTT
    CATCTTTTGA AAACTTCATT GGCTAAAAGT GTCTTCTGTA ATACTGATAG TGAAGAAACT
    GTTTTTACAT CCGAGATGTG TTTGATGAAA GAAGATATGA AAGTGCTGCA AGACAGGCTT
    CTTAAGGACA TGCTAGAAGA GGAGCTTCTT AATGTACGCA GAGAACTGAT GTCAGTATTC
    ATGTCTCATG AAAGAAATGC TAATGTGTGA

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

    RefSeq XP_011526792.1
    CDS249..4838
    Translation

    Target ORF information:

    RefSeq Version XM_011528490.3
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528490.3

    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
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGTTGGAA AAATGCATTG ATGATGCTTT AAGAAAAAAT 
    GATTTCAAAC CTTTGAAAAC ACTTTTGCAA ATTGATATTT GTGAAGATGT GAAGATTAAA
    TGCAGCAAAC AGTTTTTCCA CAAGGTGGAC AACCTTATAT GCAGGGAACT TAATAAAGAG
    GATATCCACA ATGTTTCAGC CATTTTGGTT TCTGTTGGAA GATGTGGCAA AAATATCAGT
    GTATTGGGGC AAGCTGGACT TCTAACGATG ATAAAACAAG GACTAATACA AAAGATGGTT
    GCCTGGTTTG AAAAATCCAA GGACATTATT CAGAGTCAAG GAAATTCAAA AGATGAAGCT
    GTTCTAAATA TGATAGAAGA CTTAGTTGAT CTTCTGCTGG TCATACATGA TGTCAGTGAT
    GAAGGTAAAA AACAAGTAGT GGAAAGTTTC GTACCTCGCA TTTGTTCCCT GGTTATTGAC
    TCAAGAGTGA ATATTTGTAT TCAGCAAGAG ATTATAAAAA AAATGAATGC TATGCTTGAC
    AAAATGCCTC AAGATGCCCG GAAAATACTC TCTAACCAAG AAATGTTAAT TCTCATGAGT
    AGTATGGGAG AAAGGATTTT AGATGCTGGA GATTATGACT TACAGGTAGG CATTGTAGAA
    GCTTTGTGTA GAATGACCAC AGAAAAACAA AGACAAGAAC TGGCACATCA GTGGTTTTCA
    ATGGATTTTA TTGCTAAGGC ATTTAAAAGA ATTAAGGACT CTGAATTTGA AACAGATTGC
    AGGATATTTC TCAACCTTGT AAATGGCATG CTTGGAGACA AAAGAAGGGT CTTTACATTT
    CCTTGTTTAT CAGCATTTCT TGATAAATAT GAGCTGCAAA TACCATCAGA TGAAAAACTT
    GAGGAATTTT GGATTGATTT TAATCTTGGG AGTCAGACTC TCTCATTCTA CATTGCTGGA
    GATAATGATG ATCATCAATG GGAAGCAGTT ACTGTGCCAG AGGAAAAAGT ACAAATATAC
    AGCATTGAAG TGAGAGAATC AAAGAAGCTA CTGACAATAA TTCTGAAAAA TACAGTAAAA
    ATTAGCAAAA GAGAAGGGAA AGAATTGCTT TTGTATTTTG ACGCATCACT AGAAATCACT
    AATGTAACTC AAAAAATTTT TGGTGCAACT AAACATAGGG AATCTATCAG AAAACAAGGT
    ATTTCAGTTG CCAAAACGTC GCTGCATATA CTTTTTGACG CAAGTGGATC ACAGATTCTA
    GTGCCAGAAA GTCAAATCTC ACCAGTCGGA GAAGAGCTCG TTAGTTTAAA GGAAAAATCA
    AAGTCCCCAA AGGAATTTGC TAAACCTTCA AAATATATCA AAAACAGTGA CAAAGGGAAT
    AGAAATAATA GTCAGCTTGA GAAAACTACT CCTAGCAAAA GAAAAATGTC TGAAGCATCA
    ATGATTGTTT CTGGTGCAGA TAGATACACT ATGAGAAGTC CAGTGCTTTT CAGCAACACA
    TCAATACCAC CACGAAGAAG AAGAATTAAA CCACCACTGC AAATGACGAG CTCTGCAGAG
    AAACCTAGTG TTTCTCAAAC ATCAGAAAAT AGAGTGGATA ATGCTGCATC ACTGAAATCT
    AGATCATCAG AAGGAAGACA TAGAAGAGAT AATATAGACA AACATATCAA AACTGCTAAG
    TGTGTAGAAA ACACAGAAAA TAAGAATGTT GAATTCCCAA ACCAAAATTT TAGTGAACTC
    CAGGATGTTA TACCAGATTC ACAGGCAGCG GAAAAAAGAG ATCATACTAT ATTACCTGGT
    GTTTTAGACA ACATCTGTGG AAATAAAATA CACAGCAAAT GGGCATGTTG GACACCTGTA
    ACAAACATTG AACTATGTAA TAACCAAAGA GCAAGTACTT CGTCAGGAGA CACATTGAAT
    CAAGATATTG TTATAAATAA AAAACTTACT AAACAAAAAT CATCCTCTTC AATATCTGAT
    CATAATTCTG AAGGAACAGG AAAAGTGAAA TATAAGAAAG AACAAACCGA CCATATCAAA
    ATAGATAAAG CAGAAGTAGA AGTTTGCAAG AAACACAATC AGCAACAAAA TCATCCTAAA
    TATTCAGGGC AGAAAAATAC TGAAAATGCC AAGCAGAGTG ATTGGCCTGT TGAATCTGAA
    ACTACTTTTA AATCGGTTCT CCTAAATAAG ACAATTGAAG AATCGCTGAT ATATAGGAAG
    AAATACATAT TGTCAAAAGA TGTGAATACT GCTACTTGCG ATAAAAATCC ATCTGCTAGC
    AAAAATGTGC AAAGTCATAG AAAAGCAGAG AAAGAATTGA CTTCTGAGCT TAATTCCTGG
    GATTCGAAAC AAAAAAAAAT GAGAGAAAAG TCAAAAGGGA AAGAATTTAC CAATGTAGCA
    GAATCCTTGA TAAGCCAAAT CAATAAAAGA TACAAAACAA AAGATGACAT CAAGTCTACA
    AGAAAATTAA AGGAGTCTTT GATTAACAGT GGTTTTTCAA ACAAACCTGT TGTACAACTC
    AGTAAGGAAA AAGTTCAGAA AAAAAGCTAC AGAAAACTGA AGACTACCTT TGTTAATGTT
    ACTTCTGAAT GCCCAGTGAA TGATGTTTAC AATTTTAATT TGAATGGAGC TGATGACCCT
    ATCATAAAAC TTGGAATCCA AGAGTTTCAA GCTACAGCTA AAGAAGCTTG TGCGGATAGG
    TCAATTAGAT TGGTAGGTCC AAGGAATCAT GATGAACTTA AATCTTCTGT CAAAACAAAA
    GATAAAAAAA TTATAACAAA TCATCAAAAG AAAAATCTGT TTAGTGATAC TGAAACAGAG
    TACAGATGTG ATGACAGCAA GACTGATATT AGCTGGCTAA GAGAACCGAA ATCAAAACCA
    CAGCTAATAG ACTATAGCAG AAATAAAAAT GTGAAGAATC ATAAAAGTGG AAAATCAAGA
    TCATCCTTGG AAAAGGGACA GCCAAGCTCT AAAATGACAC CCAGTAAAAA TATCACAAAA
    AAGATGGACA AGACAATTCC GGAAGGAAGA ATCAGACTTC CACGAAAAGC AACCAAAACA
    AAAAAAAACT ATAAAGATCT CTCAAATTCA GAATCAGAGT GTGAACAAGA ATTTTCACAT
    TCATTTAAAG AGAACATACC AGTAAAGGAG GAGAATATCC ATTCCAGAAT GAAAACGGTA
    AAGCTACCAA AGAAACAACA GAAAGTCTTC TGTGCTGAAA CAGAAAAGGA ACTATCAAAA
    CAATGGAAAA ACTCATCTCT ACTAAAAGAT GCTATACGAG ATAATTGCCT TGACTTATCT
    CCCAGATCTT TATCTGGCAG TCCATCATCT ATAGAAGTAA CGAGATGTAT AGAGAAAATA
    ACAGAAAAGG ATTTTACTCA GGATTATGAC TGCATAACAA AATCTATATC ACCTTATCCA
    AAAACTTCAT CACTTGAATC CTTAAATAGT AACAGTGGAG TTGGAGGTAC AATAAAGTCA
    CCCAAAAACA ATGAGAAAAA CTTCCTGTGT GCAAGTGAAA GTTGTTCACC AATTCCACGA
    CCACTGTTTT TGCCCAGACA TACTCCAACT AAGAGTAATA CTATTGTAAA TAGAAAAAAA
    ATAAGTTCTC TGGTACTTAC ACAAGAAACA CAAAACAGTA ACAGCTATTC AGATGTAAGC
    AGTTATAGTT CAGAAGAACG GTTTATGGAA ATTGAATCTC CACATATCAA TGAAAATTAT
    ATACAAAGCA AAAGAGAGGA AAGTCATTTA GCATCTTCAT TATCCAAGTC TAGTGAAGGA
    AGAGAGAAAA CGTGGTTTGA CATGCCCTGT GATGCTACTC ATGTATCAGG CCCCACCCAA
    CATCTTAGTC GCAAAAGAAT ATATATAGAA GATAATCTAA GTAATTCCAA TGAAGTAGAA
    ATGGAAGAGA AAGGAGAAAG GAGAGCAAAC TTGCTTCCCA AAAAACTGTG TAAAATTGAA
    GATGCAGATC ATCATATCCA CAAAATGTCT GAAAGTGTAT CTTCATTATC AACAAATGAC
    TTTTCTATTC CTTGGGAGAC CTGGCAAAAT GAATTTGCAG GGATAGAGAT GACTTATGAG
    ACTTACGAGA GGCTCAATTC AGAATTTAAG AGAAGGAATA ATATCCGACA TAAAATGTTG
    AGTTATTTTA CTACGCAGTC TTGGAAAACA GCTCAGCAAC ATCTGAGAAC AATGAATCAT
    CAAAGTCAGG ACTCTAGGAT TAAAAAACTT GATAAATTCC AATTCATTAT CATAGAGGAG
    CTGGAGAATT TTGAAAAAGA TTCACAGTCT TTAAAAGATT TGGAAAAGGA ATTTGTGGAC
    TTTTGGGAAA AGATATTTCA GAAGTTCAGT GCATATCAAA AAAGCGAACA ACAGAGGCTT
    CATCTTTTGA AAACTTCATT GGCTAAAAGT GTCTTCTGTA ATACTGATAG TGAAGAAACT
    GTTTTTACAT CCGAGATGTG TTTGATGAAA GAAGATATGA AAGTGCTGCA AGACAGGCTT
    CTTAAGGACA TGCTAGAAGA GGAGCTTCTT AATGTACGCA GAGAACTGAT GTCAGTATTC
    ATGTCTCATG AAAGAAATGC TAATGTGTGA

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

    CloneID OHu63955
    Clone ID Related Accession (Same CDS sequence) XM_011528490.3 , XM_011528490.2
    Accession Version XM_011528490.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 synaptonemal complex protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011528490.1. ##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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCCAATAA GACCAGATCT CCAGTTGGAA AAATGCATTG ATGATGCTTT AAGAAAAAAT 
    GATTTCAAAC CTTTGAAAAC ACTTTTGCAA ATTGATATTT GTGAAGATGT GAAGATTAAA
    TGCAGCAAAC AGTTTTTCCA CAAGGTGGAC AACCTTATAT GCAGGGAACT TAATAAAGAG
    GATATCCACA ATGTTTCAGC CATTTTGGTT TCTGTTGGAA GATGTGGCAA AAATATCAGT
    GTATTGGGGC AAGCTGGACT TCTAACGATG ATAAAACAAG GACTAATACA AAAGATGGTT
    GCCTGGTTTG AAAAATCCAA GGACATTATT CAGAGTCAAG GAAATTCAAA AGATGAAGCT
    GTTCTAAATA TGATAGAAGA CTTAGTTGAT CTTCTGCTGG TCATACATGA TGTCAGTGAT
    GAAGGTAAAA AACAAGTAGT GGAAAGTTTC GTACCTCGCA TTTGTTCCCT GGTTATTGAC
    TCAAGAGTGA ATATTTGTAT TCAGCAAGAG ATTATAAAAA AAATGAATGC TATGCTTGAC
    AAAATGCCTC AAGATGCCCG GAAAATACTC TCTAACCAAG AAATGTTAAT TCTCATGAGT
    AGTATGGGAG AAAGGATTTT AGATGCTGGA GATTATGACT TACAGGTAGG CATTGTAGAA
    GCTTTGTGTA GAATGACCAC AGAAAAACAA AGACAAGAAC TGGCACATCA GTGGTTTTCA
    ATGGATTTTA TTGCTAAGGC ATTTAAAAGA ATTAAGGACT CTGAATTTGA AACAGATTGC
    AGGATATTTC TCAACCTTGT AAATGGCATG CTTGGAGACA AAAGAAGGGT CTTTACATTT
    CCTTGTTTAT CAGCATTTCT TGATAAATAT GAGCTGCAAA TACCATCAGA TGAAAAACTT
    GAGGAATTTT GGATTGATTT TAATCTTGGG AGTCAGACTC TCTCATTCTA CATTGCTGGA
    GATAATGATG ATCATCAATG GGAAGCAGTT ACTGTGCCAG AGGAAAAAGT ACAAATATAC
    AGCATTGAAG TGAGAGAATC AAAGAAGCTA CTGACAATAA TTCTGAAAAA TACAGTAAAA
    ATTAGCAAAA GAGAAGGGAA AGAATTGCTT TTGTATTTTG ACGCATCACT AGAAATCACT
    AATGTAACTC AAAAAATTTT TGGTGCAACT AAACATAGGG AATCTATCAG AAAACAAGGT
    ATTTCAGTTG CCAAAACGTC GCTGCATATA CTTTTTGACG CAAGTGGATC ACAGATTCTA
    GTGCCAGAAA GTCAAATCTC ACCAGTCGGA GAAGAGCTCG TTAGTTTAAA GGAAAAATCA
    AAGTCCCCAA AGGAATTTGC TAAACCTTCA AAATATATCA AAAACAGTGA CAAAGGGAAT
    AGAAATAATA GTCAGCTTGA GAAAACTACT CCTAGCAAAA GAAAAATGTC TGAAGCATCA
    ATGATTGTTT CTGGTGCAGA TAGATACACT ATGAGAAGTC CAGTGCTTTT CAGCAACACA
    TCAATACCAC CACGAAGAAG AAGAATTAAA CCACCACTGC AAATGACGAG CTCTGCAGAG
    AAACCTAGTG TTTCTCAAAC ATCAGAAAAT AGAGTGGATA ATGCTGCATC ACTGAAATCT
    AGATCATCAG AAGGAAGACA TAGAAGAGAT AATATAGACA AACATATCAA AACTGCTAAG
    TGTGTAGAAA ACACAGAAAA TAAGAATGTT GAATTCCCAA ACCAAAATTT TAGTGAACTC
    CAGGATGTTA TACCAGATTC ACAGGCAGCG GAAAAAAGAG ATCATACTAT ATTACCTGGT
    GTTTTAGACA ACATCTGTGG AAATAAAATA CACAGCAAAT GGGCATGTTG GACACCTGTA
    ACAAACATTG AACTATGTAA TAACCAAAGA GCAAGTACTT CGTCAGGAGA CACATTGAAT
    CAAGATATTG TTATAAATAA AAAACTTACT AAACAAAAAT CATCCTCTTC AATATCTGAT
    CATAATTCTG AAGGAACAGG AAAAGTGAAA TATAAGAAAG AACAAACCGA CCATATCAAA
    ATAGATAAAG CAGAAGTAGA AGTTTGCAAG AAACACAATC AGCAACAAAA TCATCCTAAA
    TATTCAGGGC AGAAAAATAC TGAAAATGCC AAGCAGAGTG ATTGGCCTGT TGAATCTGAA
    ACTACTTTTA AATCGGTTCT CCTAAATAAG ACAATTGAAG AATCGCTGAT ATATAGGAAG
    AAATACATAT TGTCAAAAGA TGTGAATACT GCTACTTGCG ATAAAAATCC ATCTGCTAGC
    AAAAATGTGC AAAGTCATAG AAAAGCAGAG AAAGAATTGA CTTCTGAGCT TAATTCCTGG
    GATTCGAAAC AAAAAAAAAT GAGAGAAAAG TCAAAAGGGA AAGAATTTAC CAATGTAGCA
    GAATCCTTGA TAAGCCAAAT CAATAAAAGA TACAAAACAA AAGATGACAT CAAGTCTACA
    AGAAAATTAA AGGAGTCTTT GATTAACAGT GGTTTTTCAA ACAAACCTGT TGTACAACTC
    AGTAAGGAAA AAGTTCAGAA AAAAAGCTAC AGAAAACTGA AGACTACCTT TGTTAATGTT
    ACTTCTGAAT GCCCAGTGAA TGATGTTTAC AATTTTAATT TGAATGGAGC TGATGACCCT
    ATCATAAAAC TTGGAATCCA AGAGTTTCAA GCTACAGCTA AAGAAGCTTG TGCGGATAGG
    TCAATTAGAT TGGTAGGTCC AAGGAATCAT GATGAACTTA AATCTTCTGT CAAAACAAAA
    GATAAAAAAA TTATAACAAA TCATCAAAAG AAAAATCTGT TTAGTGATAC TGAAACAGAG
    TACAGATGTG ATGACAGCAA GACTGATATT AGCTGGCTAA GAGAACCGAA ATCAAAACCA
    CAGCTAATAG ACTATAGCAG AAATAAAAAT GTGAAGAATC ATAAAAGTGG AAAATCAAGA
    TCATCCTTGG AAAAGGGACA GCCAAGCTCT AAAATGACAC CCAGTAAAAA TATCACAAAA
    AAGATGGACA AGACAATTCC GGAAGGAAGA ATCAGACTTC CACGAAAAGC AACCAAAACA
    AAAAAAAACT ATAAAGATCT CTCAAATTCA GAATCAGAGT GTGAACAAGA ATTTTCACAT
    TCATTTAAAG AGAACATACC AGTAAAGGAG GAGAATATCC ATTCCAGAAT GAAAACGGTA
    AAGCTACCAA AGAAACAACA GAAAGTCTTC TGTGCTGAAA CAGAAAAGGA ACTATCAAAA
    CAATGGAAAA ACTCATCTCT ACTAAAAGAT GCTATACGAG ATAATTGCCT TGACTTATCT
    CCCAGATCTT TATCTGGCAG TCCATCATCT ATAGAAGTAA CGAGATGTAT AGAGAAAATA
    ACAGAAAAGG ATTTTACTCA GGATTATGAC TGCATAACAA AATCTATATC ACCTTATCCA
    AAAACTTCAT CACTTGAATC CTTAAATAGT AACAGTGGAG TTGGAGGTAC AATAAAGTCA
    CCCAAAAACA ATGAGAAAAA CTTCCTGTGT GCAAGTGAAA GTTGTTCACC AATTCCACGA
    CCACTGTTTT TGCCCAGACA TACTCCAACT AAGAGTAATA CTATTGTAAA TAGAAAAAAA
    ATAAGTTCTC TGGTACTTAC ACAAGAAACA CAAAACAGTA ACAGCTATTC AGATGTAAGC
    AGTTATAGTT CAGAAGAACG GTTTATGGAA ATTGAATCTC CACATATCAA TGAAAATTAT
    ATACAAAGCA AAAGAGAGGA AAGTCATTTA GCATCTTCAT TATCCAAGTC TAGTGAAGGA
    AGAGAGAAAA CGTGGTTTGA CATGCCCTGT GATGCTACTC ATGTATCAGG CCCCACCCAA
    CATCTTAGTC GCAAAAGAAT ATATATAGAA GATAATCTAA GTAATTCCAA TGAAGTAGAA
    ATGGAAGAGA AAGGAGAAAG GAGAGCAAAC TTGCTTCCCA AAAAACTGTG TAAAATTGAA
    GATGCAGATC ATCATATCCA CAAAATGTCT GAAAGTGTAT CTTCATTATC AACAAATGAC
    TTTTCTATTC CTTGGGAGAC CTGGCAAAAT GAATTTGCAG GGATAGAGAT GACTTATGAG
    ACTTACGAGA GGCTCAATTC AGAATTTAAG AGAAGGAATA ATATCCGACA TAAAATGTTG
    AGTTATTTTA CTACGCAGTC TTGGAAAACA GCTCAGCAAC ATCTGAGAAC AATGAATCAT
    CAAAGTCAGG ACTCTAGGAT TAAAAAACTT GATAAATTCC AATTCATTAT CATAGAGGAG
    CTGGAGAATT TTGAAAAAGA TTCACAGTCT TTAAAAGATT TGGAAAAGGA ATTTGTGGAC
    TTTTGGGAAA AGATATTTCA GAAGTTCAGT GCATATCAAA AAAGCGAACA ACAGAGGCTT
    CATCTTTTGA AAACTTCATT GGCTAAAAGT GTCTTCTGTA ATACTGATAG TGAAGAAACT
    GTTTTTACAT CCGAGATGTG TTTGATGAAA GAAGATATGA AAGTGCTGCA AGACAGGCTT
    CTTAAGGACA TGCTAGAAGA GGAGCTTCTT AATGTACGCA GAGAACTGAT GTCAGTATTC
    ATGTCTCATG AAAGAAATGC TAATGTGTGA

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

    RefSeq XP_011526792.1
    CDS250..4839
    Translation

    Target ORF information:

    RefSeq Version XM_011528490.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528490.2

    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
    ATGCCAATAA GACCAGATCT CCAGTTGGAA AAATGCATTG ATGATGCTTT AAGAAAAAAT 
    GATTTCAAAC CTTTGAAAAC ACTTTTGCAA ATTGATATTT GTGAAGATGT GAAGATTAAA
    TGCAGCAAAC AGTTTTTCCA CAAGGTGGAC AACCTTATAT GCAGGGAACT TAATAAAGAG
    GATATCCACA ATGTTTCAGC CATTTTGGTT TCTGTTGGAA GATGTGGCAA AAATATCAGT
    GTATTGGGGC AAGCTGGACT TCTAACGATG ATAAAACAAG GACTAATACA AAAGATGGTT
    GCCTGGTTTG AAAAATCCAA GGACATTATT CAGAGTCAAG GAAATTCAAA AGATGAAGCT
    GTTCTAAATA TGATAGAAGA CTTAGTTGAT CTTCTGCTGG TCATACATGA TGTCAGTGAT
    GAAGGTAAAA AACAAGTAGT GGAAAGTTTC GTACCTCGCA TTTGTTCCCT GGTTATTGAC
    TCAAGAGTGA ATATTTGTAT TCAGCAAGAG ATTATAAAAA AAATGAATGC TATGCTTGAC
    AAAATGCCTC AAGATGCCCG GAAAATACTC TCTAACCAAG AAATGTTAAT TCTCATGAGT
    AGTATGGGAG AAAGGATTTT AGATGCTGGA GATTATGACT TACAGGTAGG CATTGTAGAA
    GCTTTGTGTA GAATGACCAC AGAAAAACAA AGACAAGAAC TGGCACATCA GTGGTTTTCA
    ATGGATTTTA TTGCTAAGGC ATTTAAAAGA ATTAAGGACT CTGAATTTGA AACAGATTGC
    AGGATATTTC TCAACCTTGT AAATGGCATG CTTGGAGACA AAAGAAGGGT CTTTACATTT
    CCTTGTTTAT CAGCATTTCT TGATAAATAT GAGCTGCAAA TACCATCAGA TGAAAAACTT
    GAGGAATTTT GGATTGATTT TAATCTTGGG AGTCAGACTC TCTCATTCTA CATTGCTGGA
    GATAATGATG ATCATCAATG GGAAGCAGTT ACTGTGCCAG AGGAAAAAGT ACAAATATAC
    AGCATTGAAG TGAGAGAATC AAAGAAGCTA CTGACAATAA TTCTGAAAAA TACAGTAAAA
    ATTAGCAAAA GAGAAGGGAA AGAATTGCTT TTGTATTTTG ACGCATCACT AGAAATCACT
    AATGTAACTC AAAAAATTTT TGGTGCAACT AAACATAGGG AATCTATCAG AAAACAAGGT
    ATTTCAGTTG CCAAAACGTC GCTGCATATA CTTTTTGACG CAAGTGGATC ACAGATTCTA
    GTGCCAGAAA GTCAAATCTC ACCAGTCGGA GAAGAGCTCG TTAGTTTAAA GGAAAAATCA
    AAGTCCCCAA AGGAATTTGC TAAACCTTCA AAATATATCA AAAACAGTGA CAAAGGGAAT
    AGAAATAATA GTCAGCTTGA GAAAACTACT CCTAGCAAAA GAAAAATGTC TGAAGCATCA
    ATGATTGTTT CTGGTGCAGA TAGATACACT ATGAGAAGTC CAGTGCTTTT CAGCAACACA
    TCAATACCAC CACGAAGAAG AAGAATTAAA CCACCACTGC AAATGACGAG CTCTGCAGAG
    AAACCTAGTG TTTCTCAAAC ATCAGAAAAT AGAGTGGATA ATGCTGCATC ACTGAAATCT
    AGATCATCAG AAGGAAGACA TAGAAGAGAT AATATAGACA AACATATCAA AACTGCTAAG
    TGTGTAGAAA ACACAGAAAA TAAGAATGTT GAATTCCCAA ACCAAAATTT TAGTGAACTC
    CAGGATGTTA TACCAGATTC ACAGGCAGCG GAAAAAAGAG ATCATACTAT ATTACCTGGT
    GTTTTAGACA ACATCTGTGG AAATAAAATA CACAGCAAAT GGGCATGTTG GACACCTGTA
    ACAAACATTG AACTATGTAA TAACCAAAGA GCAAGTACTT CGTCAGGAGA CACATTGAAT
    CAAGATATTG TTATAAATAA AAAACTTACT AAACAAAAAT CATCCTCTTC AATATCTGAT
    CATAATTCTG AAGGAACAGG AAAAGTGAAA TATAAGAAAG AACAAACCGA CCATATCAAA
    ATAGATAAAG CAGAAGTAGA AGTTTGCAAG AAACACAATC AGCAACAAAA TCATCCTAAA
    TATTCAGGGC AGAAAAATAC TGAAAATGCC AAGCAGAGTG ATTGGCCTGT TGAATCTGAA
    ACTACTTTTA AATCGGTTCT CCTAAATAAG ACAATTGAAG AATCGCTGAT ATATAGGAAG
    AAATACATAT TGTCAAAAGA TGTGAATACT GCTACTTGCG ATAAAAATCC ATCTGCTAGC
    AAAAATGTGC AAAGTCATAG AAAAGCAGAG AAAGAATTGA CTTCTGAGCT TAATTCCTGG
    GATTCGAAAC AAAAAAAAAT GAGAGAAAAG TCAAAAGGGA AAGAATTTAC CAATGTAGCA
    GAATCCTTGA TAAGCCAAAT CAATAAAAGA TACAAAACAA AAGATGACAT CAAGTCTACA
    AGAAAATTAA AGGAGTCTTT GATTAACAGT GGTTTTTCAA ACAAACCTGT TGTACAACTC
    AGTAAGGAAA AAGTTCAGAA AAAAAGCTAC AGAAAACTGA AGACTACCTT TGTTAATGTT
    ACTTCTGAAT GCCCAGTGAA TGATGTTTAC AATTTTAATT TGAATGGAGC TGATGACCCT
    ATCATAAAAC TTGGAATCCA AGAGTTTCAA GCTACAGCTA AAGAAGCTTG TGCGGATAGG
    TCAATTAGAT TGGTAGGTCC AAGGAATCAT GATGAACTTA AATCTTCTGT CAAAACAAAA
    GATAAAAAAA TTATAACAAA TCATCAAAAG AAAAATCTGT TTAGTGATAC TGAAACAGAG
    TACAGATGTG ATGACAGCAA GACTGATATT AGCTGGCTAA GAGAACCGAA ATCAAAACCA
    CAGCTAATAG ACTATAGCAG AAATAAAAAT GTGAAGAATC ATAAAAGTGG AAAATCAAGA
    TCATCCTTGG AAAAGGGACA GCCAAGCTCT AAAATGACAC CCAGTAAAAA TATCACAAAA
    AAGATGGACA AGACAATTCC GGAAGGAAGA ATCAGACTTC CACGAAAAGC AACCAAAACA
    AAAAAAAACT ATAAAGATCT CTCAAATTCA GAATCAGAGT GTGAACAAGA ATTTTCACAT
    TCATTTAAAG AGAACATACC AGTAAAGGAG GAGAATATCC ATTCCAGAAT GAAAACGGTA
    AAGCTACCAA AGAAACAACA GAAAGTCTTC TGTGCTGAAA CAGAAAAGGA ACTATCAAAA
    CAATGGAAAA ACTCATCTCT ACTAAAAGAT GCTATACGAG ATAATTGCCT TGACTTATCT
    CCCAGATCTT TATCTGGCAG TCCATCATCT ATAGAAGTAA CGAGATGTAT AGAGAAAATA
    ACAGAAAAGG ATTTTACTCA GGATTATGAC TGCATAACAA AATCTATATC ACCTTATCCA
    AAAACTTCAT CACTTGAATC CTTAAATAGT AACAGTGGAG TTGGAGGTAC AATAAAGTCA
    CCCAAAAACA ATGAGAAAAA CTTCCTGTGT GCAAGTGAAA GTTGTTCACC AATTCCACGA
    CCACTGTTTT TGCCCAGACA TACTCCAACT AAGAGTAATA CTATTGTAAA TAGAAAAAAA
    ATAAGTTCTC TGGTACTTAC ACAAGAAACA CAAAACAGTA ACAGCTATTC AGATGTAAGC
    AGTTATAGTT CAGAAGAACG GTTTATGGAA ATTGAATCTC CACATATCAA TGAAAATTAT
    ATACAAAGCA AAAGAGAGGA AAGTCATTTA GCATCTTCAT TATCCAAGTC TAGTGAAGGA
    AGAGAGAAAA CGTGGTTTGA CATGCCCTGT GATGCTACTC ATGTATCAGG CCCCACCCAA
    CATCTTAGTC GCAAAAGAAT ATATATAGAA GATAATCTAA GTAATTCCAA TGAAGTAGAA
    ATGGAAGAGA AAGGAGAAAG GAGAGCAAAC TTGCTTCCCA AAAAACTGTG TAAAATTGAA
    GATGCAGATC ATCATATCCA CAAAATGTCT GAAAGTGTAT CTTCATTATC AACAAATGAC
    TTTTCTATTC CTTGGGAGAC CTGGCAAAAT GAATTTGCAG GGATAGAGAT GACTTATGAG
    ACTTACGAGA GGCTCAATTC AGAATTTAAG AGAAGGAATA ATATCCGACA TAAAATGTTG
    AGTTATTTTA CTACGCAGTC TTGGAAAACA GCTCAGCAAC ATCTGAGAAC AATGAATCAT
    CAAAGTCAGG ACTCTAGGAT TAAAAAACTT GATAAATTCC AATTCATTAT CATAGAGGAG
    CTGGAGAATT TTGAAAAAGA TTCACAGTCT TTAAAAGATT TGGAAAAGGA ATTTGTGGAC
    TTTTGGGAAA AGATATTTCA GAAGTTCAGT GCATATCAAA AAAGCGAACA ACAGAGGCTT
    CATCTTTTGA AAACTTCATT GGCTAAAAGT GTCTTCTGTA ATACTGATAG TGAAGAAACT
    GTTTTTACAT CCGAGATGTG TTTGATGAAA GAAGATATGA AAGTGCTGCA AGACAGGCTT
    CTTAAGGACA TGCTAGAAGA GGAGCTTCTT AATGTACGCA GAGAACTGAT GTCAGTATTC
    ATGTCTCATG AAAGAAATGC TAATGTGTGA

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

    CloneID OHu63956
    Clone ID Related Accession (Same CDS sequence) XM_017027588.1
    Accession Version XM_017027588.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4458bp)
    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 synaptonemal complex protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGTGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    RefSeq XP_016883077.1
    CDS447..4904
    Translation

    Target ORF information:

    RefSeq Version XM_017027588.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027588.1

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    ACACCCAGTA AAAATATCAC AAAAAAGATG GACAAGACAA TTCCGGAAGG AAGAATCAGA
    CTTCCACGAA AAGCAACCAA AACAAAAAAA AACTATAAAG ATCTCTCAAA TTCAGAATCA
    GAGTGTGAAC AAGAATTTTC ACATTCATTT AAAGAGAACA TACCAGTAAA GGAGGAGAAT
    ATCCATTCCA GAATGAAAAC GGTAAAGCTA CCAAAGAAAC AACAGAAAGT CTTCTGTGCT
    GAAACAGAAA AGGAACTATC AAAACAATGG AAAAACTCAT CTCTACTAAA AGATGCTATA
    CGAGATAATT GCCTTGACTT ATCTCCCAGA TCTTTATCTG GCAGTCCATC ATCTATAGAA
    GTAACGAGAT GTATAGAGAA AATAACAGAA AAGGATTTTA CTCAGGATTA TGACTGCATA
    ACAAAATCTA TATCACCTTA TCCAAAAACT TCATCACTTG AATCCTTAAA TAGTAACAGT
    GGAGTTGGAG GTACAATAAA GTCACCCAAA AACAATGAGA AAAACTTCCT GTGTGCAAGT
    GAAAGTTGTT CACCAATTCC ACGACCACTG TTTTTGCCCA GACATACTCC AACTAAGAGT
    AATACTATTG TAAATAGAAA AAAAATAAGT TCTCTGGTAC TTACACAAGA AACACAAAAC
    AGTAACAGCT ATTCAGATGT AAGCAGTTAT AGTTCAGAAG AACGGTTTAT GGAAATTGAA
    TCTCCACATA TCAATGAAAA TTATATACAA AGCAAAAGAG AGGAAAGTCA TTTAGCATCT
    TCATTATCCA AGTCTAGTGA AGGAAGAGAG AAAACGTGGT TTGACATGCC CTGTGATGCT
    ACTCATGTAT CAGTGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    CloneID OHu63957
    Clone ID Related Accession (Same CDS sequence) XM_017027589.1
    Accession Version XM_017027589.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4443bp)
    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 synaptonemal complex protein 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    GAGGAGAATA TCCATTCCAG AATGAAAACG GTAAAGCTAC CAAAGAAACA ACAGAAAGTC
    TTCTGTGCTG AAACAGAAAA GGAACTATCA AAACAATGGA AAAACTCATC TCTACTAAAA
    GATGCTATAC GAGATAATTG CCTTGACTTA TCTCCCAGAT CTTTATCTGG CAGTCCATCA
    TCTATAGAAG TAACGAGATG TATAGAGAAA ATAACAGAAA AGGATTTTAC TCAGGATTAT
    GACTGCATAA CAAAATCTAT ATCACCTTAT CCAAAAACTT CATCACTTGA ATCCTTAAAT
    AGTAACAGTG GAGTTGGAGG TACAATAAAG TCACCCAAAA ACAATGAGAA AAACTTCCTG
    TGTGCAAGTG AAAGTTGTTC ACCAATTCCA CGACCACTGT TTTTGCCCAG ACATACTCCA
    ACTAAGAGTA ATACTATTGT AAATAGAAAA AAAATAAGTT CTCTGGTACT TACACAAGAA
    ACACAAAACA GTAACAGCTA TTCAGATGTA AGCAGTTATA GTTCAGAAGA ACGGTTTATG
    GAAATTGAAT CTCCACATAT CAATGAAAAT TATATACAAA GCAAAAGAGA GGAAAGTCAT
    TTAGCATCTT CATTATCCAA GTCTAGTGAA GGAAGAGAGA AAACGTGGTT TGACATGCCC
    TGTGATGCTA CTCATGTATC AGGCCCCACC CAACATCTTA GTCGCAAAAG AATATATATA
    GAAGATAATC TAAGTAATTC CAATGAAGTA GAAATGGAAG AGAAAGGAGA AAGGAGAGCA
    AACTTGCTTC CCAAAAAACT GTGTAAAATT GAAGATGCAG ATCATCATAT CCACAAAATG
    TCTGAAAGTG TATCTTCATT ATCAACAAAT GACTTTTCTA TTCCTTGGGA GACCTGGCAA
    AATGAATTTG CAGGGATAGA GATGACTTAT GAGACTTACG AGAGGCTCAA TTCAGAATTT
    AAGAGAAGGA ATAATATCCG ACATAAAATG TTGAGTTATT TTACTACGCA GTCTTGGAAA
    ACAGCTCAGC AACATCTGAG AACAATGAAT CATCAAAGTC AGGACTCTAG GATTAAAAAA
    CTTGATAAAT TCCAATTCAT TATCATAGAG GAGCTGGAGA ATTTTGAAAA AGATTCACAG
    TCTTTAAAAG ATTTGGAAAA GGAATTTGTG GACTTTTGGG AAAAGATATT TCAGAAGTTC
    AGTGCATATC AAAAAAGCGA ACAACAGAGG CTTCATCTTT TGAAAACTTC ATTGGCTAAA
    AGTGTCTTCT GTAATACTGA TAGTGAAGAA ACTGTTTTTA CATCCGAGAT GTGTTTGATG
    AAAGAAGATA TGAAAGTGCT GCAAGACAGG CTTCTTAAGG ACATGCTAGA AGAGGAGCTT
    CTTAATGTAC GCAGAGAACT GATGTCAGTA TTCATGTCTC ATGAAAGAAA TGCTAATGTG
    TGA

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

    RefSeq XP_016883078.1
    CDS447..4889
    Translation

    Target ORF information:

    RefSeq Version XM_017027589.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027589.1

    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
    ATGCCAATAA GACCAGATCT CCAGGTATGT AGTCCTAGAC CAAAACAGTT GGAAAAATGC 
    ATTGATGATG CTTTAAGAAA AAATGATTTC AAACCTTTGA AAACACTTTT GCAAATTGAT
    ATTTGTGAAG ATGTGAAGAT TAAATGCAGC AAACAGTTTT TCCACAAGGT GGACAACCTT
    ATATGCAGGG AACTTAATAA AGAGGATATC CACAATGTTT CAGCCATTTT GGTTTCTGTT
    GGAAGATGTG GCAAAAATAT CAGTGTATTG GGGCAAGCTG GACTTCTAAC GATGATAAAA
    CAAGGACTAA TACAAAAGAT GGTTGCCTGG TTTGAAAAAT CCAAGGACAT TATTCAGAGT
    CAAGGAAATT CAAAAGATGA AGCTGTTCTA AATATGATAG AAGACTTAGT TGATCTTCTG
    CTGGTCATAC ATGATGTCAG TGATGAAGGT AAAAAACAAG TAGTGGAAAG TTTCGTACCT
    CGCATTTGTT CCCTGGTTAT TGACTCAAGA GTGAATATTT GTATTCAGCA AGAGATTATA
    AAAAAAATGA ATGCTATGCT TGACAAAATG CCTCAAGATG CCCGGAAAAT ACTCTCTAAC
    CAAGAAATGT TAATTCTCAT GAGTAGTATG GGAGAAAGGA TTTTAGATGC TGGAGATTAT
    GACTTACAGG TAGGCATTGT AGAAGCTTTG TGTAGAATGA CCACAGAAAA ACAAAGACAA
    GAACTGGCAC ATCAGTGGTT TTCAATGGAT TTTATTGCTA AGGCATTTAA AAGAATTAAG
    GACTCTGAAT TTGAAACAGA TTGCAGGATA TTTCTCAACC TTGTAAATGG CATGCTTGGA
    GACAAAAGAA GGGTCTTTAC ATTTCCTTGT TTATCAGCAT TTCTTGATAA ATATGAGCTG
    CAAATACCAT CAGATGAAAA ACTTGAGGAA TTTTGGATTG ATTTTAATCT TGGGAGTCAG
    ACTCTCTCAT TCTACATTGC TGGAGATAAT GATGATCATC AATGGGAAGC AGTTACTGTG
    CCAGAGGAAA AAGTACAAAT ATACAGCATT GAAGTGAGAG AATCAAAGAA GCTACTGACA
    ATAATTCTGA AAAATACAGT AAAAATTAGC AAAAGAGAAG GGAAAGAATT GCTTTTGTAT
    TTTGACGCAT CACTAGAAAT CACTAATGTA ACTCAAAAAA TTTTTGGTGC AACTAAACAT
    AGGGAATCTA TCAGAAAACA AGGTATTTCA GTTGCCAAAA CGTCGCTGCA TATACTTTTT
    GACGCAAGTG GATCACAGAT TCTAGTGCCA GAAAGTCAAA TCTCACCAGT CGGAGAAGAG
    CTCGTTAGTT TAAAGGAAAA ATCAAAGTCC CCAAAGGAAT TTGCTAAACC TTCAAAATAT
    ATCAAAAACA GTGACAAAGG GAATAGAAAT AATAGTCAGC TTGAGAAAAC TACTCCTAGC
    AAAAGAAAAA TGTCTGAAGC ATCAATGATT GTTTCTGGTG CAGATAGATA CACTATGAGA
    AGTCCAGTGC TTTTCAGCAA CACATCAATA CCACCACGAA GAAGAAGAAT TAAACCACCA
    CTGCAAATGA CGAGCTCTGC AGAGAAACCT AGTGTTTCTC AAACATCAGA AAATAGAGTG
    GATAATGCTG CATCACTGAA ATCTAGATCA TCAGAAGGAA GACATAGAAG AGATAATATA
    GACAAACATA TCAAAACTGC TAAGTGTGTA GAAAACACAG AAAATAAGAA TGTTGAATTC
    CCAAACCAAA ATTTTAGTGA ACTCCAGGAT GTTATACCAG ATTCACAGGC AGCGGAAAAA
    AGAGATCATA CTATATTACC TGGTGTTTTA GACAACATCT GTGGAAATAA AATACACAGC
    AAATGGGCAT GTTGGACACC TGTAACAAAC ATTGAACTAT GTAATAACCA AAGAGCAAGT
    ACTTCGTCAG GAGACACATT GAATCAAGAT ATTGTTATAA ATAAAAAACT TACTAAACAA
    AAATCATCCT CTTCAATATC TGATCATAAT TCTGAAGGAA CAGGAAAAGT GAAATATAAG
    AAAGAACAAA CCGACCATAT CAAAATAGAT AAAGCAGAAG TAGAAGTTTG CAAGAAACAC
    AATCAGCAAC AAAATCATCC TAAATATTCA GGGCAGAAAA ATACTGAAAA TGCCAAGCAG
    AGTGATTGGC CTGTTGAATC TGAAACTACT TTTAAATCGG TTCTCCTAAA TAAGACAATT
    GAAGAATCGC TGATATATAG GAAGAAATAC ATATTGTCAA AAGATGTGAA TACTGCTACT
    TGCGATAAAA ATCCATCTGC TAGCAAAAAT GTGCAAAGTC ATAGAAAAGC AGAGAAAGAA
    TTGACTTCTG AGCTTAATTC CTGGGATTCG AAACAAAAAA AAATGAGAGA AAAGTCAAAA
    GGGAAAGAAT TTACCAATGT AGCAGAATCC TTGATAAGCC AAATCAATAA AAGATACAAA
    ACAAAAGATG ACATCAAGTC TACAAGAAAA TTAAAGGAGT CTTTGATTAA CAGTGGTTTT
    TCAAACAAAC CTGTTGTACA ACTCAGTAAG GAAAAAGTTC AGAAAAAAAG CTACAGAAAA
    CTGAAGACTA CCTTTGTTAA TGTTACTTCT GAATGCCCAG TGAATGATGT TTACAATTTT
    AATTTGAATG GAGCTGATGA CCCTATCATA AAACTTGGAA TCCAAGAGTT TCAAGCTACA
    GCTAAAGAAG CTTGTGCGGA TAGGTCAATT AGATTGGTAG GTCCAAGGAA TCATGATGAA
    CTTAAATCTT CTGTCAAAAC AAAAGATAAA AAAATTATAA CAAATCATCA AAAGAAAAAT
    CTGTTTAGTG ATACTGAAAC AGAGTACAGA TGTGATGACA GCAAGACTGA TATTAGCTGG
    CTAAGAGAAC CGAAATCAAA ACCACAGCTA ATAGACTATA GCAGAAATAA AAATGTGAAG
    AATCATAAAA GTGGAAAATC AAGATCATCC TTGGAAAAGG GACAGCCAAG CTCTAAAATG
    GAGGAGAATA TCCATTCCAG AATGAAAACG GTAAAGCTAC CAAAGAAACA ACAGAAAGTC
    TTCTGTGCTG AAACAGAAAA GGAACTATCA AAACAATGGA AAAACTCATC TCTACTAAAA
    GATGCTATAC GAGATAATTG CCTTGACTTA TCTCCCAGAT CTTTATCTGG CAGTCCATCA
    TCTATAGAAG TAACGAGATG TATAGAGAAA ATAACAGAAA AGGATTTTAC TCAGGATTAT
    GACTGCATAA CAAAATCTAT ATCACCTTAT CCAAAAACTT CATCACTTGA ATCCTTAAAT
    AGTAACAGTG GAGTTGGAGG TACAATAAAG TCACCCAAAA ACAATGAGAA AAACTTCCTG
    TGTGCAAGTG AAAGTTGTTC ACCAATTCCA CGACCACTGT TTTTGCCCAG ACATACTCCA
    ACTAAGAGTA ATACTATTGT AAATAGAAAA AAAATAAGTT CTCTGGTACT TACACAAGAA
    ACACAAAACA GTAACAGCTA TTCAGATGTA AGCAGTTATA GTTCAGAAGA ACGGTTTATG
    GAAATTGAAT CTCCACATAT CAATGAAAAT TATATACAAA GCAAAAGAGA GGAAAGTCAT
    TTAGCATCTT CATTATCCAA GTCTAGTGAA GGAAGAGAGA AAACGTGGTT TGACATGCCC
    TGTGATGCTA CTCATGTATC AGGCCCCACC CAACATCTTA GTCGCAAAAG AATATATATA
    GAAGATAATC TAAGTAATTC CAATGAAGTA GAAATGGAAG AGAAAGGAGA AAGGAGAGCA
    AACTTGCTTC CCAAAAAACT GTGTAAAATT GAAGATGCAG ATCATCATAT CCACAAAATG
    TCTGAAAGTG TATCTTCATT ATCAACAAAT GACTTTTCTA TTCCTTGGGA GACCTGGCAA
    AATGAATTTG CAGGGATAGA GATGACTTAT GAGACTTACG AGAGGCTCAA TTCAGAATTT
    AAGAGAAGGA ATAATATCCG ACATAAAATG TTGAGTTATT TTACTACGCA GTCTTGGAAA
    ACAGCTCAGC AACATCTGAG AACAATGAAT CATCAAAGTC AGGACTCTAG GATTAAAAAA
    CTTGATAAAT TCCAATTCAT TATCATAGAG GAGCTGGAGA ATTTTGAAAA AGATTCACAG
    TCTTTAAAAG ATTTGGAAAA GGAATTTGTG GACTTTTGGG AAAAGATATT TCAGAAGTTC
    AGTGCATATC AAAAAAGCGA ACAACAGAGG CTTCATCTTT TGAAAACTTC ATTGGCTAAA
    AGTGTCTTCT GTAATACTGA TAGTGAAGAA ACTGTTTTTA CATCCGAGAT GTGTTTGATG
    AAAGAAGATA TGAAAGTGCT GCAAGACAGG CTTCTTAAGG ACATGCTAGA AGAGGAGCTT
    CTTAATGTAC GCAGAGAACT GATGTCAGTA TTCATGTCTC ATGAAAGAAA TGCTAATGTG
    TGA

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

    CloneID OHu63958
    Clone ID Related Accession (Same CDS sequence) XM_017027590.1 , XM_011528493.2 , XM_017027590.2
    Accession Version XM_017027590.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    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 synaptonemal complex protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    RefSeq XP_016883079.1
    CDS655..4752
    Translation

    Target ORF information:

    RefSeq Version XM_017027590.1
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027590.1

    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
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    CloneID OHu63958
    Clone ID Related Accession (Same CDS sequence) XM_017027590.1 , XM_011528493.2 , XM_017027590.2
    Accession Version XM_011528493.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    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 synaptonemal complex protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011528493.1. ##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
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    RefSeq XP_011526795.1
    CDS681..4778
    Translation

    Target ORF information:

    RefSeq Version XM_011528493.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011528493.2

    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
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    CloneID OHu63958
    Clone ID Related Accession (Same CDS sequence) XM_017027590.1 , XM_011528493.2 , XM_017027590.2
    Accession Version XM_017027590.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4098bp)
    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 synaptonemal complex protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000020.11) 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_017027590.1. ##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
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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

    RefSeq XP_016883079.1
    CDS654..4751
    Translation

    Target ORF information:

    RefSeq Version XM_017027590.2
    Organism Homo sapiens(human)
    Definition Homo sapiens synaptonemal complex protein 2 (SYCP2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017027590.2

    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
    ATGATGTCAG TGATGAAGAT TATAAAAAAA ATGAATGCTA TGCTTGACAA AATGCCTCAA 
    GATGCCCGGA AAATACTCTC TAACCAAGAA ATGTTAATTC TCATGAGTAG TATGGGAGAA
    AGGATTTTAG ATGCTGGAGA TTATGACTTA CAGGTAGGCA TTGTAGAAGC TTTGTGTAGA
    ATGACCACAG AAAAACAAAG ACAAGAACTG GCACATCAGT GGTTTTCAAT GGATTTTATT
    GCTAAGGCAT TTAAAAGAAT TAAGGACTCT GAATTTGAAA CAGATTGCAG GATATTTCTC
    AACCTTGTAA ATGGCATGCT TGGAGACAAA AGAAGGGTCT TTACATTTCC TTGTTTATCA
    GCATTTCTTG ATAAATATGA GCTGCAAATA CCATCAGATG AAAAACTTGA GGAATTTTGG
    ATTGATTTTA ATCTTGGGAG TCAGACTCTC TCATTCTACA TTGCTGGAGA TAATGATGAT
    CATCAATGGG AAGCAGTTAC TGTGCCAGAG GAAAAAGTAC AAATATACAG CATTGAAGTG
    AGAGAATCAA AGAAGCTACT GACAATAATT CTGAAAAATA CAGTAAAAAT TAGCAAAAGA
    GAAGGGAAAG AATTGCTTTT GTATTTTGAC GCATCACTAG AAATCACTAA TGTAACTCAA
    AAAATTTTTG GTGCAACTAA ACATAGGGAA TCTATCAGAA AACAAGGTAT TTCAGTTGCC
    AAAACGTCGC TGCATATACT TTTTGACGCA AGTGGATCAC AGATTCTAGT GCCAGAAAGT
    CAAATCTCAC CAGTCGGAGA AGAGCTCGTT AGTTTAAAGG AAAAATCAAA GTCCCCAAAG
    GAATTTGCTA AACCTTCAAA ATATATCAAA AACAGTGACA AAGGGAATAG AAATAATAGT
    CAGCTTGAGA AAACTACTCC TAGCAAAAGA AAAATGTCTG AAGCATCAAT GATTGTTTCT
    GGTGCAGATA GATACACTAT GAGAAGTCCA GTGCTTTTCA GCAACACATC AATACCACCA
    CGAAGAAGAA GAATTAAACC ACCACTGCAA ATGACGAGCT CTGCAGAGAA ACCTAGTGTT
    TCTCAAACAT CAGAAAATAG AGTGGATAAT GCTGCATCAC TGAAATCTAG ATCATCAGAA
    GGAAGACATA GAAGAGATAA TATAGACAAA CATATCAAAA CTGCTAAGTG TGTAGAAAAC
    ACAGAAAATA AGAATGTTGA ATTCCCAAAC CAAAATTTTA GTGAACTCCA GGATGTTATA
    CCAGATTCAC AGGCAGCGGA AAAAAGAGAT CATACTATAT TACCTGGTGT TTTAGACAAC
    ATCTGTGGAA ATAAAATACA CAGCAAATGG GCATGTTGGA CACCTGTAAC AAACATTGAA
    CTATGTAATA ACCAAAGAGC AAGTACTTCG TCAGGAGACA CATTGAATCA AGATATTGTT
    ATAAATAAAA AACTTACTAA ACAAAAATCA TCCTCTTCAA TATCTGATCA TAATTCTGAA
    GGAACAGGAA AAGTGAAATA TAAGAAAGAA CAAACCGACC ATATCAAAAT AGATAAAGCA
    GAAGTAGAAG TTTGCAAGAA ACACAATCAG CAACAAAATC ATCCTAAATA TTCAGGGCAG
    AAAAATACTG AAAATGCCAA GCAGAGTGAT TGGCCTGTTG AATCTGAAAC TACTTTTAAA
    TCGGTTCTCC TAAATAAGAC AATTGAAGAA TCGCTGATAT ATAGGAAGAA ATACATATTG
    TCAAAAGATG TGAATACTGC TACTTGCGAT AAAAATCCAT CTGCTAGCAA AAATGTGCAA
    AGTCATAGAA AAGCAGAGAA AGAATTGACT TCTGAGCTTA ATTCCTGGGA TTCGAAACAA
    AAAAAAATGA GAGAAAAGTC AAAAGGGAAA GAATTTACCA ATGTAGCAGA ATCCTTGATA
    AGCCAAATCA ATAAAAGATA CAAAACAAAA GATGACATCA AGTCTACAAG AAAATTAAAG
    GAGTCTTTGA TTAACAGTGG TTTTTCAAAC AAACCTGTTG TACAACTCAG TAAGGAAAAA
    GTTCAGAAAA AAAGCTACAG AAAACTGAAG ACTACCTTTG TTAATGTTAC TTCTGAATGC
    CCAGTGAATG ATGTTTACAA TTTTAATTTG AATGGAGCTG ATGACCCTAT CATAAAACTT
    GGAATCCAAG AGTTTCAAGC TACAGCTAAA GAAGCTTGTG CGGATAGGTC AATTAGATTG
    GTAGGTCCAA GGAATCATGA TGAACTTAAA TCTTCTGTCA AAACAAAAGA TAAAAAAATT
    ATAACAAATC ATCAAAAGAA AAATCTGTTT AGTGATACTG AAACAGAGTA CAGATGTGAT
    GACAGCAAGA CTGATATTAG CTGGCTAAGA GAACCGAAAT CAAAACCACA GCTAATAGAC
    TATAGCAGAA ATAAAAATGT GAAGAATCAT AAAAGTGGAA AATCAAGATC ATCCTTGGAA
    AAGGGACAGC CAAGCTCTAA AATGACACCC AGTAAAAATA TCACAAAAAA GATGGACAAG
    ACAATTCCGG AAGGAAGAAT CAGACTTCCA CGAAAAGCAA CCAAAACAAA AAAAAACTAT
    AAAGATCTCT CAAATTCAGA ATCAGAGTGT GAACAAGAAT TTTCACATTC ATTTAAAGAG
    AACATACCAG TAAAGGAGGA GAATATCCAT TCCAGAATGA AAACGGTAAA GCTACCAAAG
    AAACAACAGA AAGTCTTCTG TGCTGAAACA GAAAAGGAAC TATCAAAACA ATGGAAAAAC
    TCATCTCTAC TAAAAGATGC TATACGAGAT AATTGCCTTG ACTTATCTCC CAGATCTTTA
    TCTGGCAGTC CATCATCTAT AGAAGTAACG AGATGTATAG AGAAAATAAC AGAAAAGGAT
    TTTACTCAGG ATTATGACTG CATAACAAAA TCTATATCAC CTTATCCAAA AACTTCATCA
    CTTGAATCCT TAAATAGTAA CAGTGGAGTT GGAGGTACAA TAAAGTCACC CAAAAACAAT
    GAGAAAAACT TCCTGTGTGC AAGTGAAAGT TGTTCACCAA TTCCACGACC ACTGTTTTTG
    CCCAGACATA CTCCAACTAA GAGTAATACT ATTGTAAATA GAAAAAAAAT AAGTTCTCTG
    GTACTTACAC AAGAAACACA AAACAGTAAC AGCTATTCAG ATGTAAGCAG TTATAGTTCA
    GAAGAACGGT TTATGGAAAT TGAATCTCCA CATATCAATG AAAATTATAT ACAAAGCAAA
    AGAGAGGAAA GTCATTTAGC ATCTTCATTA TCCAAGTCTA GTGAAGGAAG AGAGAAAACG
    TGGTTTGACA TGCCCTGTGA TGCTACTCAT GTATCAGGCC CCACCCAACA TCTTAGTCGC
    AAAAGAATAT ATATAGAAGA TAATCTAAGT AATTCCAATG AAGTAGAAAT GGAAGAGAAA
    GGAGAAAGGA GAGCAAACTT GCTTCCCAAA AAACTGTGTA AAATTGAAGA TGCAGATCAT
    CATATCCACA AAATGTCTGA AAGTGTATCT TCATTATCAA CAAATGACTT TTCTATTCCT
    TGGGAGACCT GGCAAAATGA ATTTGCAGGG ATAGAGATGA CTTATGAGAC TTACGAGAGG
    CTCAATTCAG AATTTAAGAG AAGGAATAAT ATCCGACATA AAATGTTGAG TTATTTTACT
    ACGCAGTCTT GGAAAACAGC TCAGCAACAT CTGAGAACAA TGAATCATCA AAGTCAGGAC
    TCTAGGATTA AAAAACTTGA TAAATTCCAA TTCATTATCA TAGAGGAGCT GGAGAATTTT
    GAAAAAGATT CACAGTCTTT AAAAGATTTG GAAAAGGAAT TTGTGGACTT TTGGGAAAAG
    ATATTTCAGA AGTTCAGTGC ATATCAAAAA AGCGAACAAC AGAGGCTTCA TCTTTTGAAA
    ACTTCATTGG CTAAAAGTGT CTTCTGTAAT ACTGATAGTG AAGAAACTGT TTTTACATCC
    GAGATGTGTT TGATGAAAGA AGATATGAAA GTGCTGCAAG ACAGGCTTCT TAAGGACATG
    CTAGAAGAGG AGCTTCTTAA TGTACGCAGA GAACTGATGT CAGTATTCAT GTCTCATGAA
    AGAAATGCTA ATGTGTGA

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