SPAG17 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following SPAG17 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SPAG17 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.

Online Only Promotion

Up to 50% OFF! Starting
from $49/clone

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu16428 NM_206996.4
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
OHu33136 XM_006710431.3
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu33133 XM_006710428.3
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu33133 XM_011540939.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu33134 XM_006710429.3
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu77636 XM_011540937.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu77636 XM_011540936.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
OHu77639 XM_011540942.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu77639 XM_011540941.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu33131 XM_006710426.3
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1091.30
$1559.00
OHu33132 XM_006710427.3
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1091.30
$1559.00
OHu77634 XM_011540934.1
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1091.30
$1559.00
OHu77635 XM_011540935.2
Latest version!
Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 30 $1091.30
$1559.00
View Old Accession Versions >>
OHu16428 NM_206996.3 Homo sapiens sperm associated antigen 17 (SPAG17), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OHu16428
    Clone ID Related Accession (Same CDS sequence) NM_206996.3 , NM_206996.4
    Accession Version NM_206996.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6672bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-09-28
    Organism Homo sapiens(human)
    Product sperm-associated antigen 17
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL513191.4, DB060943.1, AY555274.1 and DB340825.1. This sequence is a reference standard in the RefSeqGene project. On Feb 8, 2017 this sequence version replaced NM_206996.2. ##Evidence-Data-START## Transcript exon combination :: AY555274.1, BX648110.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGATTTCAAG
    CCACATAAGG TTTCAGAACA GAAATCCTCA AGTGTGCCTA GTCTTCCAAA ACCAGAGATT
    TCTGCAGATA AGAAGGATTT CACTGCTCAG AACCAAACTG AAAATTTAAC AAAATCTCCT
    GAAGAAGCAG AATCTTATGA GCCCGTGAAA ATTCCAACCC AGTCCTTGCT GCAGGATGTT
    GCGGGACAAA CAAGAAAAGA AAAAGTGAAG TTGCCTCATT ATTTGCTGAG TTCCAAGCCT
    AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT TCTGTTGGAG GAAAAGTGAA CACATCCTCT
    GTTGCATCTG CTGCCATTAA TAATGCAAAG TCATCCCTTT TTGGGTTCCA TCTTCTCCCA
    TCATCAGTCA AGTTTGGAGT GCTTAAGGAA GGACATACCT ATGCCACAGT TGTAAAGCTC
    AAGAATGTTG GAGTGGACTT CTGCAGGTTT AAAGTAAAGC AGCCCCCACC CAGCACAGGA
    CTGAAAGTGA CTTACAAACC TGGACCTGTG GCAGCTGGTA TGCAGACAGA ACTGAATATA
    GAGTTATTTG CCACAGCTGT TGGAGAGGAT GGGGCCAAGG GATCAGCACA CATCTCTCAC
    AATATCGAGA TTATGACAGA GCATGAGGTT CTGTTCCTAC CTGTGGAAGC AACTGTTTTA
    ACAAGCAGCA ATTATGATAA ACGACCAAAA GACTTTCCCC AGGGAAAAGA AAATCCAATG
    GTCCAGAGAA CTTCTACAAT TTATTCCTCC ACACTTGGAG TCTTCATGTC TCGTAAAGTT
    TCTCCACATT AG

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

    RefSeq NP_996879.1
    CDS113..6784
    Translation

    Target ORF information:

    RefSeq Version NM_206996.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206996.3

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGATTTCAAG
    CCACATAAGG TTTCAGAACA GAAATCCTCA AGTGTGCCTA GTCTTCCAAA ACCAGAGATT
    TCTGCAGATA AGAAGGATTT CACTGCTCAG AACCAAACTG AAAATTTAAC AAAATCTCCT
    GAAGAAGCAG AATCTTATGA GCCCGTGAAA ATTCCAACCC AGTCCTTGCT GCAGGATGTT
    GCGGGACAAA CAAGAAAAGA AAAAGTGAAG TTGCCTCATT ATTTGCTGAG TTCCAAGCCT
    AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT TCTGTTGGAG GAAAAGTGAA CACATCCTCT
    GTTGCATCTG CTGCCATTAA TAATGCAAAG TCATCCCTTT TTGGGTTCCA TCTTCTCCCA
    TCATCAGTCA AGTTTGGAGT GCTTAAGGAA GGACATACCT ATGCCACAGT TGTAAAGCTC
    AAGAATGTTG GAGTGGACTT CTGCAGGTTT AAAGTAAAGC AGCCCCCACC CAGCACAGGA
    CTGAAAGTGA CTTACAAACC TGGACCTGTG GCAGCTGGTA TGCAGACAGA ACTGAATATA
    GAGTTATTTG CCACAGCTGT TGGAGAGGAT GGGGCCAAGG GATCAGCACA CATCTCTCAC
    AATATCGAGA TTATGACAGA GCATGAGGTT CTGTTCCTAC CTGTGGAAGC AACTGTTTTA
    ACAAGCAGCA ATTATGATAA ACGACCAAAA GACTTTCCCC AGGGAAAAGA AAATCCAATG
    GTCCAGAGAA CTTCTACAAT TTATTCCTCC ACACTTGGAG TCTTCATGTC TCGTAAAGTT
    TCTCCACATT AG

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

    CloneID OHu16428
    Clone ID Related Accession (Same CDS sequence) NM_206996.3 , NM_206996.4
    Accession Version NM_206996.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6672bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-10-25
    Organism Homo sapiens(human)
    Product sperm-associated antigen 17
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL513191.4, DB060943.1, AY555274.1, DB340825.1 and AL121993.7. This sequence is a reference standard in the RefSeqGene project. On May 17, 2019 this sequence version replaced NM_206996.3. ##Evidence-Data-START## Transcript exon combination :: AY555274.1, BX648110.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968189 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000336338.10/ ENSP00000337804.5 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGATTTCAAG
    CCACATAAGG TTTCAGAACA GAAATCCTCA AGTGTGCCTA GTCTTCCAAA ACCAGAGATT
    TCTGCAGATA AGAAGGATTT CACTGCTCAG AACCAAACTG AAAATTTAAC AAAATCTCCT
    GAAGAAGCAG AATCTTATGA GCCCGTGAAA ATTCCAACCC AGTCCTTGCT GCAGGATGTT
    GCGGGACAAA CAAGAAAAGA AAAAGTGAAG TTGCCTCATT ATTTGCTGAG TTCCAAGCCT
    AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT TCTGTTGGAG GAAAAGTGAA CACATCCTCT
    GTTGCATCTG CTGCCATTAA TAATGCAAAG TCATCCCTTT TTGGGTTCCA TCTTCTCCCA
    TCATCAGTCA AGTTTGGAGT GCTTAAGGAA GGACATACCT ATGCCACAGT TGTAAAGCTC
    AAGAATGTTG GAGTGGACTT CTGCAGGTTT AAAGTAAAGC AGCCCCCACC CAGCACAGGA
    CTGAAAGTGA CTTACAAACC TGGACCTGTG GCAGCTGGTA TGCAGACAGA ACTGAATATA
    GAGTTATTTG CCACAGCTGT TGGAGAGGAT GGGGCCAAGG GATCAGCACA CATCTCTCAC
    AATATCGAGA TTATGACAGA GCATGAGGTT CTGTTCCTAC CTGTGGAAGC AACTGTTTTA
    ACAAGCAGCA ATTATGATAA ACGACCAAAA GACTTTCCCC AGGGAAAAGA AAATCCAATG
    GTCCAGAGAA CTTCTACAAT TTATTCCTCC ACACTTGGAG TCTTCATGTC TCGTAAAGTT
    TCTCCACATT AG

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

    RefSeq NP_996879.1
    CDS72..6743
    Translation

    Target ORF information:

    RefSeq Version NM_206996.4
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_206996.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGATTTCAAG
    CCACATAAGG TTTCAGAACA GAAATCCTCA AGTGTGCCTA GTCTTCCAAA ACCAGAGATT
    TCTGCAGATA AGAAGGATTT CACTGCTCAG AACCAAACTG AAAATTTAAC AAAATCTCCT
    GAAGAAGCAG AATCTTATGA GCCCGTGAAA ATTCCAACCC AGTCCTTGCT GCAGGATGTT
    GCGGGACAAA CAAGAAAAGA AAAAGTGAAG TTGCCTCATT ATTTGCTGAG TTCCAAGCCT
    AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT TCTGTTGGAG GAAAAGTGAA CACATCCTCT
    GTTGCATCTG CTGCCATTAA TAATGCAAAG TCATCCCTTT TTGGGTTCCA TCTTCTCCCA
    TCATCAGTCA AGTTTGGAGT GCTTAAGGAA GGACATACCT ATGCCACAGT TGTAAAGCTC
    AAGAATGTTG GAGTGGACTT CTGCAGGTTT AAAGTAAAGC AGCCCCCACC CAGCACAGGA
    CTGAAAGTGA CTTACAAACC TGGACCTGTG GCAGCTGGTA TGCAGACAGA ACTGAATATA
    GAGTTATTTG CCACAGCTGT TGGAGAGGAT GGGGCCAAGG GATCAGCACA CATCTCTCAC
    AATATCGAGA TTATGACAGA GCATGAGGTT CTGTTCCTAC CTGTGGAAGC AACTGTTTTA
    ACAAGCAGCA ATTATGATAA ACGACCAAAA GACTTTCCCC AGGGAAAAGA AAATCCAATG
    GTCCAGAGAA CTTCTACAAT TTATTCCTCC ACACTTGGAG TCTTCATGTC TCGTAAAGTT
    TCTCCACATT AG

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

    CloneID OHu33136
    Clone ID Related Accession (Same CDS sequence) XM_006710431.3
    Accession Version XM_006710431.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3459bp)
    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 sperm-associated antigen 17 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_006710431.2. ##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
    ATGATTCATT TAAATGACCC TAAGGAAATT GTGAAAAAGG AAGAGAAAGG GGATTATTAT 
    TTAGAAGAGG AAGAAGAAGG AGATGAGGAA CAAAGTCTTG AAACGGAAGT ATCAGATGCA
    AAGAATAAAG CTTTCAGCAA GTTTGGATCT TTTTCTGCCA CCTTAGAAAA TGGAATCTGC
    CTCTCGATAA GTTACTATGG ATCAAATGGA ATGGCACCAG AAGATAAGGA TCCTGATTTA
    GAAACAATAT TGAATATCCC TTCAGCACTC ACTCCAACAG TGGTTCCTGT TATAGTGACC
    GTTCCTCAAA GCAAAGCTAA AGGGAAAATA AAAGGCAAAG AAAAACCCAA AGAATCCCTT
    AAAGAAGAAG AACACCCAAA AGAAGAAGAG AAAAAGGAAG AAGAAGTAGA ACCAGAACCT
    GTTTTACAAG AGACTTTGGA TGTTCCCACC TTCCAGAGCC TAAATGTGTC TTGCCCCAGT
    GGGCTCCTGT TGACTTTCAT TGGACAAGAA TCTACAGGTC AATATGTTAT AGATGAGGAA
    CCCACCTGGG ACATCATGGT CCGTCAGAGC TACCCCCAGA GGGTGAAGCA CTATGAGTTC
    TATAAAACGG TGATGCCACC CGCAGAGCAG GAGGCTTCAA GGGTTATCAC CAGTCAAGGC
    ACTGTTGTCA AATATATGTT GGATGGATCC ACACAGATTC TCTTTGCAGA TGGTGCTGTG
    AGCAGGAGTC CCAATTCAGG TCTTATTTGT CCTCCTTCTG AAATGCCAGC AACGCCTCAC
    AGTGGAGATT TGATGGACTC TATTTCTCAG CAGAAATCAG AAACGATACC ATCTGAGATT
    ACCAACACAA AGAAAGGAAA AAGTCACAAA AGTCAGTCAT CAATGGCCCA TAAGGGTGAA
    ATCCATGACC CTCCTCCAGA GGCAGTTCAA ACTGTAACTC CTGTGGAGGT TCACATAGGC
    ACCTGGTTTA CAACCACACC TGAAGGAAAT CGGATCGGCA CCAAAGGATT AGAAAGAATA
    GCAGACTTGA CCCCATTGTT ATCCTTTCAG GCCACAGATC CTGTCAATGG AACGGTTATG
    ACAACTCGAG AAGACAAAGT TGTCATAGTT GAAAGGAAAG ATGGTACTCG GATAGTGGAT
    CATGCTGATG GTACCAGAAT CACAACCTTT TATCAAGTTT ATGAAGATCA AATTATTCTG
    CCAGATGATC AAGAAACAAC CGAGGGTCCT CGGACTGTCA CCAGGCAGGT GAAGTGTATG
    CGGGTAGAAA GCTCACGCTA TGCCACTGTT ATCGCCAACT GTGAGGACAG TAGCTGCTGT
    GCCACCTTTG GAGATGGAAC AACTATTATT GCAAAGCCAC AGGGAACATA CCAGGTGTTA
    CCTCCAAACA CAGGCTCTCT TTATATTGAC AAGGATTGTT CAGCTGTGTA CTGCCATGAG
    TCAAGCAGTA ATATATACTA TCCTTTTCAA AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC
    ATCATGAGGC ATACTTCAGA GGTTATCTGT GAGGTTCTGG ATCCTGAGGG AAACACTTTT
    CAGGTCATGG CTGATGGTAG CATATCAACT ATATTACCTG AAAAAAAATT GGAAGATGAT
    TTAAATGAGA AAACTGAGGG CTATGATAGT CTGTCCTCTA TGCACCTTGA AAAGAATCAT
    CAGCAAATCT ATGGTGAACA TGTCCCCAGG TTTTTTGTTA TGTATGCTGA TGGATCAGGA
    ATGGAACTTC TTCGAGACAG TGACATAGAA GAATATCTAT CTTTGGCATA TAAAGAATCA
    AATACTGTTG TTCTCCAAGA GCCAGTGCAG GAACAGCCAG GCACCCTAAC CATCACAGTC
    CTTCGCCCTT TCCATGAAGC ATCACCATGG CAAGTAAAAA AGGAAGATAC AATTGTCCCT
    CCTAATCTCC GGTCAAGGTC ATGGGAAACA TTTCCCTCAG TTGAGAAAAA AACTCCAGGA
    CCTCCGTTTG GTACTCAGAT TTGGAAAGGC CTTTGCATTG AGTCCAAACA GCTAGTGAGT
    GCCCCGGGTG CCATACTCAA GAGCCCCAGT GTGCTACAGA TGCGCCAATT CATTCAGCAT
    GAGGTCATAA AGAATGAGGT GAAACTGAGG CTGCAGGTTT CCCTTAAGGA TTACATAAAC
    TATATTCTAA AGAAAGAAGA TGAGCTGCAG GAAATGATGG TTAAAGATTC CAGAACTGAG
    GAGGAGAGAG GCAATGCTGC TGATCTCCTC AAGCTGGTTA TGTCTTTCCC TAAAATGGAG
    GAAACTACAA AAAGTCATGT TACTGAAGTT GCAGCTCACC TAACTGATTT ATTCAAGCAG
    TCTTTGGCTA CGCCTCCAAA ATGCCCACCA GACACATTTG GTAAAGATTT CTTTGAAAAG
    ACATGGAGAC ACACAGCATC CTCAAAACGC TGGAAAGAAA AGATAGACAA AACGAGGAAG
    GAAATTGAGA CAACACAGAA TTACCTAATG GATATTAAGA ACCGCATAAT ACCACCCTTT
    TTTAAATCTG AATTGAACCA GTTATATCAG TCTCAGTATA ATCACCTGGA CAGTCTTTCC
    AAAAAACTGC CTTCTTTTAC AAAGAAAAAT GAAGATGCAA ACGAAACAGC TGTTCAAGAT
    ACATCTGATC TTAATCTAGA TTTCAAGCCA CATAAGGTTT CAGAACAGAA ATCCTCAAGT
    GTGCCTAGTC TTCCAAAACC AGAGATTTCT GCAGATAAGA AGGATTTCAC TGCTCAGAAC
    CAAACTGAAA ATTTAACAAA ATCTCCTGAA GAAGCAGAAT CTTATGAGCC CGTGAAAATT
    CCAACCCAGT CCTTGCTGCA GGATGTTGCG GGACAAACAA GAAAAGAAAA AGTGAAGTTG
    CCTCATTATT TGCTGAGTTC CAAGCCTAAG TCTCAACCTC TTGCAAAGGT GCAAGATTCT
    GTTGGAGGAA AAGTGAACAC ATCCTCTGTT GCATCTGCTG CCATTAATAA TGCAAAGTCA
    TCCCTTTTTG GGTTCCATCT TCTCCCATCA TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA
    CATACCTATG CCACAGTTGT AAAGCTCAAG AATGTTGGAG TGGACTTCTG CAGGTTTAAA
    GTAAAGCAGC CCCCACCCAG CACAGGACTG AAAGTGACTT ACAAACCTGG ACCTGTGGCA
    GCTGGTATGC AGACAGAACT GAATATAGAG TTATTTGCCA CAGCTGTTGG AGAGGATGGG
    GCCAAGGGAT CAGCACACAT CTCTCACAAT ATCGAGATTA TGACAGAGCA TGAGGTTCTG
    TTCCTACCTG TGGAAGCAAC TGTTTTAACA AGCAGCAATT ATGATAAACG ACCAAAAGAC
    TTTCCCCAGG GAAAAGAAAA TCCAATGGTC CAGAGAACTT CTACAATTTA TTCCTCCACA
    CTTGGAGTCT TCATGTCTCG TAAAGTTTCT CCACATTAG

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

    RefSeq XP_006710494.1
    CDS412..3870
    Translation

    Target ORF information:

    RefSeq Version XM_006710431.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006710431.3

    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
    ATGATTCATT TAAATGACCC TAAGGAAATT GTGAAAAAGG AAGAGAAAGG GGATTATTAT 
    TTAGAAGAGG AAGAAGAAGG AGATGAGGAA CAAAGTCTTG AAACGGAAGT ATCAGATGCA
    AAGAATAAAG CTTTCAGCAA GTTTGGATCT TTTTCTGCCA CCTTAGAAAA TGGAATCTGC
    CTCTCGATAA GTTACTATGG ATCAAATGGA ATGGCACCAG AAGATAAGGA TCCTGATTTA
    GAAACAATAT TGAATATCCC TTCAGCACTC ACTCCAACAG TGGTTCCTGT TATAGTGACC
    GTTCCTCAAA GCAAAGCTAA AGGGAAAATA AAAGGCAAAG AAAAACCCAA AGAATCCCTT
    AAAGAAGAAG AACACCCAAA AGAAGAAGAG AAAAAGGAAG AAGAAGTAGA ACCAGAACCT
    GTTTTACAAG AGACTTTGGA TGTTCCCACC TTCCAGAGCC TAAATGTGTC TTGCCCCAGT
    GGGCTCCTGT TGACTTTCAT TGGACAAGAA TCTACAGGTC AATATGTTAT AGATGAGGAA
    CCCACCTGGG ACATCATGGT CCGTCAGAGC TACCCCCAGA GGGTGAAGCA CTATGAGTTC
    TATAAAACGG TGATGCCACC CGCAGAGCAG GAGGCTTCAA GGGTTATCAC CAGTCAAGGC
    ACTGTTGTCA AATATATGTT GGATGGATCC ACACAGATTC TCTTTGCAGA TGGTGCTGTG
    AGCAGGAGTC CCAATTCAGG TCTTATTTGT CCTCCTTCTG AAATGCCAGC AACGCCTCAC
    AGTGGAGATT TGATGGACTC TATTTCTCAG CAGAAATCAG AAACGATACC ATCTGAGATT
    ACCAACACAA AGAAAGGAAA AAGTCACAAA AGTCAGTCAT CAATGGCCCA TAAGGGTGAA
    ATCCATGACC CTCCTCCAGA GGCAGTTCAA ACTGTAACTC CTGTGGAGGT TCACATAGGC
    ACCTGGTTTA CAACCACACC TGAAGGAAAT CGGATCGGCA CCAAAGGATT AGAAAGAATA
    GCAGACTTGA CCCCATTGTT ATCCTTTCAG GCCACAGATC CTGTCAATGG AACGGTTATG
    ACAACTCGAG AAGACAAAGT TGTCATAGTT GAAAGGAAAG ATGGTACTCG GATAGTGGAT
    CATGCTGATG GTACCAGAAT CACAACCTTT TATCAAGTTT ATGAAGATCA AATTATTCTG
    CCAGATGATC AAGAAACAAC CGAGGGTCCT CGGACTGTCA CCAGGCAGGT GAAGTGTATG
    CGGGTAGAAA GCTCACGCTA TGCCACTGTT ATCGCCAACT GTGAGGACAG TAGCTGCTGT
    GCCACCTTTG GAGATGGAAC AACTATTATT GCAAAGCCAC AGGGAACATA CCAGGTGTTA
    CCTCCAAACA CAGGCTCTCT TTATATTGAC AAGGATTGTT CAGCTGTGTA CTGCCATGAG
    TCAAGCAGTA ATATATACTA TCCTTTTCAA AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC
    ATCATGAGGC ATACTTCAGA GGTTATCTGT GAGGTTCTGG ATCCTGAGGG AAACACTTTT
    CAGGTCATGG CTGATGGTAG CATATCAACT ATATTACCTG AAAAAAAATT GGAAGATGAT
    TTAAATGAGA AAACTGAGGG CTATGATAGT CTGTCCTCTA TGCACCTTGA AAAGAATCAT
    CAGCAAATCT ATGGTGAACA TGTCCCCAGG TTTTTTGTTA TGTATGCTGA TGGATCAGGA
    ATGGAACTTC TTCGAGACAG TGACATAGAA GAATATCTAT CTTTGGCATA TAAAGAATCA
    AATACTGTTG TTCTCCAAGA GCCAGTGCAG GAACAGCCAG GCACCCTAAC CATCACAGTC
    CTTCGCCCTT TCCATGAAGC ATCACCATGG CAAGTAAAAA AGGAAGATAC AATTGTCCCT
    CCTAATCTCC GGTCAAGGTC ATGGGAAACA TTTCCCTCAG TTGAGAAAAA AACTCCAGGA
    CCTCCGTTTG GTACTCAGAT TTGGAAAGGC CTTTGCATTG AGTCCAAACA GCTAGTGAGT
    GCCCCGGGTG CCATACTCAA GAGCCCCAGT GTGCTACAGA TGCGCCAATT CATTCAGCAT
    GAGGTCATAA AGAATGAGGT GAAACTGAGG CTGCAGGTTT CCCTTAAGGA TTACATAAAC
    TATATTCTAA AGAAAGAAGA TGAGCTGCAG GAAATGATGG TTAAAGATTC CAGAACTGAG
    GAGGAGAGAG GCAATGCTGC TGATCTCCTC AAGCTGGTTA TGTCTTTCCC TAAAATGGAG
    GAAACTACAA AAAGTCATGT TACTGAAGTT GCAGCTCACC TAACTGATTT ATTCAAGCAG
    TCTTTGGCTA CGCCTCCAAA ATGCCCACCA GACACATTTG GTAAAGATTT CTTTGAAAAG
    ACATGGAGAC ACACAGCATC CTCAAAACGC TGGAAAGAAA AGATAGACAA AACGAGGAAG
    GAAATTGAGA CAACACAGAA TTACCTAATG GATATTAAGA ACCGCATAAT ACCACCCTTT
    TTTAAATCTG AATTGAACCA GTTATATCAG TCTCAGTATA ATCACCTGGA CAGTCTTTCC
    AAAAAACTGC CTTCTTTTAC AAAGAAAAAT GAAGATGCAA ACGAAACAGC TGTTCAAGAT
    ACATCTGATC TTAATCTAGA TTTCAAGCCA CATAAGGTTT CAGAACAGAA ATCCTCAAGT
    GTGCCTAGTC TTCCAAAACC AGAGATTTCT GCAGATAAGA AGGATTTCAC TGCTCAGAAC
    CAAACTGAAA ATTTAACAAA ATCTCCTGAA GAAGCAGAAT CTTATGAGCC CGTGAAAATT
    CCAACCCAGT CCTTGCTGCA GGATGTTGCG GGACAAACAA GAAAAGAAAA AGTGAAGTTG
    CCTCATTATT TGCTGAGTTC CAAGCCTAAG TCTCAACCTC TTGCAAAGGT GCAAGATTCT
    GTTGGAGGAA AAGTGAACAC ATCCTCTGTT GCATCTGCTG CCATTAATAA TGCAAAGTCA
    TCCCTTTTTG GGTTCCATCT TCTCCCATCA TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA
    CATACCTATG CCACAGTTGT AAAGCTCAAG AATGTTGGAG TGGACTTCTG CAGGTTTAAA
    GTAAAGCAGC CCCCACCCAG CACAGGACTG AAAGTGACTT ACAAACCTGG ACCTGTGGCA
    GCTGGTATGC AGACAGAACT GAATATAGAG TTATTTGCCA CAGCTGTTGG AGAGGATGGG
    GCCAAGGGAT CAGCACACAT CTCTCACAAT ATCGAGATTA TGACAGAGCA TGAGGTTCTG
    TTCCTACCTG TGGAAGCAAC TGTTTTAACA AGCAGCAATT ATGATAAACG ACCAAAAGAC
    TTTCCCCAGG GAAAAGAAAA TCCAATGGTC CAGAGAACTT CTACAATTTA TTCCTCCACA
    CTTGGAGTCT TCATGTCTCG TAAAGTTTCT CCACATTAG

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

    CloneID OHu33133
    Clone ID Related Accession (Same CDS sequence) XM_011540939.2 , XM_006710428.3
    Accession Version XM_011540939.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    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 sperm-associated antigen 17 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540939.1. ##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
    ATGACTCGTA TTGGTCCATG GAGTCCAGAG CAGACCACAA ACAATGAGAT CAAAGATGAT 
    GCAGTCACAA AGGCTGATTC TCATGAAAAG AAACCCAAGA AGATGATGGT GGAAGCAGAT
    TTAGAGGACA TAAAGAAAAC ACAGCAGCGC AGTCTAATGG ACTGGAGTTT TACTGAACAT
    TTTAAACCGA AAGTACTGCT TCAGGTCCTT CAAGAAGCCC ATAAGCAATA TAGGTGTGTT
    GATTCTTACT ACCACACCCA AGACAACTCT TTACTTTTAG TCTTTCACAA TCCAATGAAT
    AGACAACGTT TGCATTGTGA ATATTGGAAC ATTGCTCTCC ACTCCAATGT TGGATTCAGG
    AATTATTTGG AACTTGTTGC AAAATCTATT CAAGATTGGA TTACAAAAGA AGAAGCTATA
    TATCAGGAAT CTAAAATGAA TGAGAAAATC ATCAGGACCA GAGCTGAGCT GGAATTGAAA
    TCTTCTGCTA ATGCCAAACT TACTTCTGCT AGCAAAATTT TTTCCATTAA AGAATCTAAA
    AGTAACAAAG GAATCAGCAA AACAGAGATA TCAGATCAAG AAAAAGAAAA AGAGAAGGAA
    AAGATTCCTT TCATTTTAGA AGGCTCTCTC AAGGCATGGA AAGAAGAGCA ACATCGATTA
    GCAGAAGAGG AGCGCTTAAG GGAAGAAAAG AAAGCAGAGA AGAAGGGTAA AGAAGCTGGT
    AAAAAGAAAG GCAAGGATAA CGCAGAGAAA GAGGATAGTA GGTCTTTGAA GAAAAAATCA
    CCTTACAAGG AGAAATCTAA AGAAGAACAA GTCAAGATCC AAGAAGTAAC AGAAGAGTCC
    CCCCACCAAC CAGAACCTAA GATAACTTAC CCGTTTCACG GATACAATAT GGGAAATATA
    CCCACTCAAA TCTCAGGGTC AAATTACTAC CTGTATCCTT CTGATGGGGG GCAGATTGAA
    GTGGAAAAGA CAATGTTTGA AAAAGGCCCA ACTTTTATCA AAGTGAGAGT GGTAAAGGAC
    AACCACAATT TTATGATTCA TTTAAATGAC CCTAAGGAAA TTGTGAAAAA GGAAGAGAAA
    GGGGATTATT ATTTAGAAGA GGAAGAAGAA GGAGATGAGG AACAAAGTCT TGAAACGGAA
    GTATCAGATG CAAAGAATAA AGCTTTCAGC AAGTTTGGAT CTTTTTCTGC CACCTTAGAA
    AATGGAATCT GCCTCTCGAT AAGTTACTAT GGATCAAATG GAATGGCACC AGAAGATAAG
    GATCCTGATT TAGAAACAAT ATTGAATATC CCTTCAGCAC TCACTCCAAC AGTGGTTCCT
    GTTATAGTGA CCGTTCCTCA AAGCAAAGCT AAAGGGAAAA TAAAAGGCAA AGAAAAACCC
    AAAGAATCCC TTAAAGAAGA AGAACACCCA AAAGAAGAAG AGAAAAAGGA AGAAGAAGTA
    GAACCAGAAC CTGTTTTACA AGAGACTTTG GATGTTCCCA CCTTCCAGAG CCTAAATGTG
    TCTTGCCCCA GTGGGCTCCT GTTGACTTTC ATTGGACAAG AATCTACAGG TCAATATGTT
    ATAGATGAGG AACCCACCTG GGACATCATG GTCCGTCAGA GCTACCCCCA GAGGGTGAAG
    CACTATGAGT TCTATAAAAC GGTGATGCCA CCCGCAGAGC AGGAGGCTTC AAGGGTTATC
    ACCAGTCAAG GCACTGTTGT CAAATATATG TTGGATGGAT CCACACAGAT TCTCTTTGCA
    GATGGTGCTG TGAGCAGGAG TCCCAATTCA GGTCTTATTT GTCCTCCTTC TGAAATGCCA
    GCAACGCCTC ACAGTGGAGA TTTGATGGAC TCTATTTCTC AGCAGAAATC AGAAACGATA
    CCATCTGAGA TTACCAACAC AAAGAAAGGA AAAAGTCACA AAAGTCAGTC ATCAATGGCC
    CATAAGGGTG AAATCCATGA CCCTCCTCCA GAGGCAGTTC AAACTGTAAC TCCTGTGGAG
    GTTCACATAG GCACCTGGTT TACAACCACA CCTGAAGGAA ATCGGATCGG CACCAAAGGA
    TTAGAAAGAA TAGCAGACTT GACCCCATTG TTATCCTTTC AGGCCACAGA TCCTGTCAAT
    GGAACGGTTA TGACAACTCG AGAAGACAAA GTTGTCATAG TTGAAAGGAA AGATGGTACT
    CGGATAGTGG ATCATGCTGA TGGTACCAGA ATCACAACCT TTTATCAAGT TTATGAAGAT
    CAAATTATTC TGCCAGATGA TCAAGAAACA ACCGAGGGTC CTCGGACTGT CACCAGGCAG
    GTGAAGTGTA TGCGGGTAGA AAGCTCACGC TATGCCACTG TTATCGCCAA CTGTGAGGAC
    AGTAGCTGCT GTGCCACCTT TGGAGATGGA ACAACTATTA TTGCAAAGCC ACAGGGAACA
    TACCAGGTGT TACCTCCAAA CACAGGCTCT CTTTATATTG ACAAGGATTG TTCAGCTGTG
    TACTGCCATG AGTCAAGCAG TAATATATAC TATCCTTTTC AAAAGCGTGA GCAGCTGCGA
    GCTGGCAGGT ACATCATGAG GCATACTTCA GAGGTTATCT GTGAGGTTCT GGATCCTGAG
    GGAAACACTT TTCAGGTCAT GGCTGATGGT AGCATATCAA CTATATTACC TGAAAAAAAA
    TTGGAAGATG ATTTAAATGA GAAAACTGAG GGCTATGATA GTCTGTCCTC TATGCACCTT
    GAAAAGAATC ATCAGCAAAT CTATGGTGAA CATGTCCCCA GGTTTTTTGT TATGTATGCT
    GATGGATCAG GAATGGAACT TCTTCGAGAC AGTGACATAG AAGAATATCT ATCTTTGGCA
    TATAAAGAAT CAAATACTGT TGTTCTCCAA GAGCCAGTGC AGGAACAGCC AGGCACCCTA
    ACCATCACAG TCCTTCGCCC TTTCCATGAA GCATCACCAT GGCAAGTAAA AAAGGAAGAT
    ACAATTGTCC CTCCTAATCT CCGGTCAAGG TCATGGGAAA CATTTCCCTC AGTTGAGAAA
    AAAACTCCAG GACCTCCGTT TGGTACTCAG ATTTGGAAAG GCCTTTGCAT TGAGTCCAAA
    CAGCTAGTGA GTGCCCCGGG TGCCATACTC AAGAGCCCCA GTGTGCTACA GATGCGCCAA
    TTCATTCAGC ATGAGGTCAT AAAGAATGAG GTGAAACTGA GGCTGCAGGT TTCCCTTAAG
    GATTACATAA ACTATATTCT AAAGAAAGAA GATGAGCTGC AGGAAATGAT GGTTAAAGAT
    TCCAGAACTG AGGAGGAGAG AGGCAATGCT GCTGATCTCC TCAAGCTGGT TATGTCTTTC
    CCTAAAATGG AGGAAACTAC AAAAAGTCAT GTTACTGAAG TTGCAGCTCA CCTAACTGAT
    TTATTCAAGC AGTCTTTGGC TACGCCTCCA AAATGCCCAC CAGACACATT TGGTAAAGAT
    TTCTTTGAAA AGACATGGAG ACACACAGCA TCCTCAAAAC GCTGGAAAGA AAAGATAGAC
    AAAACGAGGA AGGAAATTGA GACAACACAG AATTACCTAA TGGATATTAA GAACCGCATA
    ATACCACCCT TTTTTAAATC TGAATTGAAC CAGTTATATC AGTCTCAGTA TAATCACCTG
    GACAGTCTTT CCAAAAAACT GCCTTCTTTT ACAAAGAAAA ATGAAGATGC AAACGAAACA
    GCTGTTCAAG ATACATCTGA TCTTAATCTA GATTTCAAGC CACATAAGGT TTCAGAACAG
    AAATCCTCAA GTGTGCCTAG TCTTCCAAAA CCAGAGATTT CTGCAGATAA GAAGGATTTC
    ACTGCTCAGA ACCAAACTGA AAATTTAACA AAATCTCCTG AAGAAGCAGA ATCTTATGAG
    CCCGTGAAAA TTCCAACCCA GTCCTTGCTG CAGGATGTTG CGGGACAAAC AAGAAAAGAA
    AAAGTGAAGT TGCCTCATTA TTTGCTGAGT TCCAAGCCTA AGTCTCAACC TCTTGCAAAG
    GTGCAAGATT CTGTTGGAGG AAAAGTGAAC ACATCCTCTG TTGCATCTGC TGCCATTAAT
    AATGCAAAGT CATCCCTTTT TGGGTTCCAT CTTCTCCCAT CATCAGTCAA GTTTGGAGTG
    CTTAAGGAAG GACATACCTA TGCCACAGTT GTAAAGCTCA AGAATGTTGG AGTGGACTTC
    TGCAGGTTTA AAGTAAAGCA GCCCCCACCC AGCACAGGAC TGAAAGTGAC TTACAAACCT
    GGACCTGTGG CAGCTGGTAT GCAGACAGAA CTGAATATAG AGTTATTTGC CACAGCTGTT
    GGAGAGGATG GGGCCAAGGG ATCAGCACAC ATCTCTCACA ATATCGAGAT TATGACAGAG
    CATGAGGTTC TGTTCCTACC TGTGGAAGCA ACTGTTTTAA CAAGCAGCAA TTATGATAAA
    CGACCAAAAG ACTTTCCCCA GGGAAAAGAA AATCCAATGG TCCAGAGAAC TTCTACAATT
    TATTCCTCCA CACTTGGAGT CTTCATGTCT CGTAAAGTTT CTCCACATTA G

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

    RefSeq XP_011539241.1
    CDS359..4849
    Translation

    Target ORF information:

    RefSeq Version XM_011540939.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540939.2

    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
    ATGACTCGTA TTGGTCCATG GAGTCCAGAG CAGACCACAA ACAATGAGAT CAAAGATGAT 
    GCAGTCACAA AGGCTGATTC TCATGAAAAG AAACCCAAGA AGATGATGGT GGAAGCAGAT
    TTAGAGGACA TAAAGAAAAC ACAGCAGCGC AGTCTAATGG ACTGGAGTTT TACTGAACAT
    TTTAAACCGA AAGTACTGCT TCAGGTCCTT CAAGAAGCCC ATAAGCAATA TAGGTGTGTT
    GATTCTTACT ACCACACCCA AGACAACTCT TTACTTTTAG TCTTTCACAA TCCAATGAAT
    AGACAACGTT TGCATTGTGA ATATTGGAAC ATTGCTCTCC ACTCCAATGT TGGATTCAGG
    AATTATTTGG AACTTGTTGC AAAATCTATT CAAGATTGGA TTACAAAAGA AGAAGCTATA
    TATCAGGAAT CTAAAATGAA TGAGAAAATC ATCAGGACCA GAGCTGAGCT GGAATTGAAA
    TCTTCTGCTA ATGCCAAACT TACTTCTGCT AGCAAAATTT TTTCCATTAA AGAATCTAAA
    AGTAACAAAG GAATCAGCAA AACAGAGATA TCAGATCAAG AAAAAGAAAA AGAGAAGGAA
    AAGATTCCTT TCATTTTAGA AGGCTCTCTC AAGGCATGGA AAGAAGAGCA ACATCGATTA
    GCAGAAGAGG AGCGCTTAAG GGAAGAAAAG AAAGCAGAGA AGAAGGGTAA AGAAGCTGGT
    AAAAAGAAAG GCAAGGATAA CGCAGAGAAA GAGGATAGTA GGTCTTTGAA GAAAAAATCA
    CCTTACAAGG AGAAATCTAA AGAAGAACAA GTCAAGATCC AAGAAGTAAC AGAAGAGTCC
    CCCCACCAAC CAGAACCTAA GATAACTTAC CCGTTTCACG GATACAATAT GGGAAATATA
    CCCACTCAAA TCTCAGGGTC AAATTACTAC CTGTATCCTT CTGATGGGGG GCAGATTGAA
    GTGGAAAAGA CAATGTTTGA AAAAGGCCCA ACTTTTATCA AAGTGAGAGT GGTAAAGGAC
    AACCACAATT TTATGATTCA TTTAAATGAC CCTAAGGAAA TTGTGAAAAA GGAAGAGAAA
    GGGGATTATT ATTTAGAAGA GGAAGAAGAA GGAGATGAGG AACAAAGTCT TGAAACGGAA
    GTATCAGATG CAAAGAATAA AGCTTTCAGC AAGTTTGGAT CTTTTTCTGC CACCTTAGAA
    AATGGAATCT GCCTCTCGAT AAGTTACTAT GGATCAAATG GAATGGCACC AGAAGATAAG
    GATCCTGATT TAGAAACAAT ATTGAATATC CCTTCAGCAC TCACTCCAAC AGTGGTTCCT
    GTTATAGTGA CCGTTCCTCA AAGCAAAGCT AAAGGGAAAA TAAAAGGCAA AGAAAAACCC
    AAAGAATCCC TTAAAGAAGA AGAACACCCA AAAGAAGAAG AGAAAAAGGA AGAAGAAGTA
    GAACCAGAAC CTGTTTTACA AGAGACTTTG GATGTTCCCA CCTTCCAGAG CCTAAATGTG
    TCTTGCCCCA GTGGGCTCCT GTTGACTTTC ATTGGACAAG AATCTACAGG TCAATATGTT
    ATAGATGAGG AACCCACCTG GGACATCATG GTCCGTCAGA GCTACCCCCA GAGGGTGAAG
    CACTATGAGT TCTATAAAAC GGTGATGCCA CCCGCAGAGC AGGAGGCTTC AAGGGTTATC
    ACCAGTCAAG GCACTGTTGT CAAATATATG TTGGATGGAT CCACACAGAT TCTCTTTGCA
    GATGGTGCTG TGAGCAGGAG TCCCAATTCA GGTCTTATTT GTCCTCCTTC TGAAATGCCA
    GCAACGCCTC ACAGTGGAGA TTTGATGGAC TCTATTTCTC AGCAGAAATC AGAAACGATA
    CCATCTGAGA TTACCAACAC AAAGAAAGGA AAAAGTCACA AAAGTCAGTC ATCAATGGCC
    CATAAGGGTG AAATCCATGA CCCTCCTCCA GAGGCAGTTC AAACTGTAAC TCCTGTGGAG
    GTTCACATAG GCACCTGGTT TACAACCACA CCTGAAGGAA ATCGGATCGG CACCAAAGGA
    TTAGAAAGAA TAGCAGACTT GACCCCATTG TTATCCTTTC AGGCCACAGA TCCTGTCAAT
    GGAACGGTTA TGACAACTCG AGAAGACAAA GTTGTCATAG TTGAAAGGAA AGATGGTACT
    CGGATAGTGG ATCATGCTGA TGGTACCAGA ATCACAACCT TTTATCAAGT TTATGAAGAT
    CAAATTATTC TGCCAGATGA TCAAGAAACA ACCGAGGGTC CTCGGACTGT CACCAGGCAG
    GTGAAGTGTA TGCGGGTAGA AAGCTCACGC TATGCCACTG TTATCGCCAA CTGTGAGGAC
    AGTAGCTGCT GTGCCACCTT TGGAGATGGA ACAACTATTA TTGCAAAGCC ACAGGGAACA
    TACCAGGTGT TACCTCCAAA CACAGGCTCT CTTTATATTG ACAAGGATTG TTCAGCTGTG
    TACTGCCATG AGTCAAGCAG TAATATATAC TATCCTTTTC AAAAGCGTGA GCAGCTGCGA
    GCTGGCAGGT ACATCATGAG GCATACTTCA GAGGTTATCT GTGAGGTTCT GGATCCTGAG
    GGAAACACTT TTCAGGTCAT GGCTGATGGT AGCATATCAA CTATATTACC TGAAAAAAAA
    TTGGAAGATG ATTTAAATGA GAAAACTGAG GGCTATGATA GTCTGTCCTC TATGCACCTT
    GAAAAGAATC ATCAGCAAAT CTATGGTGAA CATGTCCCCA GGTTTTTTGT TATGTATGCT
    GATGGATCAG GAATGGAACT TCTTCGAGAC AGTGACATAG AAGAATATCT ATCTTTGGCA
    TATAAAGAAT CAAATACTGT TGTTCTCCAA GAGCCAGTGC AGGAACAGCC AGGCACCCTA
    ACCATCACAG TCCTTCGCCC TTTCCATGAA GCATCACCAT GGCAAGTAAA AAAGGAAGAT
    ACAATTGTCC CTCCTAATCT CCGGTCAAGG TCATGGGAAA CATTTCCCTC AGTTGAGAAA
    AAAACTCCAG GACCTCCGTT TGGTACTCAG ATTTGGAAAG GCCTTTGCAT TGAGTCCAAA
    CAGCTAGTGA GTGCCCCGGG TGCCATACTC AAGAGCCCCA GTGTGCTACA GATGCGCCAA
    TTCATTCAGC ATGAGGTCAT AAAGAATGAG GTGAAACTGA GGCTGCAGGT TTCCCTTAAG
    GATTACATAA ACTATATTCT AAAGAAAGAA GATGAGCTGC AGGAAATGAT GGTTAAAGAT
    TCCAGAACTG AGGAGGAGAG AGGCAATGCT GCTGATCTCC TCAAGCTGGT TATGTCTTTC
    CCTAAAATGG AGGAAACTAC AAAAAGTCAT GTTACTGAAG TTGCAGCTCA CCTAACTGAT
    TTATTCAAGC AGTCTTTGGC TACGCCTCCA AAATGCCCAC CAGACACATT TGGTAAAGAT
    TTCTTTGAAA AGACATGGAG ACACACAGCA TCCTCAAAAC GCTGGAAAGA AAAGATAGAC
    AAAACGAGGA AGGAAATTGA GACAACACAG AATTACCTAA TGGATATTAA GAACCGCATA
    ATACCACCCT TTTTTAAATC TGAATTGAAC CAGTTATATC AGTCTCAGTA TAATCACCTG
    GACAGTCTTT CCAAAAAACT GCCTTCTTTT ACAAAGAAAA ATGAAGATGC AAACGAAACA
    GCTGTTCAAG ATACATCTGA TCTTAATCTA GATTTCAAGC CACATAAGGT TTCAGAACAG
    AAATCCTCAA GTGTGCCTAG TCTTCCAAAA CCAGAGATTT CTGCAGATAA GAAGGATTTC
    ACTGCTCAGA ACCAAACTGA AAATTTAACA AAATCTCCTG AAGAAGCAGA ATCTTATGAG
    CCCGTGAAAA TTCCAACCCA GTCCTTGCTG CAGGATGTTG CGGGACAAAC AAGAAAAGAA
    AAAGTGAAGT TGCCTCATTA TTTGCTGAGT TCCAAGCCTA AGTCTCAACC TCTTGCAAAG
    GTGCAAGATT CTGTTGGAGG AAAAGTGAAC ACATCCTCTG TTGCATCTGC TGCCATTAAT
    AATGCAAAGT CATCCCTTTT TGGGTTCCAT CTTCTCCCAT CATCAGTCAA GTTTGGAGTG
    CTTAAGGAAG GACATACCTA TGCCACAGTT GTAAAGCTCA AGAATGTTGG AGTGGACTTC
    TGCAGGTTTA AAGTAAAGCA GCCCCCACCC AGCACAGGAC TGAAAGTGAC TTACAAACCT
    GGACCTGTGG CAGCTGGTAT GCAGACAGAA CTGAATATAG AGTTATTTGC CACAGCTGTT
    GGAGAGGATG GGGCCAAGGG ATCAGCACAC ATCTCTCACA ATATCGAGAT TATGACAGAG
    CATGAGGTTC TGTTCCTACC TGTGGAAGCA ACTGTTTTAA CAAGCAGCAA TTATGATAAA
    CGACCAAAAG ACTTTCCCCA GGGAAAAGAA AATCCAATGG TCCAGAGAAC TTCTACAATT
    TATTCCTCCA CACTTGGAGT CTTCATGTCT CGTAAAGTTT CTCCACATTA G

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

    CloneID OHu33133
    Clone ID Related Accession (Same CDS sequence) XM_011540939.2 , XM_006710428.3
    Accession Version XM_006710428.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4491bp)
    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 sperm-associated antigen 17 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_006710428.2. ##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
    ATGACTCGTA TTGGTCCATG GAGTCCAGAG CAGACCACAA ACAATGAGAT CAAAGATGAT 
    GCAGTCACAA AGGCTGATTC TCATGAAAAG AAACCCAAGA AGATGATGGT GGAAGCAGAT
    TTAGAGGACA TAAAGAAAAC ACAGCAGCGC AGTCTAATGG ACTGGAGTTT TACTGAACAT
    TTTAAACCGA AAGTACTGCT TCAGGTCCTT CAAGAAGCCC ATAAGCAATA TAGGTGTGTT
    GATTCTTACT ACCACACCCA AGACAACTCT TTACTTTTAG TCTTTCACAA TCCAATGAAT
    AGACAACGTT TGCATTGTGA ATATTGGAAC ATTGCTCTCC ACTCCAATGT TGGATTCAGG
    AATTATTTGG AACTTGTTGC AAAATCTATT CAAGATTGGA TTACAAAAGA AGAAGCTATA
    TATCAGGAAT CTAAAATGAA TGAGAAAATC ATCAGGACCA GAGCTGAGCT GGAATTGAAA
    TCTTCTGCTA ATGCCAAACT TACTTCTGCT AGCAAAATTT TTTCCATTAA AGAATCTAAA
    AGTAACAAAG GAATCAGCAA AACAGAGATA TCAGATCAAG AAAAAGAAAA AGAGAAGGAA
    AAGATTCCTT TCATTTTAGA AGGCTCTCTC AAGGCATGGA AAGAAGAGCA ACATCGATTA
    GCAGAAGAGG AGCGCTTAAG GGAAGAAAAG AAAGCAGAGA AGAAGGGTAA AGAAGCTGGT
    AAAAAGAAAG GCAAGGATAA CGCAGAGAAA GAGGATAGTA GGTCTTTGAA GAAAAAATCA
    CCTTACAAGG AGAAATCTAA AGAAGAACAA GTCAAGATCC AAGAAGTAAC AGAAGAGTCC
    CCCCACCAAC CAGAACCTAA GATAACTTAC CCGTTTCACG GATACAATAT GGGAAATATA
    CCCACTCAAA TCTCAGGGTC AAATTACTAC CTGTATCCTT CTGATGGGGG GCAGATTGAA
    GTGGAAAAGA CAATGTTTGA AAAAGGCCCA ACTTTTATCA AAGTGAGAGT GGTAAAGGAC
    AACCACAATT TTATGATTCA TTTAAATGAC CCTAAGGAAA TTGTGAAAAA GGAAGAGAAA
    GGGGATTATT ATTTAGAAGA GGAAGAAGAA GGAGATGAGG AACAAAGTCT TGAAACGGAA
    GTATCAGATG CAAAGAATAA AGCTTTCAGC AAGTTTGGAT CTTTTTCTGC CACCTTAGAA
    AATGGAATCT GCCTCTCGAT AAGTTACTAT GGATCAAATG GAATGGCACC AGAAGATAAG
    GATCCTGATT TAGAAACAAT ATTGAATATC CCTTCAGCAC TCACTCCAAC AGTGGTTCCT
    GTTATAGTGA CCGTTCCTCA AAGCAAAGCT AAAGGGAAAA TAAAAGGCAA AGAAAAACCC
    AAAGAATCCC TTAAAGAAGA AGAACACCCA AAAGAAGAAG AGAAAAAGGA AGAAGAAGTA
    GAACCAGAAC CTGTTTTACA AGAGACTTTG GATGTTCCCA CCTTCCAGAG CCTAAATGTG
    TCTTGCCCCA GTGGGCTCCT GTTGACTTTC ATTGGACAAG AATCTACAGG TCAATATGTT
    ATAGATGAGG AACCCACCTG GGACATCATG GTCCGTCAGA GCTACCCCCA GAGGGTGAAG
    CACTATGAGT TCTATAAAAC GGTGATGCCA CCCGCAGAGC AGGAGGCTTC AAGGGTTATC
    ACCAGTCAAG GCACTGTTGT CAAATATATG TTGGATGGAT CCACACAGAT TCTCTTTGCA
    GATGGTGCTG TGAGCAGGAG TCCCAATTCA GGTCTTATTT GTCCTCCTTC TGAAATGCCA
    GCAACGCCTC ACAGTGGAGA TTTGATGGAC TCTATTTCTC AGCAGAAATC AGAAACGATA
    CCATCTGAGA TTACCAACAC AAAGAAAGGA AAAAGTCACA AAAGTCAGTC ATCAATGGCC
    CATAAGGGTG AAATCCATGA CCCTCCTCCA GAGGCAGTTC AAACTGTAAC TCCTGTGGAG
    GTTCACATAG GCACCTGGTT TACAACCACA CCTGAAGGAA ATCGGATCGG CACCAAAGGA
    TTAGAAAGAA TAGCAGACTT GACCCCATTG TTATCCTTTC AGGCCACAGA TCCTGTCAAT
    GGAACGGTTA TGACAACTCG AGAAGACAAA GTTGTCATAG TTGAAAGGAA AGATGGTACT
    CGGATAGTGG ATCATGCTGA TGGTACCAGA ATCACAACCT TTTATCAAGT TTATGAAGAT
    CAAATTATTC TGCCAGATGA TCAAGAAACA ACCGAGGGTC CTCGGACTGT CACCAGGCAG
    GTGAAGTGTA TGCGGGTAGA AAGCTCACGC TATGCCACTG TTATCGCCAA CTGTGAGGAC
    AGTAGCTGCT GTGCCACCTT TGGAGATGGA ACAACTATTA TTGCAAAGCC ACAGGGAACA
    TACCAGGTGT TACCTCCAAA CACAGGCTCT CTTTATATTG ACAAGGATTG TTCAGCTGTG
    TACTGCCATG AGTCAAGCAG TAATATATAC TATCCTTTTC AAAAGCGTGA GCAGCTGCGA
    GCTGGCAGGT ACATCATGAG GCATACTTCA GAGGTTATCT GTGAGGTTCT GGATCCTGAG
    GGAAACACTT TTCAGGTCAT GGCTGATGGT AGCATATCAA CTATATTACC TGAAAAAAAA
    TTGGAAGATG ATTTAAATGA GAAAACTGAG GGCTATGATA GTCTGTCCTC TATGCACCTT
    GAAAAGAATC ATCAGCAAAT CTATGGTGAA CATGTCCCCA GGTTTTTTGT TATGTATGCT
    GATGGATCAG GAATGGAACT TCTTCGAGAC AGTGACATAG AAGAATATCT ATCTTTGGCA
    TATAAAGAAT CAAATACTGT TGTTCTCCAA GAGCCAGTGC AGGAACAGCC AGGCACCCTA
    ACCATCACAG TCCTTCGCCC TTTCCATGAA GCATCACCAT GGCAAGTAAA AAAGGAAGAT
    ACAATTGTCC CTCCTAATCT CCGGTCAAGG TCATGGGAAA CATTTCCCTC AGTTGAGAAA
    AAAACTCCAG GACCTCCGTT TGGTACTCAG ATTTGGAAAG GCCTTTGCAT TGAGTCCAAA
    CAGCTAGTGA GTGCCCCGGG TGCCATACTC AAGAGCCCCA GTGTGCTACA GATGCGCCAA
    TTCATTCAGC ATGAGGTCAT AAAGAATGAG GTGAAACTGA GGCTGCAGGT TTCCCTTAAG
    GATTACATAA ACTATATTCT AAAGAAAGAA GATGAGCTGC AGGAAATGAT GGTTAAAGAT
    TCCAGAACTG AGGAGGAGAG AGGCAATGCT GCTGATCTCC TCAAGCTGGT TATGTCTTTC
    CCTAAAATGG AGGAAACTAC AAAAAGTCAT GTTACTGAAG TTGCAGCTCA CCTAACTGAT
    TTATTCAAGC AGTCTTTGGC TACGCCTCCA AAATGCCCAC CAGACACATT TGGTAAAGAT
    TTCTTTGAAA AGACATGGAG ACACACAGCA TCCTCAAAAC GCTGGAAAGA AAAGATAGAC
    AAAACGAGGA AGGAAATTGA GACAACACAG AATTACCTAA TGGATATTAA GAACCGCATA
    ATACCACCCT TTTTTAAATC TGAATTGAAC CAGTTATATC AGTCTCAGTA TAATCACCTG
    GACAGTCTTT CCAAAAAACT GCCTTCTTTT ACAAAGAAAA ATGAAGATGC AAACGAAACA
    GCTGTTCAAG ATACATCTGA TCTTAATCTA GATTTCAAGC CACATAAGGT TTCAGAACAG
    AAATCCTCAA GTGTGCCTAG TCTTCCAAAA CCAGAGATTT CTGCAGATAA GAAGGATTTC
    ACTGCTCAGA ACCAAACTGA AAATTTAACA AAATCTCCTG AAGAAGCAGA ATCTTATGAG
    CCCGTGAAAA TTCCAACCCA GTCCTTGCTG CAGGATGTTG CGGGACAAAC AAGAAAAGAA
    AAAGTGAAGT TGCCTCATTA TTTGCTGAGT TCCAAGCCTA AGTCTCAACC TCTTGCAAAG
    GTGCAAGATT CTGTTGGAGG AAAAGTGAAC ACATCCTCTG TTGCATCTGC TGCCATTAAT
    AATGCAAAGT CATCCCTTTT TGGGTTCCAT CTTCTCCCAT CATCAGTCAA GTTTGGAGTG
    CTTAAGGAAG GACATACCTA TGCCACAGTT GTAAAGCTCA AGAATGTTGG AGTGGACTTC
    TGCAGGTTTA AAGTAAAGCA GCCCCCACCC AGCACAGGAC TGAAAGTGAC TTACAAACCT
    GGACCTGTGG CAGCTGGTAT GCAGACAGAA CTGAATATAG AGTTATTTGC CACAGCTGTT
    GGAGAGGATG GGGCCAAGGG ATCAGCACAC ATCTCTCACA ATATCGAGAT TATGACAGAG
    CATGAGGTTC TGTTCCTACC TGTGGAAGCA ACTGTTTTAA CAAGCAGCAA TTATGATAAA
    CGACCAAAAG ACTTTCCCCA GGGAAAAGAA AATCCAATGG TCCAGAGAAC TTCTACAATT
    TATTCCTCCA CACTTGGAGT CTTCATGTCT CGTAAAGTTT CTCCACATTA G

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

    RefSeq XP_006710491.1
    CDS321..4811
    Translation

    Target ORF information:

    RefSeq Version XM_006710428.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006710428.3

    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
    ATGACTCGTA TTGGTCCATG GAGTCCAGAG CAGACCACAA ACAATGAGAT CAAAGATGAT 
    GCAGTCACAA AGGCTGATTC TCATGAAAAG AAACCCAAGA AGATGATGGT GGAAGCAGAT
    TTAGAGGACA TAAAGAAAAC ACAGCAGCGC AGTCTAATGG ACTGGAGTTT TACTGAACAT
    TTTAAACCGA AAGTACTGCT TCAGGTCCTT CAAGAAGCCC ATAAGCAATA TAGGTGTGTT
    GATTCTTACT ACCACACCCA AGACAACTCT TTACTTTTAG TCTTTCACAA TCCAATGAAT
    AGACAACGTT TGCATTGTGA ATATTGGAAC ATTGCTCTCC ACTCCAATGT TGGATTCAGG
    AATTATTTGG AACTTGTTGC AAAATCTATT CAAGATTGGA TTACAAAAGA AGAAGCTATA
    TATCAGGAAT CTAAAATGAA TGAGAAAATC ATCAGGACCA GAGCTGAGCT GGAATTGAAA
    TCTTCTGCTA ATGCCAAACT TACTTCTGCT AGCAAAATTT TTTCCATTAA AGAATCTAAA
    AGTAACAAAG GAATCAGCAA AACAGAGATA TCAGATCAAG AAAAAGAAAA AGAGAAGGAA
    AAGATTCCTT TCATTTTAGA AGGCTCTCTC AAGGCATGGA AAGAAGAGCA ACATCGATTA
    GCAGAAGAGG AGCGCTTAAG GGAAGAAAAG AAAGCAGAGA AGAAGGGTAA AGAAGCTGGT
    AAAAAGAAAG GCAAGGATAA CGCAGAGAAA GAGGATAGTA GGTCTTTGAA GAAAAAATCA
    CCTTACAAGG AGAAATCTAA AGAAGAACAA GTCAAGATCC AAGAAGTAAC AGAAGAGTCC
    CCCCACCAAC CAGAACCTAA GATAACTTAC CCGTTTCACG GATACAATAT GGGAAATATA
    CCCACTCAAA TCTCAGGGTC AAATTACTAC CTGTATCCTT CTGATGGGGG GCAGATTGAA
    GTGGAAAAGA CAATGTTTGA AAAAGGCCCA ACTTTTATCA AAGTGAGAGT GGTAAAGGAC
    AACCACAATT TTATGATTCA TTTAAATGAC CCTAAGGAAA TTGTGAAAAA GGAAGAGAAA
    GGGGATTATT ATTTAGAAGA GGAAGAAGAA GGAGATGAGG AACAAAGTCT TGAAACGGAA
    GTATCAGATG CAAAGAATAA AGCTTTCAGC AAGTTTGGAT CTTTTTCTGC CACCTTAGAA
    AATGGAATCT GCCTCTCGAT AAGTTACTAT GGATCAAATG GAATGGCACC AGAAGATAAG
    GATCCTGATT TAGAAACAAT ATTGAATATC CCTTCAGCAC TCACTCCAAC AGTGGTTCCT
    GTTATAGTGA CCGTTCCTCA AAGCAAAGCT AAAGGGAAAA TAAAAGGCAA AGAAAAACCC
    AAAGAATCCC TTAAAGAAGA AGAACACCCA AAAGAAGAAG AGAAAAAGGA AGAAGAAGTA
    GAACCAGAAC CTGTTTTACA AGAGACTTTG GATGTTCCCA CCTTCCAGAG CCTAAATGTG
    TCTTGCCCCA GTGGGCTCCT GTTGACTTTC ATTGGACAAG AATCTACAGG TCAATATGTT
    ATAGATGAGG AACCCACCTG GGACATCATG GTCCGTCAGA GCTACCCCCA GAGGGTGAAG
    CACTATGAGT TCTATAAAAC GGTGATGCCA CCCGCAGAGC AGGAGGCTTC AAGGGTTATC
    ACCAGTCAAG GCACTGTTGT CAAATATATG TTGGATGGAT CCACACAGAT TCTCTTTGCA
    GATGGTGCTG TGAGCAGGAG TCCCAATTCA GGTCTTATTT GTCCTCCTTC TGAAATGCCA
    GCAACGCCTC ACAGTGGAGA TTTGATGGAC TCTATTTCTC AGCAGAAATC AGAAACGATA
    CCATCTGAGA TTACCAACAC AAAGAAAGGA AAAAGTCACA AAAGTCAGTC ATCAATGGCC
    CATAAGGGTG AAATCCATGA CCCTCCTCCA GAGGCAGTTC AAACTGTAAC TCCTGTGGAG
    GTTCACATAG GCACCTGGTT TACAACCACA CCTGAAGGAA ATCGGATCGG CACCAAAGGA
    TTAGAAAGAA TAGCAGACTT GACCCCATTG TTATCCTTTC AGGCCACAGA TCCTGTCAAT
    GGAACGGTTA TGACAACTCG AGAAGACAAA GTTGTCATAG TTGAAAGGAA AGATGGTACT
    CGGATAGTGG ATCATGCTGA TGGTACCAGA ATCACAACCT TTTATCAAGT TTATGAAGAT
    CAAATTATTC TGCCAGATGA TCAAGAAACA ACCGAGGGTC CTCGGACTGT CACCAGGCAG
    GTGAAGTGTA TGCGGGTAGA AAGCTCACGC TATGCCACTG TTATCGCCAA CTGTGAGGAC
    AGTAGCTGCT GTGCCACCTT TGGAGATGGA ACAACTATTA TTGCAAAGCC ACAGGGAACA
    TACCAGGTGT TACCTCCAAA CACAGGCTCT CTTTATATTG ACAAGGATTG TTCAGCTGTG
    TACTGCCATG AGTCAAGCAG TAATATATAC TATCCTTTTC AAAAGCGTGA GCAGCTGCGA
    GCTGGCAGGT ACATCATGAG GCATACTTCA GAGGTTATCT GTGAGGTTCT GGATCCTGAG
    GGAAACACTT TTCAGGTCAT GGCTGATGGT AGCATATCAA CTATATTACC TGAAAAAAAA
    TTGGAAGATG ATTTAAATGA GAAAACTGAG GGCTATGATA GTCTGTCCTC TATGCACCTT
    GAAAAGAATC ATCAGCAAAT CTATGGTGAA CATGTCCCCA GGTTTTTTGT TATGTATGCT
    GATGGATCAG GAATGGAACT TCTTCGAGAC AGTGACATAG AAGAATATCT ATCTTTGGCA
    TATAAAGAAT CAAATACTGT TGTTCTCCAA GAGCCAGTGC AGGAACAGCC AGGCACCCTA
    ACCATCACAG TCCTTCGCCC TTTCCATGAA GCATCACCAT GGCAAGTAAA AAAGGAAGAT
    ACAATTGTCC CTCCTAATCT CCGGTCAAGG TCATGGGAAA CATTTCCCTC AGTTGAGAAA
    AAAACTCCAG GACCTCCGTT TGGTACTCAG ATTTGGAAAG GCCTTTGCAT TGAGTCCAAA
    CAGCTAGTGA GTGCCCCGGG TGCCATACTC AAGAGCCCCA GTGTGCTACA GATGCGCCAA
    TTCATTCAGC ATGAGGTCAT AAAGAATGAG GTGAAACTGA GGCTGCAGGT TTCCCTTAAG
    GATTACATAA ACTATATTCT AAAGAAAGAA GATGAGCTGC AGGAAATGAT GGTTAAAGAT
    TCCAGAACTG AGGAGGAGAG AGGCAATGCT GCTGATCTCC TCAAGCTGGT TATGTCTTTC
    CCTAAAATGG AGGAAACTAC AAAAAGTCAT GTTACTGAAG TTGCAGCTCA CCTAACTGAT
    TTATTCAAGC AGTCTTTGGC TACGCCTCCA AAATGCCCAC CAGACACATT TGGTAAAGAT
    TTCTTTGAAA AGACATGGAG ACACACAGCA TCCTCAAAAC GCTGGAAAGA AAAGATAGAC
    AAAACGAGGA AGGAAATTGA GACAACACAG AATTACCTAA TGGATATTAA GAACCGCATA
    ATACCACCCT TTTTTAAATC TGAATTGAAC CAGTTATATC AGTCTCAGTA TAATCACCTG
    GACAGTCTTT CCAAAAAACT GCCTTCTTTT ACAAAGAAAA ATGAAGATGC AAACGAAACA
    GCTGTTCAAG ATACATCTGA TCTTAATCTA GATTTCAAGC CACATAAGGT TTCAGAACAG
    AAATCCTCAA GTGTGCCTAG TCTTCCAAAA CCAGAGATTT CTGCAGATAA GAAGGATTTC
    ACTGCTCAGA ACCAAACTGA AAATTTAACA AAATCTCCTG AAGAAGCAGA ATCTTATGAG
    CCCGTGAAAA TTCCAACCCA GTCCTTGCTG CAGGATGTTG CGGGACAAAC AAGAAAAGAA
    AAAGTGAAGT TGCCTCATTA TTTGCTGAGT TCCAAGCCTA AGTCTCAACC TCTTGCAAAG
    GTGCAAGATT CTGTTGGAGG AAAAGTGAAC ACATCCTCTG TTGCATCTGC TGCCATTAAT
    AATGCAAAGT CATCCCTTTT TGGGTTCCAT CTTCTCCCAT CATCAGTCAA GTTTGGAGTG
    CTTAAGGAAG GACATACCTA TGCCACAGTT GTAAAGCTCA AGAATGTTGG AGTGGACTTC
    TGCAGGTTTA AAGTAAAGCA GCCCCCACCC AGCACAGGAC TGAAAGTGAC TTACAAACCT
    GGACCTGTGG CAGCTGGTAT GCAGACAGAA CTGAATATAG AGTTATTTGC CACAGCTGTT
    GGAGAGGATG GGGCCAAGGG ATCAGCACAC ATCTCTCACA ATATCGAGAT TATGACAGAG
    CATGAGGTTC TGTTCCTACC TGTGGAAGCA ACTGTTTTAA CAAGCAGCAA TTATGATAAA
    CGACCAAAAG ACTTTCCCCA GGGAAAAGAA AATCCAATGG TCCAGAGAAC TTCTACAATT
    TATTCCTCCA CACTTGGAGT CTTCATGTCT CGTAAAGTTT CTCCACATTA G

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

    CloneID OHu33134
    Clone ID Related Accession (Same CDS sequence) XM_006710429.3
    Accession Version XM_006710429.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4056bp)
    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 sperm-associated antigen 17 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_006710429.2. ##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
    ATGAATGAGA AAATCATCAG GACCAGAGCT GAGCTGGAAT TGAAATCTTC TGCTAATGCC 
    AAACTTACTT CTGCTAGCAA AATTTTTTCC ATTAAAGAAT CTAAAAGTAA CAAAGGAATC
    AGCAAAACAG AGATATCAGA TCAAGAAAAA GAAAAAGAGA AGGAAAAGAT TCCTTTCATT
    TTAGAAGGCT CTCTCAAGGC ATGGAAAGAA GAGCAACATC GATTAGCAGA AGAGGAGCGC
    TTAAGGGAAG AAAAGAAAGC AGAGAAGAAG GGTAAAGAAG CTGGTAAAAA GAAAGGCAAG
    GATAACGCAG AGAAAGAGGA TAGTAGGTCT TTGAAGAAAA AATCACCTTA CAAGGAGAAA
    TCTAAAGAAG AACAAGTCAA GATCCAAGAA GTAACAGAAG AGTCCCCCCA CCAACCAGAA
    CCTAAGATAA CTTACCCGTT TCACGGATAC AATATGGGAA ATATACCCAC TCAAATCTCA
    GGGTCAAATT ACTACCTGTA TCCTTCTGAT GGGGGGCAGA TTGAAGTGGA AAAGACAATG
    TTTGAAAAAG GCCCAACTTT TATCAAAGTG AGAGTGGTAA AGGACAACCA CAATTTTATG
    ATTCATTTAA ATGACCCTAA GGAAATTGTG AAAAAGGAAG AGAAAGGGGA TTATTATTTA
    GAAGAGGAAG AAGAAGGAGA TGAGGAACAA AGTCTTGAAA CGGAAGTATC AGATGCAAAG
    AATAAAGCTT TCAGCAAGTT TGGATCTTTT TCTGCCACCT TAGAAAATGG AATCTGCCTC
    TCGATAAGTT ACTATGGATC AAATGGAATG GCACCAGAAG ATAAGGATCC TGATTTAGAA
    ACAATATTGA ATATCCCTTC AGCACTCACT CCAACAGTGG TTCCTGTTAT AGTGACCGTT
    CCTCAAAGCA AAGCTAAAGG GAAAATAAAA GGCAAAGAAA AACCCAAAGA ATCCCTTAAA
    GAAGAAGAAC ACCCAAAAGA AGAAGAGAAA AAGGAAGAAG AAGTAGAACC AGAACCTGTT
    TTACAAGAGA CTTTGGATGT TCCCACCTTC CAGAGCCTAA ATGTGTCTTG CCCCAGTGGG
    CTCCTGTTGA CTTTCATTGG ACAAGAATCT ACAGGTCAAT ATGTTATAGA TGAGGAACCC
    ACCTGGGACA TCATGGTCCG TCAGAGCTAC CCCCAGAGGG TGAAGCACTA TGAGTTCTAT
    AAAACGGTGA TGCCACCCGC AGAGCAGGAG GCTTCAAGGG TTATCACCAG TCAAGGCACT
    GTTGTCAAAT ATATGTTGGA TGGATCCACA CAGATTCTCT TTGCAGATGG TGCTGTGAGC
    AGGAGTCCCA ATTCAGGTCT TATTTGTCCT CCTTCTGAAA TGCCAGCAAC GCCTCACAGT
    GGAGATTTGA TGGACTCTAT TTCTCAGCAG AAATCAGAAA CGATACCATC TGAGATTACC
    AACACAAAGA AAGGAAAAAG TCACAAAAGT CAGTCATCAA TGGCCCATAA GGGTGAAATC
    CATGACCCTC CTCCAGAGGC AGTTCAAACT GTAACTCCTG TGGAGGTTCA CATAGGCACC
    TGGTTTACAA CCACACCTGA AGGAAATCGG ATCGGCACCA AAGGATTAGA AAGAATAGCA
    GACTTGACCC CATTGTTATC CTTTCAGGCC ACAGATCCTG TCAATGGAAC GGTTATGACA
    ACTCGAGAAG ACAAAGTTGT CATAGTTGAA AGGAAAGATG GTACTCGGAT AGTGGATCAT
    GCTGATGGTA CCAGAATCAC AACCTTTTAT CAAGTTTATG AAGATCAAAT TATTCTGCCA
    GATGATCAAG AAACAACCGA GGGTCCTCGG ACTGTCACCA GGCAGGTGAA GTGTATGCGG
    GTAGAAAGCT CACGCTATGC CACTGTTATC GCCAACTGTG AGGACAGTAG CTGCTGTGCC
    ACCTTTGGAG ATGGAACAAC TATTATTGCA AAGCCACAGG GAACATACCA GGTGTTACCT
    CCAAACACAG GCTCTCTTTA TATTGACAAG GATTGTTCAG CTGTGTACTG CCATGAGTCA
    AGCAGTAATA TATACTATCC TTTTCAAAAG CGTGAGCAGC TGCGAGCTGG CAGGTACATC
    ATGAGGCATA CTTCAGAGGT TATCTGTGAG GTTCTGGATC CTGAGGGAAA CACTTTTCAG
    GTCATGGCTG ATGGTAGCAT ATCAACTATA TTACCTGAAA AAAAATTGGA AGATGATTTA
    AATGAGAAAA CTGAGGGCTA TGATAGTCTG TCCTCTATGC ACCTTGAAAA GAATCATCAG
    CAAATCTATG GTGAACATGT CCCCAGGTTT TTTGTTATGT ATGCTGATGG ATCAGGAATG
    GAACTTCTTC GAGACAGTGA CATAGAAGAA TATCTATCTT TGGCATATAA AGAATCAAAT
    ACTGTTGTTC TCCAAGAGCC AGTGCAGGAA CAGCCAGGCA CCCTAACCAT CACAGTCCTT
    CGCCCTTTCC ATGAAGCATC ACCATGGCAA GTAAAAAAGG AAGATACAAT TGTCCCTCCT
    AATCTCCGGT CAAGGTCATG GGAAACATTT CCCTCAGTTG AGAAAAAAAC TCCAGGACCT
    CCGTTTGGTA CTCAGATTTG GAAAGGCCTT TGCATTGAGT CCAAACAGCT AGTGAGTGCC
    CCGGGTGCCA TACTCAAGAG CCCCAGTGTG CTACAGATGC GCCAATTCAT TCAGCATGAG
    GTCATAAAGA ATGAGGTGAA ACTGAGGCTG CAGGTTTCCC TTAAGGATTA CATAAACTAT
    ATTCTAAAGA AAGAAGATGA GCTGCAGGAA ATGATGGTTA AAGATTCCAG AACTGAGGAG
    GAGAGAGGCA ATGCTGCTGA TCTCCTCAAG CTGGTTATGT CTTTCCCTAA AATGGAGGAA
    ACTACAAAAA GTCATGTTAC TGAAGTTGCA GCTCACCTAA CTGATTTATT CAAGCAGTCT
    TTGGCTACGC CTCCAAAATG CCCACCAGAC ACATTTGGTA AAGATTTCTT TGAAAAGACA
    TGGAGACACA CAGCATCCTC AAAACGCTGG AAAGAAAAGA TAGACAAAAC GAGGAAGGAA
    ATTGAGACAA CACAGAATTA CCTAATGGAT ATTAAGAACC GCATAATACC ACCCTTTTTT
    AAATCTGAAT TGAACCAGTT ATATCAGTCT CAGTATAATC ACCTGGACAG TCTTTCCAAA
    AAACTGCCTT CTTTTACAAA GAAAAATGAA GATGCAAACG AAACAGCTGT TCAAGATACA
    TCTGATCTTA ATCTAGATTT CAAGCCACAT AAGGTTTCAG AACAGAAATC CTCAAGTGTG
    CCTAGTCTTC CAAAACCAGA GATTTCTGCA GATAAGAAGG ATTTCACTGC TCAGAACCAA
    ACTGAAAATT TAACAAAATC TCCTGAAGAA GCAGAATCTT ATGAGCCCGT GAAAATTCCA
    ACCCAGTCCT TGCTGCAGGA TGTTGCGGGA CAAACAAGAA AAGAAAAAGT GAAGTTGCCT
    CATTATTTGC TGAGTTCCAA GCCTAAGTCT CAACCTCTTG CAAAGGTGCA AGATTCTGTT
    GGAGGAAAAG TGAACACATC CTCTGTTGCA TCTGCTGCCA TTAATAATGC AAAGTCATCC
    CTTTTTGGGT TCCATCTTCT CCCATCATCA GTCAAGTTTG GAGTGCTTAA GGAAGGACAT
    ACCTATGCCA CAGTTGTAAA GCTCAAGAAT GTTGGAGTGG ACTTCTGCAG GTTTAAAGTA
    AAGCAGCCCC CACCCAGCAC AGGACTGAAA GTGACTTACA AACCTGGACC TGTGGCAGCT
    GGTATGCAGA CAGAACTGAA TATAGAGTTA TTTGCCACAG CTGTTGGAGA GGATGGGGCC
    AAGGGATCAG CACACATCTC TCACAATATC GAGATTATGA CAGAGCATGA GGTTCTGTTC
    CTACCTGTGG AAGCAACTGT TTTAACAAGC AGCAATTATG ATAAACGACC AAAAGACTTT
    CCCCAGGGAA AAGAAAATCC AATGGTCCAG AGAACTTCTA CAATTTATTC CTCCACACTT
    GGAGTCTTCA TGTCTCGTAA AGTTTCTCCA CATTAG

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

    RefSeq XP_006710492.1
    CDS368..4423
    Translation

    Target ORF information:

    RefSeq Version XM_006710429.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006710429.3

    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
    ATGAATGAGA AAATCATCAG GACCAGAGCT GAGCTGGAAT TGAAATCTTC TGCTAATGCC 
    AAACTTACTT CTGCTAGCAA AATTTTTTCC ATTAAAGAAT CTAAAAGTAA CAAAGGAATC
    AGCAAAACAG AGATATCAGA TCAAGAAAAA GAAAAAGAGA AGGAAAAGAT TCCTTTCATT
    TTAGAAGGCT CTCTCAAGGC ATGGAAAGAA GAGCAACATC GATTAGCAGA AGAGGAGCGC
    TTAAGGGAAG AAAAGAAAGC AGAGAAGAAG GGTAAAGAAG CTGGTAAAAA GAAAGGCAAG
    GATAACGCAG AGAAAGAGGA TAGTAGGTCT TTGAAGAAAA AATCACCTTA CAAGGAGAAA
    TCTAAAGAAG AACAAGTCAA GATCCAAGAA GTAACAGAAG AGTCCCCCCA CCAACCAGAA
    CCTAAGATAA CTTACCCGTT TCACGGATAC AATATGGGAA ATATACCCAC TCAAATCTCA
    GGGTCAAATT ACTACCTGTA TCCTTCTGAT GGGGGGCAGA TTGAAGTGGA AAAGACAATG
    TTTGAAAAAG GCCCAACTTT TATCAAAGTG AGAGTGGTAA AGGACAACCA CAATTTTATG
    ATTCATTTAA ATGACCCTAA GGAAATTGTG AAAAAGGAAG AGAAAGGGGA TTATTATTTA
    GAAGAGGAAG AAGAAGGAGA TGAGGAACAA AGTCTTGAAA CGGAAGTATC AGATGCAAAG
    AATAAAGCTT TCAGCAAGTT TGGATCTTTT TCTGCCACCT TAGAAAATGG AATCTGCCTC
    TCGATAAGTT ACTATGGATC AAATGGAATG GCACCAGAAG ATAAGGATCC TGATTTAGAA
    ACAATATTGA ATATCCCTTC AGCACTCACT CCAACAGTGG TTCCTGTTAT AGTGACCGTT
    CCTCAAAGCA AAGCTAAAGG GAAAATAAAA GGCAAAGAAA AACCCAAAGA ATCCCTTAAA
    GAAGAAGAAC ACCCAAAAGA AGAAGAGAAA AAGGAAGAAG AAGTAGAACC AGAACCTGTT
    TTACAAGAGA CTTTGGATGT TCCCACCTTC CAGAGCCTAA ATGTGTCTTG CCCCAGTGGG
    CTCCTGTTGA CTTTCATTGG ACAAGAATCT ACAGGTCAAT ATGTTATAGA TGAGGAACCC
    ACCTGGGACA TCATGGTCCG TCAGAGCTAC CCCCAGAGGG TGAAGCACTA TGAGTTCTAT
    AAAACGGTGA TGCCACCCGC AGAGCAGGAG GCTTCAAGGG TTATCACCAG TCAAGGCACT
    GTTGTCAAAT ATATGTTGGA TGGATCCACA CAGATTCTCT TTGCAGATGG TGCTGTGAGC
    AGGAGTCCCA ATTCAGGTCT TATTTGTCCT CCTTCTGAAA TGCCAGCAAC GCCTCACAGT
    GGAGATTTGA TGGACTCTAT TTCTCAGCAG AAATCAGAAA CGATACCATC TGAGATTACC
    AACACAAAGA AAGGAAAAAG TCACAAAAGT CAGTCATCAA TGGCCCATAA GGGTGAAATC
    CATGACCCTC CTCCAGAGGC AGTTCAAACT GTAACTCCTG TGGAGGTTCA CATAGGCACC
    TGGTTTACAA CCACACCTGA AGGAAATCGG ATCGGCACCA AAGGATTAGA AAGAATAGCA
    GACTTGACCC CATTGTTATC CTTTCAGGCC ACAGATCCTG TCAATGGAAC GGTTATGACA
    ACTCGAGAAG ACAAAGTTGT CATAGTTGAA AGGAAAGATG GTACTCGGAT AGTGGATCAT
    GCTGATGGTA CCAGAATCAC AACCTTTTAT CAAGTTTATG AAGATCAAAT TATTCTGCCA
    GATGATCAAG AAACAACCGA GGGTCCTCGG ACTGTCACCA GGCAGGTGAA GTGTATGCGG
    GTAGAAAGCT CACGCTATGC CACTGTTATC GCCAACTGTG AGGACAGTAG CTGCTGTGCC
    ACCTTTGGAG ATGGAACAAC TATTATTGCA AAGCCACAGG GAACATACCA GGTGTTACCT
    CCAAACACAG GCTCTCTTTA TATTGACAAG GATTGTTCAG CTGTGTACTG CCATGAGTCA
    AGCAGTAATA TATACTATCC TTTTCAAAAG CGTGAGCAGC TGCGAGCTGG CAGGTACATC
    ATGAGGCATA CTTCAGAGGT TATCTGTGAG GTTCTGGATC CTGAGGGAAA CACTTTTCAG
    GTCATGGCTG ATGGTAGCAT ATCAACTATA TTACCTGAAA AAAAATTGGA AGATGATTTA
    AATGAGAAAA CTGAGGGCTA TGATAGTCTG TCCTCTATGC ACCTTGAAAA GAATCATCAG
    CAAATCTATG GTGAACATGT CCCCAGGTTT TTTGTTATGT ATGCTGATGG ATCAGGAATG
    GAACTTCTTC GAGACAGTGA CATAGAAGAA TATCTATCTT TGGCATATAA AGAATCAAAT
    ACTGTTGTTC TCCAAGAGCC AGTGCAGGAA CAGCCAGGCA CCCTAACCAT CACAGTCCTT
    CGCCCTTTCC ATGAAGCATC ACCATGGCAA GTAAAAAAGG AAGATACAAT TGTCCCTCCT
    AATCTCCGGT CAAGGTCATG GGAAACATTT CCCTCAGTTG AGAAAAAAAC TCCAGGACCT
    CCGTTTGGTA CTCAGATTTG GAAAGGCCTT TGCATTGAGT CCAAACAGCT AGTGAGTGCC
    CCGGGTGCCA TACTCAAGAG CCCCAGTGTG CTACAGATGC GCCAATTCAT TCAGCATGAG
    GTCATAAAGA ATGAGGTGAA ACTGAGGCTG CAGGTTTCCC TTAAGGATTA CATAAACTAT
    ATTCTAAAGA AAGAAGATGA GCTGCAGGAA ATGATGGTTA AAGATTCCAG AACTGAGGAG
    GAGAGAGGCA ATGCTGCTGA TCTCCTCAAG CTGGTTATGT CTTTCCCTAA AATGGAGGAA
    ACTACAAAAA GTCATGTTAC TGAAGTTGCA GCTCACCTAA CTGATTTATT CAAGCAGTCT
    TTGGCTACGC CTCCAAAATG CCCACCAGAC ACATTTGGTA AAGATTTCTT TGAAAAGACA
    TGGAGACACA CAGCATCCTC AAAACGCTGG AAAGAAAAGA TAGACAAAAC GAGGAAGGAA
    ATTGAGACAA CACAGAATTA CCTAATGGAT ATTAAGAACC GCATAATACC ACCCTTTTTT
    AAATCTGAAT TGAACCAGTT ATATCAGTCT CAGTATAATC ACCTGGACAG TCTTTCCAAA
    AAACTGCCTT CTTTTACAAA GAAAAATGAA GATGCAAACG AAACAGCTGT TCAAGATACA
    TCTGATCTTA ATCTAGATTT CAAGCCACAT AAGGTTTCAG AACAGAAATC CTCAAGTGTG
    CCTAGTCTTC CAAAACCAGA GATTTCTGCA GATAAGAAGG ATTTCACTGC TCAGAACCAA
    ACTGAAAATT TAACAAAATC TCCTGAAGAA GCAGAATCTT ATGAGCCCGT GAAAATTCCA
    ACCCAGTCCT TGCTGCAGGA TGTTGCGGGA CAAACAAGAA AAGAAAAAGT GAAGTTGCCT
    CATTATTTGC TGAGTTCCAA GCCTAAGTCT CAACCTCTTG CAAAGGTGCA AGATTCTGTT
    GGAGGAAAAG TGAACACATC CTCTGTTGCA TCTGCTGCCA TTAATAATGC AAAGTCATCC
    CTTTTTGGGT TCCATCTTCT CCCATCATCA GTCAAGTTTG GAGTGCTTAA GGAAGGACAT
    ACCTATGCCA CAGTTGTAAA GCTCAAGAAT GTTGGAGTGG ACTTCTGCAG GTTTAAAGTA
    AAGCAGCCCC CACCCAGCAC AGGACTGAAA GTGACTTACA AACCTGGACC TGTGGCAGCT
    GGTATGCAGA CAGAACTGAA TATAGAGTTA TTTGCCACAG CTGTTGGAGA GGATGGGGCC
    AAGGGATCAG CACACATCTC TCACAATATC GAGATTATGA CAGAGCATGA GGTTCTGTTC
    CTACCTGTGG AAGCAACTGT TTTAACAAGC AGCAATTATG ATAAACGACC AAAAGACTTT
    CCCCAGGGAA AAGAAAATCC AATGGTCCAG AGAACTTCTA CAATTTATTC CTCCACACTT
    GGAGTCTTCA TGTCTCGTAA AGTTTCTCCA CATTAG

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

    CloneID OHu77636
    Clone ID Related Accession (Same CDS sequence) XM_011540936.2 , XM_011540937.2
    Accession Version XM_011540936.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5022bp)
    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 sperm-associated antigen 17 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540936.1. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCAGTCCA AGTTGCCACT GTGGGAATTT CTTCAATTCC CTCTACCCCC ACCATGGAAC 
    AACACTAAAC GTCTAGCTAC AATTCATGAG CTTATGCACT TTTGTACGAG TGATGTCTTG
    AGCTGGAATG AAGTAGAACG AGCCTTCAAG GTGTTTACTT TTGAGAGCCT GAAGCTCTCT
    GAGGTTGATG AAAAAGGGAA ACTGAAACCT TCTGGGATGA TGTGTGGGTC AGATTCTGAA
    ATGTTCAACA TACCGTGGGA CAACCCTGCC AGATTTGCTA AACAGATAAG GCAGCAATAT
    GTCATGAAAA TGAATACTCA AGAGGCCAAG CAGAAAGCAG ATATTAAAAT CAAAGACAGA
    ACACTATTTG TGGATCAGAA TTTGTCAATG TCTGTGCAAG ATAATGAAAG CAACCGAGAA
    CCTTCAGATC CTAGTCAGTG TGATGCTAAC AATATGAAGC ATTCTGACTT GAATAATCTC
    AAACTCTCAG TCCCTGATAA TAGACAGCTG TTAGAGCAGG AGAGCATCAT GAAGGCTCAG
    CCCCAACATG AGTCTCTGGA GCAGACCACA AACAATGAGA TCAAAGATGA TGCAGTCACA
    AAGGCTGATT CTCATGAAAA GAAACCCAAG AAGATGATGG TGGAAGCAGA TTTAGAGGAC
    ATAAAGAAAA CACAGCAGCG CAGTCTAATG GACTGGAGTT TTACTGAACA TTTTAAACCG
    AAAGTACTGC TTCAGGTCCT TCAAGAAGCC CATAAGCAAT ATAGGTGTGT TGATTCTTAC
    TACCACACCC AAGACAACTC TTTACTTTTA GTCTTTCACA ATCCAATGAA TAGACAACGT
    TTGCATTGTG AATATTGGAA CATTGCTCTC CACTCCAATG TTGGATTCAG GAATTATTTG
    GAACTTGTTG CAAAATCTAT TCAAGATTGG ATTACAAAAG AAGAAGCTAT ATATCAGGAA
    TCTAAAATGA ATGAGAAAAT CATCAGGACC AGAGCTGAGC TGGAATTGAA ATCTTCTGCT
    AATGCCAAAC TTACTTCTGC TAGCAAAATT TTTTCCATTA AAGAATCTAA AAGTAACAAA
    GGAATCAGCA AAACAGAGAT ATCAGATCAA GAAAAAGAAA AAGAGAAGGA AAAGATTCCT
    TTCATTTTAG AAGGCTCTCT CAAGGCATGG AAAGAAGAGC AACATCGATT AGCAGAAGAG
    GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA
    GGCAAGGATA ACGCAGAGAA AGAGGATAGT AGGTCTTTGA AGAAAAAATC ACCTTACAAG
    GAGAAATCTA AAGAAGAACA AGTCAAGATC CAAGAAGTAA CAGAAGAGTC CCCCCACCAA
    CCAGAACCTA AGATAACTTA CCCGTTTCAC GGATACAATA TGGGAAATAT ACCCACTCAA
    ATCTCAGGGT CAAATTACTA CCTGTATCCT TCTGATGGGG GGCAGATTGA AGTGGAAAAG
    ACAATGTTTG AAAAAGGCCC AACTTTTATC AAAGTGAGAG TGGTAAAGGA CAACCACAAT
    TTTATGATTC ATTTAAATGA CCCTAAGGAA ATTGTGAAAA AGGAAGAGAA AGGGGATTAT
    TATTTAGAAG AGGAAGAAGA AGGAGATGAG GAACAAAGTC TTGAAACGGA AGTATCAGAT
    GCAAAGAATA AAGCTTTCAG CAAGTTTGGA TCTTTTTCTG CCACCTTAGA AAATGGAATC
    TGCCTCTCGA TAAGTTACTA TGGATCAAAT GGAATGGCAC CAGAAGATAA GGATCCTGAT
    TTAGAAACAA TATTGAATAT CCCTTCAGCA CTCACTCCAA CAGTGGTTCC TGTTATAGTG
    ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA ATAAAAGGCA AAGAAAAACC CAAAGAATCC
    CTTAAAGAAG AAGAACACCC AAAAGAAGAA GAGAAAAAGG AAGAAGAAGT AGAACCAGAA
    CCTGTTTTAC AAGAGACTTT GGATGTTCCC ACCTTCCAGA GCCTAAATGT GTCTTGCCCC
    AGTGGGCTCC TGTTGACTTT CATTGGACAA GAATCTACAG GTCAATATGT TATAGATGAG
    GAACCCACCT GGGACATCAT GGTCCGTCAG AGCTACCCCC AGAGGGTGAA GCACTATGAG
    TTCTATAAAA CGGTGATGCC ACCCGCAGAG CAGGAGGCTT CAAGGGTTAT CACCAGTCAA
    GGCACTGTTG TCAAATATAT GTTGGATGGA TCCACACAGA TTCTCTTTGC AGATGGTGCT
    GTGAGCAGGA GTCCCAATTC AGGTCTTATT TGTCCTCCTT CTGAAATGCC AGCAACGCCT
    CACAGTGGAG ATTTGATGGA CTCTATTTCT CAGCAGAAAT CAGAAACGAT ACCATCTGAG
    ATTACCAACA CAAAGAAAGG AAAAAGTCAC AAAAGTCAGT CATCAATGGC CCATAAGGGT
    GAAATCCATG ACCCTCCTCC AGAGGCAGTT CAAACTGTAA CTCCTGTGGA GGTTCACATA
    GGCACCTGGT TTACAACCAC ACCTGAAGGA AATCGGATCG GCACCAAAGG ATTAGAAAGA
    ATAGCAGACT TGACCCCATT GTTATCCTTT CAGGCCACAG ATCCTGTCAA TGGAACGGTT
    ATGACAACTC GAGAAGACAA AGTTGTCATA GTTGAAAGGA AAGATGGTAC TCGGATAGTG
    GATCATGCTG ATGGTACCAG AATCACAACC TTTTATCAAG TTTATGAAGA TCAAATTATT
    CTGCCAGATG ATCAAGAAAC AACCGAGGGT CCTCGGACTG TCACCAGGCA GGTGAAGTGT
    ATGCGGGTAG AAAGCTCACG CTATGCCACT GTTATCGCCA ACTGTGAGGA CAGTAGCTGC
    TGTGCCACCT TTGGAGATGG AACAACTATT ATTGCAAAGC CACAGGGAAC ATACCAGGTG
    TTACCTCCAA ACACAGGCTC TCTTTATATT GACAAGGATT GTTCAGCTGT GTACTGCCAT
    GAGTCAAGCA GTAATATATA CTATCCTTTT CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG
    TACATCATGA GGCATACTTC AGAGGTTATC TGTGAGGTTC TGGATCCTGA GGGAAACACT
    TTTCAGGTCA TGGCTGATGG TAGCATATCA ACTATATTAC CTGAAAAAAA ATTGGAAGAT
    GATTTAAATG AGAAAACTGA GGGCTATGAT AGTCTGTCCT CTATGCACCT TGAAAAGAAT
    CATCAGCAAA TCTATGGTGA ACATGTCCCC AGGTTTTTTG TTATGTATGC TGATGGATCA
    GGAATGGAAC TTCTTCGAGA CAGTGACATA GAAGAATATC TATCTTTGGC ATATAAAGAA
    TCAAATACTG TTGTTCTCCA AGAGCCAGTG CAGGAACAGC CAGGCACCCT AACCATCACA
    GTCCTTCGCC CTTTCCATGA AGCATCACCA TGGCAAGTAA AAAAGGAAGA TACAATTGTC
    CCTCCTAATC TCCGGTCAAG GTCATGGGAA ACATTTCCCT CAGTTGAGAA AAAAACTCCA
    GGACCTCCGT TTGGTACTCA GATTTGGAAA GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG
    AGTGCCCCGG GTGCCATACT CAAGAGCCCC AGTGTGCTAC AGATGCGCCA ATTCATTCAG
    CATGAGGTCA TAAAGAATGA GGTGAAACTG AGGCTGCAGG TTTCCCTTAA GGATTACATA
    AACTATATTC TAAAGAAAGA AGATGAGCTG CAGGAAATGA TGGTTAAAGA TTCCAGAACT
    GAGGAGGAGA GAGGCAATGC TGCTGATCTC CTCAAGCTGG TTATGTCTTT CCCTAAAATG
    GAGGAAACTA CAAAAAGTCA TGTTACTGAA GTTGCAGCTC ACCTAACTGA TTTATTCAAG
    CAGTCTTTGG CTACGCCTCC AAAATGCCCA CCAGACACAT TTGGTAAAGA TTTCTTTGAA
    AAGACATGGA GACACACAGC ATCCTCAAAA CGCTGGAAAG AAAAGATAGA CAAAACGAGG
    AAGGAAATTG AGACAACACA GAATTACCTA ATGGATATTA AGAACCGCAT AATACCACCC
    TTTTTTAAAT CTGAATTGAA CCAGTTATAT CAGTCTCAGT ATAATCACCT GGACAGTCTT
    TCCAAAAAAC TGCCTTCTTT TACAAAGAAA AATGAAGATG CAAACGAAAC AGCTGTTCAA
    GATACATCTG ATCTTAATCT AGATTTCAAG CCACATAAGG TTTCAGAACA GAAATCCTCA
    AGTGTGCCTA GTCTTCCAAA ACCAGAGATT TCTGCAGATA AGAAGGATTT CACTGCTCAG
    AACCAAACTG AAAATTTAAC AAAATCTCCT GAAGAAGCAG AATCTTATGA GCCCGTGAAA
    ATTCCAACCC AGTCCTTGCT GCAGGATGTT GCGGGACAAA CAAGAAAAGA AAAAGTGAAG
    TTGCCTCATT ATTTGCTGAG TTCCAAGCCT AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT
    TCTGTTGGAG GAAAAGTGAA CACATCCTCT GTTGCATCTG CTGCCATTAA TAATGCAAAG
    TCATCCCTTT TTGGGTTCCA TCTTCTCCCA TCATCAGTCA AGTTTGGAGT GCTTAAGGAA
    GGACATACCT ATGCCACAGT TGTAAAGCTC AAGAATGTTG GAGTGGACTT CTGCAGGTTT
    AAAGTAAAGC AGCCCCCACC CAGCACAGGA CTGAAAGTGA CTTACAAACC TGGACCTGTG
    GCAGCTGGTA TGCAGACAGA ACTGAATATA GAGTTATTTG CCACAGCTGT TGGAGAGGAT
    GGGGCCAAGG GATCAGCACA CATCTCTCAC AATATCGAGA TTATGACAGA GCATGAGGTT
    CTGTTCCTAC CTGTGGAAGC AACTGTTTTA ACAAGCAGCA ATTATGATAA ACGACCAAAA
    GACTTTCCCC AGGGAAAAGA AAATCCAATG GTCCAGAGAA CTTCTACAAT TTATTCCTCC
    ACACTTGGAG TCTTCATGTC TCGTAAAGTT TCTCCACATT AG

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

    RefSeq XP_011539238.1
    CDS377..5398
    Translation

    Target ORF information:

    RefSeq Version XM_011540936.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540936.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCAGTCCA AGTTGCCACT GTGGGAATTT CTTCAATTCC CTCTACCCCC ACCATGGAAC 
    AACACTAAAC GTCTAGCTAC AATTCATGAG CTTATGCACT TTTGTACGAG TGATGTCTTG
    AGCTGGAATG AAGTAGAACG AGCCTTCAAG GTGTTTACTT TTGAGAGCCT GAAGCTCTCT
    GAGGTTGATG AAAAAGGGAA ACTGAAACCT TCTGGGATGA TGTGTGGGTC AGATTCTGAA
    ATGTTCAACA TACCGTGGGA CAACCCTGCC AGATTTGCTA AACAGATAAG GCAGCAATAT
    GTCATGAAAA TGAATACTCA AGAGGCCAAG CAGAAAGCAG ATATTAAAAT CAAAGACAGA
    ACACTATTTG TGGATCAGAA TTTGTCAATG TCTGTGCAAG ATAATGAAAG CAACCGAGAA
    CCTTCAGATC CTAGTCAGTG TGATGCTAAC AATATGAAGC ATTCTGACTT GAATAATCTC
    AAACTCTCAG TCCCTGATAA TAGACAGCTG TTAGAGCAGG AGAGCATCAT GAAGGCTCAG
    CCCCAACATG AGTCTCTGGA GCAGACCACA AACAATGAGA TCAAAGATGA TGCAGTCACA
    AAGGCTGATT CTCATGAAAA GAAACCCAAG AAGATGATGG TGGAAGCAGA TTTAGAGGAC
    ATAAAGAAAA CACAGCAGCG CAGTCTAATG GACTGGAGTT TTACTGAACA TTTTAAACCG
    AAAGTACTGC TTCAGGTCCT TCAAGAAGCC CATAAGCAAT ATAGGTGTGT TGATTCTTAC
    TACCACACCC AAGACAACTC TTTACTTTTA GTCTTTCACA ATCCAATGAA TAGACAACGT
    TTGCATTGTG AATATTGGAA CATTGCTCTC CACTCCAATG TTGGATTCAG GAATTATTTG
    GAACTTGTTG CAAAATCTAT TCAAGATTGG ATTACAAAAG AAGAAGCTAT ATATCAGGAA
    TCTAAAATGA ATGAGAAAAT CATCAGGACC AGAGCTGAGC TGGAATTGAA ATCTTCTGCT
    AATGCCAAAC TTACTTCTGC TAGCAAAATT TTTTCCATTA AAGAATCTAA AAGTAACAAA
    GGAATCAGCA AAACAGAGAT ATCAGATCAA GAAAAAGAAA AAGAGAAGGA AAAGATTCCT
    TTCATTTTAG AAGGCTCTCT CAAGGCATGG AAAGAAGAGC AACATCGATT AGCAGAAGAG
    GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA
    GGCAAGGATA ACGCAGAGAA AGAGGATAGT AGGTCTTTGA AGAAAAAATC ACCTTACAAG
    GAGAAATCTA AAGAAGAACA AGTCAAGATC CAAGAAGTAA CAGAAGAGTC CCCCCACCAA
    CCAGAACCTA AGATAACTTA CCCGTTTCAC GGATACAATA TGGGAAATAT ACCCACTCAA
    ATCTCAGGGT CAAATTACTA CCTGTATCCT TCTGATGGGG GGCAGATTGA AGTGGAAAAG
    ACAATGTTTG AAAAAGGCCC AACTTTTATC AAAGTGAGAG TGGTAAAGGA CAACCACAAT
    TTTATGATTC ATTTAAATGA CCCTAAGGAA ATTGTGAAAA AGGAAGAGAA AGGGGATTAT
    TATTTAGAAG AGGAAGAAGA AGGAGATGAG GAACAAAGTC TTGAAACGGA AGTATCAGAT
    GCAAAGAATA AAGCTTTCAG CAAGTTTGGA TCTTTTTCTG CCACCTTAGA AAATGGAATC
    TGCCTCTCGA TAAGTTACTA TGGATCAAAT GGAATGGCAC CAGAAGATAA GGATCCTGAT
    TTAGAAACAA TATTGAATAT CCCTTCAGCA CTCACTCCAA CAGTGGTTCC TGTTATAGTG
    ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA ATAAAAGGCA AAGAAAAACC CAAAGAATCC
    CTTAAAGAAG AAGAACACCC AAAAGAAGAA GAGAAAAAGG AAGAAGAAGT AGAACCAGAA
    CCTGTTTTAC AAGAGACTTT GGATGTTCCC ACCTTCCAGA GCCTAAATGT GTCTTGCCCC
    AGTGGGCTCC TGTTGACTTT CATTGGACAA GAATCTACAG GTCAATATGT TATAGATGAG
    GAACCCACCT GGGACATCAT GGTCCGTCAG AGCTACCCCC AGAGGGTGAA GCACTATGAG
    TTCTATAAAA CGGTGATGCC ACCCGCAGAG CAGGAGGCTT CAAGGGTTAT CACCAGTCAA
    GGCACTGTTG TCAAATATAT GTTGGATGGA TCCACACAGA TTCTCTTTGC AGATGGTGCT
    GTGAGCAGGA GTCCCAATTC AGGTCTTATT TGTCCTCCTT CTGAAATGCC AGCAACGCCT
    CACAGTGGAG ATTTGATGGA CTCTATTTCT CAGCAGAAAT CAGAAACGAT ACCATCTGAG
    ATTACCAACA CAAAGAAAGG AAAAAGTCAC AAAAGTCAGT CATCAATGGC CCATAAGGGT
    GAAATCCATG ACCCTCCTCC AGAGGCAGTT CAAACTGTAA CTCCTGTGGA GGTTCACATA
    GGCACCTGGT TTACAACCAC ACCTGAAGGA AATCGGATCG GCACCAAAGG ATTAGAAAGA
    ATAGCAGACT TGACCCCATT GTTATCCTTT CAGGCCACAG ATCCTGTCAA TGGAACGGTT
    ATGACAACTC GAGAAGACAA AGTTGTCATA GTTGAAAGGA AAGATGGTAC TCGGATAGTG
    GATCATGCTG ATGGTACCAG AATCACAACC TTTTATCAAG TTTATGAAGA TCAAATTATT
    CTGCCAGATG ATCAAGAAAC AACCGAGGGT CCTCGGACTG TCACCAGGCA GGTGAAGTGT
    ATGCGGGTAG AAAGCTCACG CTATGCCACT GTTATCGCCA ACTGTGAGGA CAGTAGCTGC
    TGTGCCACCT TTGGAGATGG AACAACTATT ATTGCAAAGC CACAGGGAAC ATACCAGGTG
    TTACCTCCAA ACACAGGCTC TCTTTATATT GACAAGGATT GTTCAGCTGT GTACTGCCAT
    GAGTCAAGCA GTAATATATA CTATCCTTTT CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG
    TACATCATGA GGCATACTTC AGAGGTTATC TGTGAGGTTC TGGATCCTGA GGGAAACACT
    TTTCAGGTCA TGGCTGATGG TAGCATATCA ACTATATTAC CTGAAAAAAA ATTGGAAGAT
    GATTTAAATG AGAAAACTGA GGGCTATGAT AGTCTGTCCT CTATGCACCT TGAAAAGAAT
    CATCAGCAAA TCTATGGTGA ACATGTCCCC AGGTTTTTTG TTATGTATGC TGATGGATCA
    GGAATGGAAC TTCTTCGAGA CAGTGACATA GAAGAATATC TATCTTTGGC ATATAAAGAA
    TCAAATACTG TTGTTCTCCA AGAGCCAGTG CAGGAACAGC CAGGCACCCT AACCATCACA
    GTCCTTCGCC CTTTCCATGA AGCATCACCA TGGCAAGTAA AAAAGGAAGA TACAATTGTC
    CCTCCTAATC TCCGGTCAAG GTCATGGGAA ACATTTCCCT CAGTTGAGAA AAAAACTCCA
    GGACCTCCGT TTGGTACTCA GATTTGGAAA GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG
    AGTGCCCCGG GTGCCATACT CAAGAGCCCC AGTGTGCTAC AGATGCGCCA ATTCATTCAG
    CATGAGGTCA TAAAGAATGA GGTGAAACTG AGGCTGCAGG TTTCCCTTAA GGATTACATA
    AACTATATTC TAAAGAAAGA AGATGAGCTG CAGGAAATGA TGGTTAAAGA TTCCAGAACT
    GAGGAGGAGA GAGGCAATGC TGCTGATCTC CTCAAGCTGG TTATGTCTTT CCCTAAAATG
    GAGGAAACTA CAAAAAGTCA TGTTACTGAA GTTGCAGCTC ACCTAACTGA TTTATTCAAG
    CAGTCTTTGG CTACGCCTCC AAAATGCCCA CCAGACACAT TTGGTAAAGA TTTCTTTGAA
    AAGACATGGA GACACACAGC ATCCTCAAAA CGCTGGAAAG AAAAGATAGA CAAAACGAGG
    AAGGAAATTG AGACAACACA GAATTACCTA ATGGATATTA AGAACCGCAT AATACCACCC
    TTTTTTAAAT CTGAATTGAA CCAGTTATAT CAGTCTCAGT ATAATCACCT GGACAGTCTT
    TCCAAAAAAC TGCCTTCTTT TACAAAGAAA AATGAAGATG CAAACGAAAC AGCTGTTCAA
    GATACATCTG ATCTTAATCT AGATTTCAAG CCACATAAGG TTTCAGAACA GAAATCCTCA
    AGTGTGCCTA GTCTTCCAAA ACCAGAGATT TCTGCAGATA AGAAGGATTT CACTGCTCAG
    AACCAAACTG AAAATTTAAC AAAATCTCCT GAAGAAGCAG AATCTTATGA GCCCGTGAAA
    ATTCCAACCC AGTCCTTGCT GCAGGATGTT GCGGGACAAA CAAGAAAAGA AAAAGTGAAG
    TTGCCTCATT ATTTGCTGAG TTCCAAGCCT AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT
    TCTGTTGGAG GAAAAGTGAA CACATCCTCT GTTGCATCTG CTGCCATTAA TAATGCAAAG
    TCATCCCTTT TTGGGTTCCA TCTTCTCCCA TCATCAGTCA AGTTTGGAGT GCTTAAGGAA
    GGACATACCT ATGCCACAGT TGTAAAGCTC AAGAATGTTG GAGTGGACTT CTGCAGGTTT
    AAAGTAAAGC AGCCCCCACC CAGCACAGGA CTGAAAGTGA CTTACAAACC TGGACCTGTG
    GCAGCTGGTA TGCAGACAGA ACTGAATATA GAGTTATTTG CCACAGCTGT TGGAGAGGAT
    GGGGCCAAGG GATCAGCACA CATCTCTCAC AATATCGAGA TTATGACAGA GCATGAGGTT
    CTGTTCCTAC CTGTGGAAGC AACTGTTTTA ACAAGCAGCA ATTATGATAA ACGACCAAAA
    GACTTTCCCC AGGGAAAAGA AAATCCAATG GTCCAGAGAA CTTCTACAAT TTATTCCTCC
    ACACTTGGAG TCTTCATGTC TCGTAAAGTT TCTCCACATT AG

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

    CloneID OHu77636
    Clone ID Related Accession (Same CDS sequence) XM_011540936.2 , XM_011540937.2
    Accession Version XM_011540937.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5022bp)
    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 sperm-associated antigen 17 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540937.1. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCAGTCCA AGTTGCCACT GTGGGAATTT CTTCAATTCC CTCTACCCCC ACCATGGAAC 
    AACACTAAAC GTCTAGCTAC AATTCATGAG CTTATGCACT TTTGTACGAG TGATGTCTTG
    AGCTGGAATG AAGTAGAACG AGCCTTCAAG GTGTTTACTT TTGAGAGCCT GAAGCTCTCT
    GAGGTTGATG AAAAAGGGAA ACTGAAACCT TCTGGGATGA TGTGTGGGTC AGATTCTGAA
    ATGTTCAACA TACCGTGGGA CAACCCTGCC AGATTTGCTA AACAGATAAG GCAGCAATAT
    GTCATGAAAA TGAATACTCA AGAGGCCAAG CAGAAAGCAG ATATTAAAAT CAAAGACAGA
    ACACTATTTG TGGATCAGAA TTTGTCAATG TCTGTGCAAG ATAATGAAAG CAACCGAGAA
    CCTTCAGATC CTAGTCAGTG TGATGCTAAC AATATGAAGC ATTCTGACTT GAATAATCTC
    AAACTCTCAG TCCCTGATAA TAGACAGCTG TTAGAGCAGG AGAGCATCAT GAAGGCTCAG
    CCCCAACATG AGTCTCTGGA GCAGACCACA AACAATGAGA TCAAAGATGA TGCAGTCACA
    AAGGCTGATT CTCATGAAAA GAAACCCAAG AAGATGATGG TGGAAGCAGA TTTAGAGGAC
    ATAAAGAAAA CACAGCAGCG CAGTCTAATG GACTGGAGTT TTACTGAACA TTTTAAACCG
    AAAGTACTGC TTCAGGTCCT TCAAGAAGCC CATAAGCAAT ATAGGTGTGT TGATTCTTAC
    TACCACACCC AAGACAACTC TTTACTTTTA GTCTTTCACA ATCCAATGAA TAGACAACGT
    TTGCATTGTG AATATTGGAA CATTGCTCTC CACTCCAATG TTGGATTCAG GAATTATTTG
    GAACTTGTTG CAAAATCTAT TCAAGATTGG ATTACAAAAG AAGAAGCTAT ATATCAGGAA
    TCTAAAATGA ATGAGAAAAT CATCAGGACC AGAGCTGAGC TGGAATTGAA ATCTTCTGCT
    AATGCCAAAC TTACTTCTGC TAGCAAAATT TTTTCCATTA AAGAATCTAA AAGTAACAAA
    GGAATCAGCA AAACAGAGAT ATCAGATCAA GAAAAAGAAA AAGAGAAGGA AAAGATTCCT
    TTCATTTTAG AAGGCTCTCT CAAGGCATGG AAAGAAGAGC AACATCGATT AGCAGAAGAG
    GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA
    GGCAAGGATA ACGCAGAGAA AGAGGATAGT AGGTCTTTGA AGAAAAAATC ACCTTACAAG
    GAGAAATCTA AAGAAGAACA AGTCAAGATC CAAGAAGTAA CAGAAGAGTC CCCCCACCAA
    CCAGAACCTA AGATAACTTA CCCGTTTCAC GGATACAATA TGGGAAATAT ACCCACTCAA
    ATCTCAGGGT CAAATTACTA CCTGTATCCT TCTGATGGGG GGCAGATTGA AGTGGAAAAG
    ACAATGTTTG AAAAAGGCCC AACTTTTATC AAAGTGAGAG TGGTAAAGGA CAACCACAAT
    TTTATGATTC ATTTAAATGA CCCTAAGGAA ATTGTGAAAA AGGAAGAGAA AGGGGATTAT
    TATTTAGAAG AGGAAGAAGA AGGAGATGAG GAACAAAGTC TTGAAACGGA AGTATCAGAT
    GCAAAGAATA AAGCTTTCAG CAAGTTTGGA TCTTTTTCTG CCACCTTAGA AAATGGAATC
    TGCCTCTCGA TAAGTTACTA TGGATCAAAT GGAATGGCAC CAGAAGATAA GGATCCTGAT
    TTAGAAACAA TATTGAATAT CCCTTCAGCA CTCACTCCAA CAGTGGTTCC TGTTATAGTG
    ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA ATAAAAGGCA AAGAAAAACC CAAAGAATCC
    CTTAAAGAAG AAGAACACCC AAAAGAAGAA GAGAAAAAGG AAGAAGAAGT AGAACCAGAA
    CCTGTTTTAC AAGAGACTTT GGATGTTCCC ACCTTCCAGA GCCTAAATGT GTCTTGCCCC
    AGTGGGCTCC TGTTGACTTT CATTGGACAA GAATCTACAG GTCAATATGT TATAGATGAG
    GAACCCACCT GGGACATCAT GGTCCGTCAG AGCTACCCCC AGAGGGTGAA GCACTATGAG
    TTCTATAAAA CGGTGATGCC ACCCGCAGAG CAGGAGGCTT CAAGGGTTAT CACCAGTCAA
    GGCACTGTTG TCAAATATAT GTTGGATGGA TCCACACAGA TTCTCTTTGC AGATGGTGCT
    GTGAGCAGGA GTCCCAATTC AGGTCTTATT TGTCCTCCTT CTGAAATGCC AGCAACGCCT
    CACAGTGGAG ATTTGATGGA CTCTATTTCT CAGCAGAAAT CAGAAACGAT ACCATCTGAG
    ATTACCAACA CAAAGAAAGG AAAAAGTCAC AAAAGTCAGT CATCAATGGC CCATAAGGGT
    GAAATCCATG ACCCTCCTCC AGAGGCAGTT CAAACTGTAA CTCCTGTGGA GGTTCACATA
    GGCACCTGGT TTACAACCAC ACCTGAAGGA AATCGGATCG GCACCAAAGG ATTAGAAAGA
    ATAGCAGACT TGACCCCATT GTTATCCTTT CAGGCCACAG ATCCTGTCAA TGGAACGGTT
    ATGACAACTC GAGAAGACAA AGTTGTCATA GTTGAAAGGA AAGATGGTAC TCGGATAGTG
    GATCATGCTG ATGGTACCAG AATCACAACC TTTTATCAAG TTTATGAAGA TCAAATTATT
    CTGCCAGATG ATCAAGAAAC AACCGAGGGT CCTCGGACTG TCACCAGGCA GGTGAAGTGT
    ATGCGGGTAG AAAGCTCACG CTATGCCACT GTTATCGCCA ACTGTGAGGA CAGTAGCTGC
    TGTGCCACCT TTGGAGATGG AACAACTATT ATTGCAAAGC CACAGGGAAC ATACCAGGTG
    TTACCTCCAA ACACAGGCTC TCTTTATATT GACAAGGATT GTTCAGCTGT GTACTGCCAT
    GAGTCAAGCA GTAATATATA CTATCCTTTT CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG
    TACATCATGA GGCATACTTC AGAGGTTATC TGTGAGGTTC TGGATCCTGA GGGAAACACT
    TTTCAGGTCA TGGCTGATGG TAGCATATCA ACTATATTAC CTGAAAAAAA ATTGGAAGAT
    GATTTAAATG AGAAAACTGA GGGCTATGAT AGTCTGTCCT CTATGCACCT TGAAAAGAAT
    CATCAGCAAA TCTATGGTGA ACATGTCCCC AGGTTTTTTG TTATGTATGC TGATGGATCA
    GGAATGGAAC TTCTTCGAGA CAGTGACATA GAAGAATATC TATCTTTGGC ATATAAAGAA
    TCAAATACTG TTGTTCTCCA AGAGCCAGTG CAGGAACAGC CAGGCACCCT AACCATCACA
    GTCCTTCGCC CTTTCCATGA AGCATCACCA TGGCAAGTAA AAAAGGAAGA TACAATTGTC
    CCTCCTAATC TCCGGTCAAG GTCATGGGAA ACATTTCCCT CAGTTGAGAA AAAAACTCCA
    GGACCTCCGT TTGGTACTCA GATTTGGAAA GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG
    AGTGCCCCGG GTGCCATACT CAAGAGCCCC AGTGTGCTAC AGATGCGCCA ATTCATTCAG
    CATGAGGTCA TAAAGAATGA GGTGAAACTG AGGCTGCAGG TTTCCCTTAA GGATTACATA
    AACTATATTC TAAAGAAAGA AGATGAGCTG CAGGAAATGA TGGTTAAAGA TTCCAGAACT
    GAGGAGGAGA GAGGCAATGC TGCTGATCTC CTCAAGCTGG TTATGTCTTT CCCTAAAATG
    GAGGAAACTA CAAAAAGTCA TGTTACTGAA GTTGCAGCTC ACCTAACTGA TTTATTCAAG
    CAGTCTTTGG CTACGCCTCC AAAATGCCCA CCAGACACAT TTGGTAAAGA TTTCTTTGAA
    AAGACATGGA GACACACAGC ATCCTCAAAA CGCTGGAAAG AAAAGATAGA CAAAACGAGG
    AAGGAAATTG AGACAACACA GAATTACCTA ATGGATATTA AGAACCGCAT AATACCACCC
    TTTTTTAAAT CTGAATTGAA CCAGTTATAT CAGTCTCAGT ATAATCACCT GGACAGTCTT
    TCCAAAAAAC TGCCTTCTTT TACAAAGAAA AATGAAGATG CAAACGAAAC AGCTGTTCAA
    GATACATCTG ATCTTAATCT AGATTTCAAG CCACATAAGG TTTCAGAACA GAAATCCTCA
    AGTGTGCCTA GTCTTCCAAA ACCAGAGATT TCTGCAGATA AGAAGGATTT CACTGCTCAG
    AACCAAACTG AAAATTTAAC AAAATCTCCT GAAGAAGCAG AATCTTATGA GCCCGTGAAA
    ATTCCAACCC AGTCCTTGCT GCAGGATGTT GCGGGACAAA CAAGAAAAGA AAAAGTGAAG
    TTGCCTCATT ATTTGCTGAG TTCCAAGCCT AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT
    TCTGTTGGAG GAAAAGTGAA CACATCCTCT GTTGCATCTG CTGCCATTAA TAATGCAAAG
    TCATCCCTTT TTGGGTTCCA TCTTCTCCCA TCATCAGTCA AGTTTGGAGT GCTTAAGGAA
    GGACATACCT ATGCCACAGT TGTAAAGCTC AAGAATGTTG GAGTGGACTT CTGCAGGTTT
    AAAGTAAAGC AGCCCCCACC CAGCACAGGA CTGAAAGTGA CTTACAAACC TGGACCTGTG
    GCAGCTGGTA TGCAGACAGA ACTGAATATA GAGTTATTTG CCACAGCTGT TGGAGAGGAT
    GGGGCCAAGG GATCAGCACA CATCTCTCAC AATATCGAGA TTATGACAGA GCATGAGGTT
    CTGTTCCTAC CTGTGGAAGC AACTGTTTTA ACAAGCAGCA ATTATGATAA ACGACCAAAA
    GACTTTCCCC AGGGAAAAGA AAATCCAATG GTCCAGAGAA CTTCTACAAT TTATTCCTCC
    ACACTTGGAG TCTTCATGTC TCGTAAAGTT TCTCCACATT AG

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

    RefSeq XP_011539239.1
    CDS543..5564
    Translation

    Target ORF information:

    RefSeq Version XM_011540937.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540937.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCAGTCCA AGTTGCCACT GTGGGAATTT CTTCAATTCC CTCTACCCCC ACCATGGAAC 
    AACACTAAAC GTCTAGCTAC AATTCATGAG CTTATGCACT TTTGTACGAG TGATGTCTTG
    AGCTGGAATG AAGTAGAACG AGCCTTCAAG GTGTTTACTT TTGAGAGCCT GAAGCTCTCT
    GAGGTTGATG AAAAAGGGAA ACTGAAACCT TCTGGGATGA TGTGTGGGTC AGATTCTGAA
    ATGTTCAACA TACCGTGGGA CAACCCTGCC AGATTTGCTA AACAGATAAG GCAGCAATAT
    GTCATGAAAA TGAATACTCA AGAGGCCAAG CAGAAAGCAG ATATTAAAAT CAAAGACAGA
    ACACTATTTG TGGATCAGAA TTTGTCAATG TCTGTGCAAG ATAATGAAAG CAACCGAGAA
    CCTTCAGATC CTAGTCAGTG TGATGCTAAC AATATGAAGC ATTCTGACTT GAATAATCTC
    AAACTCTCAG TCCCTGATAA TAGACAGCTG TTAGAGCAGG AGAGCATCAT GAAGGCTCAG
    CCCCAACATG AGTCTCTGGA GCAGACCACA AACAATGAGA TCAAAGATGA TGCAGTCACA
    AAGGCTGATT CTCATGAAAA GAAACCCAAG AAGATGATGG TGGAAGCAGA TTTAGAGGAC
    ATAAAGAAAA CACAGCAGCG CAGTCTAATG GACTGGAGTT TTACTGAACA TTTTAAACCG
    AAAGTACTGC TTCAGGTCCT TCAAGAAGCC CATAAGCAAT ATAGGTGTGT TGATTCTTAC
    TACCACACCC AAGACAACTC TTTACTTTTA GTCTTTCACA ATCCAATGAA TAGACAACGT
    TTGCATTGTG AATATTGGAA CATTGCTCTC CACTCCAATG TTGGATTCAG GAATTATTTG
    GAACTTGTTG CAAAATCTAT TCAAGATTGG ATTACAAAAG AAGAAGCTAT ATATCAGGAA
    TCTAAAATGA ATGAGAAAAT CATCAGGACC AGAGCTGAGC TGGAATTGAA ATCTTCTGCT
    AATGCCAAAC TTACTTCTGC TAGCAAAATT TTTTCCATTA AAGAATCTAA AAGTAACAAA
    GGAATCAGCA AAACAGAGAT ATCAGATCAA GAAAAAGAAA AAGAGAAGGA AAAGATTCCT
    TTCATTTTAG AAGGCTCTCT CAAGGCATGG AAAGAAGAGC AACATCGATT AGCAGAAGAG
    GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA
    GGCAAGGATA ACGCAGAGAA AGAGGATAGT AGGTCTTTGA AGAAAAAATC ACCTTACAAG
    GAGAAATCTA AAGAAGAACA AGTCAAGATC CAAGAAGTAA CAGAAGAGTC CCCCCACCAA
    CCAGAACCTA AGATAACTTA CCCGTTTCAC GGATACAATA TGGGAAATAT ACCCACTCAA
    ATCTCAGGGT CAAATTACTA CCTGTATCCT TCTGATGGGG GGCAGATTGA AGTGGAAAAG
    ACAATGTTTG AAAAAGGCCC AACTTTTATC AAAGTGAGAG TGGTAAAGGA CAACCACAAT
    TTTATGATTC ATTTAAATGA CCCTAAGGAA ATTGTGAAAA AGGAAGAGAA AGGGGATTAT
    TATTTAGAAG AGGAAGAAGA AGGAGATGAG GAACAAAGTC TTGAAACGGA AGTATCAGAT
    GCAAAGAATA AAGCTTTCAG CAAGTTTGGA TCTTTTTCTG CCACCTTAGA AAATGGAATC
    TGCCTCTCGA TAAGTTACTA TGGATCAAAT GGAATGGCAC CAGAAGATAA GGATCCTGAT
    TTAGAAACAA TATTGAATAT CCCTTCAGCA CTCACTCCAA CAGTGGTTCC TGTTATAGTG
    ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA ATAAAAGGCA AAGAAAAACC CAAAGAATCC
    CTTAAAGAAG AAGAACACCC AAAAGAAGAA GAGAAAAAGG AAGAAGAAGT AGAACCAGAA
    CCTGTTTTAC AAGAGACTTT GGATGTTCCC ACCTTCCAGA GCCTAAATGT GTCTTGCCCC
    AGTGGGCTCC TGTTGACTTT CATTGGACAA GAATCTACAG GTCAATATGT TATAGATGAG
    GAACCCACCT GGGACATCAT GGTCCGTCAG AGCTACCCCC AGAGGGTGAA GCACTATGAG
    TTCTATAAAA CGGTGATGCC ACCCGCAGAG CAGGAGGCTT CAAGGGTTAT CACCAGTCAA
    GGCACTGTTG TCAAATATAT GTTGGATGGA TCCACACAGA TTCTCTTTGC AGATGGTGCT
    GTGAGCAGGA GTCCCAATTC AGGTCTTATT TGTCCTCCTT CTGAAATGCC AGCAACGCCT
    CACAGTGGAG ATTTGATGGA CTCTATTTCT CAGCAGAAAT CAGAAACGAT ACCATCTGAG
    ATTACCAACA CAAAGAAAGG AAAAAGTCAC AAAAGTCAGT CATCAATGGC CCATAAGGGT
    GAAATCCATG ACCCTCCTCC AGAGGCAGTT CAAACTGTAA CTCCTGTGGA GGTTCACATA
    GGCACCTGGT TTACAACCAC ACCTGAAGGA AATCGGATCG GCACCAAAGG ATTAGAAAGA
    ATAGCAGACT TGACCCCATT GTTATCCTTT CAGGCCACAG ATCCTGTCAA TGGAACGGTT
    ATGACAACTC GAGAAGACAA AGTTGTCATA GTTGAAAGGA AAGATGGTAC TCGGATAGTG
    GATCATGCTG ATGGTACCAG AATCACAACC TTTTATCAAG TTTATGAAGA TCAAATTATT
    CTGCCAGATG ATCAAGAAAC AACCGAGGGT CCTCGGACTG TCACCAGGCA GGTGAAGTGT
    ATGCGGGTAG AAAGCTCACG CTATGCCACT GTTATCGCCA ACTGTGAGGA CAGTAGCTGC
    TGTGCCACCT TTGGAGATGG AACAACTATT ATTGCAAAGC CACAGGGAAC ATACCAGGTG
    TTACCTCCAA ACACAGGCTC TCTTTATATT GACAAGGATT GTTCAGCTGT GTACTGCCAT
    GAGTCAAGCA GTAATATATA CTATCCTTTT CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG
    TACATCATGA GGCATACTTC AGAGGTTATC TGTGAGGTTC TGGATCCTGA GGGAAACACT
    TTTCAGGTCA TGGCTGATGG TAGCATATCA ACTATATTAC CTGAAAAAAA ATTGGAAGAT
    GATTTAAATG AGAAAACTGA GGGCTATGAT AGTCTGTCCT CTATGCACCT TGAAAAGAAT
    CATCAGCAAA TCTATGGTGA ACATGTCCCC AGGTTTTTTG TTATGTATGC TGATGGATCA
    GGAATGGAAC TTCTTCGAGA CAGTGACATA GAAGAATATC TATCTTTGGC ATATAAAGAA
    TCAAATACTG TTGTTCTCCA AGAGCCAGTG CAGGAACAGC CAGGCACCCT AACCATCACA
    GTCCTTCGCC CTTTCCATGA AGCATCACCA TGGCAAGTAA AAAAGGAAGA TACAATTGTC
    CCTCCTAATC TCCGGTCAAG GTCATGGGAA ACATTTCCCT CAGTTGAGAA AAAAACTCCA
    GGACCTCCGT TTGGTACTCA GATTTGGAAA GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG
    AGTGCCCCGG GTGCCATACT CAAGAGCCCC AGTGTGCTAC AGATGCGCCA ATTCATTCAG
    CATGAGGTCA TAAAGAATGA GGTGAAACTG AGGCTGCAGG TTTCCCTTAA GGATTACATA
    AACTATATTC TAAAGAAAGA AGATGAGCTG CAGGAAATGA TGGTTAAAGA TTCCAGAACT
    GAGGAGGAGA GAGGCAATGC TGCTGATCTC CTCAAGCTGG TTATGTCTTT CCCTAAAATG
    GAGGAAACTA CAAAAAGTCA TGTTACTGAA GTTGCAGCTC ACCTAACTGA TTTATTCAAG
    CAGTCTTTGG CTACGCCTCC AAAATGCCCA CCAGACACAT TTGGTAAAGA TTTCTTTGAA
    AAGACATGGA GACACACAGC ATCCTCAAAA CGCTGGAAAG AAAAGATAGA CAAAACGAGG
    AAGGAAATTG AGACAACACA GAATTACCTA ATGGATATTA AGAACCGCAT AATACCACCC
    TTTTTTAAAT CTGAATTGAA CCAGTTATAT CAGTCTCAGT ATAATCACCT GGACAGTCTT
    TCCAAAAAAC TGCCTTCTTT TACAAAGAAA AATGAAGATG CAAACGAAAC AGCTGTTCAA
    GATACATCTG ATCTTAATCT AGATTTCAAG CCACATAAGG TTTCAGAACA GAAATCCTCA
    AGTGTGCCTA GTCTTCCAAA ACCAGAGATT TCTGCAGATA AGAAGGATTT CACTGCTCAG
    AACCAAACTG AAAATTTAAC AAAATCTCCT GAAGAAGCAG AATCTTATGA GCCCGTGAAA
    ATTCCAACCC AGTCCTTGCT GCAGGATGTT GCGGGACAAA CAAGAAAAGA AAAAGTGAAG
    TTGCCTCATT ATTTGCTGAG TTCCAAGCCT AAGTCTCAAC CTCTTGCAAA GGTGCAAGAT
    TCTGTTGGAG GAAAAGTGAA CACATCCTCT GTTGCATCTG CTGCCATTAA TAATGCAAAG
    TCATCCCTTT TTGGGTTCCA TCTTCTCCCA TCATCAGTCA AGTTTGGAGT GCTTAAGGAA
    GGACATACCT ATGCCACAGT TGTAAAGCTC AAGAATGTTG GAGTGGACTT CTGCAGGTTT
    AAAGTAAAGC AGCCCCCACC CAGCACAGGA CTGAAAGTGA CTTACAAACC TGGACCTGTG
    GCAGCTGGTA TGCAGACAGA ACTGAATATA GAGTTATTTG CCACAGCTGT TGGAGAGGAT
    GGGGCCAAGG GATCAGCACA CATCTCTCAC AATATCGAGA TTATGACAGA GCATGAGGTT
    CTGTTCCTAC CTGTGGAAGC AACTGTTTTA ACAAGCAGCA ATTATGATAA ACGACCAAAA
    GACTTTCCCC AGGGAAAAGA AAATCCAATG GTCCAGAGAA CTTCTACAAT TTATTCCTCC
    ACACTTGGAG TCTTCATGTC TCGTAAAGTT TCTCCACATT AG

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

    CloneID OHu77639
    Clone ID Related Accession (Same CDS sequence) XM_011540941.2 , XM_011540942.2
    Accession Version XM_011540941.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4389bp)
    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 sperm-associated antigen 17 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540941.1. ##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
    ATGATGGTGG AAGCAGATTT AGAGGACATA AAGAAAACAC AGCAGCGCAG TCTAATGGAC 
    TGGAGTTTTA CTGAACATTT TAAACCGAAA GTACTGCTTC AGGTCCTTCA AGAAGCCCAT
    AAGCAATATA GGTGTGTTGA TTCTTACTAC CACACCCAAG ACAACTCTTT ACTTTTAGTC
    TTTCACAATC CAATGAATAG ACAACGTTTG CATTGTGAAT ATTGGAACAT TGCTCTCCAC
    TCCAATGTTG GATTCAGGAA TTATTTGGAA CTTGTTGCAA AATCTATTCA AGATTGGATT
    ACAAAAGAAG AAGCTATATA TCAGGAATCT AAAATGAATG AGAAAATCAT CAGGACCAGA
    GCTGAGCTGG AATTGAAATC TTCTGCTAAT GCCAAACTTA CTTCTGCTAG CAAAATTTTT
    TCCATTAAAG AATCTAAAAG TAACAAAGGA ATCAGCAAAA CAGAGATATC AGATCAAGAA
    AAAGAAAAAG AGAAGGAAAA GATTCCTTTC ATTTTAGAAG GCTCTCTCAA GGCATGGAAA
    GAAGAGCAAC ATCGATTAGC AGAAGAGGAG CGCTTAAGGG AAGAAAAGAA AGCAGAGAAG
    AAGGGTAAAG AAGCTGGTAA AAAGAAAGGC AAGGATAACG CAGAGAAAGA GGATAGTAGG
    TCTTTGAAGA AAAAATCACC TTACAAGGAG AAATCTAAAG AAGAACAAGT CAAGATCCAA
    GAAGTAACAG AAGAGTCCCC CCACCAACCA GAACCTAAGA TAACTTACCC GTTTCACGGA
    TACAATATGG GAAATATACC CACTCAAATC TCAGGGTCAA ATTACTACCT GTATCCTTCT
    GATGGGGGGC AGATTGAAGT GGAAAAGACA ATGTTTGAAA AAGGCCCAAC TTTTATCAAA
    GTGAGAGTGG TAAAGGACAA CCACAATTTT ATGATTCATT TAAATGACCC TAAGGAAATT
    GTGAAAAAGG AAGAGAAAGG GGATTATTAT TTAGAAGAGG AAGAAGAAGG AGATGAGGAA
    CAAAGTCTTG AAACGGAAGT ATCAGATGCA AAGAATAAAG CTTTCAGCAA GTTTGGATCT
    TTTTCTGCCA CCTTAGAAAA TGGAATCTGC CTCTCGATAA GTTACTATGG ATCAAATGGA
    ATGGCACCAG AAGATAAGGA TCCTGATTTA GAAACAATAT TGAATATCCC TTCAGCACTC
    ACTCCAACAG TGGTTCCTGT TATAGTGACC GTTCCTCAAA GCAAAGCTAA AGGGAAAATA
    AAAGGCAAAG AAAAACCCAA AGAATCCCTT AAAGAAGAAG AACACCCAAA AGAAGAAGAG
    AAAAAGGAAG AAGAAGTAGA ACCAGAACCT GTTTTACAAG AGACTTTGGA TGTTCCCACC
    TTCCAGAGCC TAAATGTGTC TTGCCCCAGT GGGCTCCTGT TGACTTTCAT TGGACAAGAA
    TCTACAGGTC AATATGTTAT AGATGAGGAA CCCACCTGGG ACATCATGGT CCGTCAGAGC
    TACCCCCAGA GGGTGAAGCA CTATGAGTTC TATAAAACGG TGATGCCACC CGCAGAGCAG
    GAGGCTTCAA GGGTTATCAC CAGTCAAGGC ACTGTTGTCA AATATATGTT GGATGGATCC
    ACACAGATTC TCTTTGCAGA TGGTGCTGTG AGCAGGAGTC CCAATTCAGG TCTTATTTGT
    CCTCCTTCTG AAATGCCAGC AACGCCTCAC AGTGGAGATT TGATGGACTC TATTTCTCAG
    CAGAAATCAG AAACGATACC ATCTGAGATT ACCAACACAA AGAAAGGAAA AAGTCACAAA
    AGTCAGTCAT CAATGGCCCA TAAGGGTGAA ATCCATGACC CTCCTCCAGA GGCAGTTCAA
    ACTGTAACTC CTGTGGAGGT TCACATAGGC ACCTGGTTTA CAACCACACC TGAAGGAAAT
    CGGATCGGCA CCAAAGGATT AGAAAGAATA GCAGACTTGA CCCCATTGTT ATCCTTTCAG
    GCCACAGATC CTGTCAATGG AACGGTTATG ACAACTCGAG AAGACAAAGT TGTCATAGTT
    GAAAGGAAAG ATGGTACTCG GATAGTGGAT CATGCTGATG GTACCAGAAT CACAACCTTT
    TATCAAGTTT ATGAAGATCA AATTATTCTG CCAGATGATC AAGAAACAAC CGAGGGTCCT
    CGGACTGTCA CCAGGCAGGT GAAGTGTATG CGGGTAGAAA GCTCACGCTA TGCCACTGTT
    ATCGCCAACT GTGAGGACAG TAGCTGCTGT GCCACCTTTG GAGATGGAAC AACTATTATT
    GCAAAGCCAC AGGGAACATA CCAGGTGTTA CCTCCAAACA CAGGCTCTCT TTATATTGAC
    AAGGATTGTT CAGCTGTGTA CTGCCATGAG TCAAGCAGTA ATATATACTA TCCTTTTCAA
    AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC ATCATGAGGC ATACTTCAGA GGTTATCTGT
    GAGGTTCTGG ATCCTGAGGG AAACACTTTT CAGGTCATGG CTGATGGTAG CATATCAACT
    ATATTACCTG AAAAAAAATT GGAAGATGAT TTAAATGAGA AAACTGAGGG CTATGATAGT
    CTGTCCTCTA TGCACCTTGA AAAGAATCAT CAGCAAATCT ATGGTGAACA TGTCCCCAGG
    TTTTTTGTTA TGTATGCTGA TGGATCAGGA ATGGAACTTC TTCGAGACAG TGACATAGAA
    GAATATCTAT CTTTGGCATA TAAAGAATCA AATACTGTTG TTCTCCAAGA GCCAGTGCAG
    GAACAGCCAG GCACCCTAAC CATCACAGTC CTTCGCCCTT TCCATGAAGC ATCACCATGG
    CAAGTAAAAA AGGAAGATAC AATTGTCCCT CCTAATCTCC GGTCAAGGTC ATGGGAAACA
    TTTCCCTCAG TTGAGAAAAA AACTCCAGGA CCTCCGTTTG GTACTCAGAT TTGGAAAGGC
    CTTTGCATTG AGTCCAAACA GCTAGTGAGT GCCCCGGGTG CCATACTCAA GAGCCCCAGT
    GTGCTACAGA TGCGCCAATT CATTCAGCAT GAGGTCATAA AGAATGAGGT GAAACTGAGG
    CTGCAGGTTT CCCTTAAGGA TTACATAAAC TATATTCTAA AGAAAGAAGA TGAGCTGCAG
    GAAATGATGG TTAAAGATTC CAGAACTGAG GAGGAGAGAG GCAATGCTGC TGATCTCCTC
    AAGCTGGTTA TGTCTTTCCC TAAAATGGAG GAAACTACAA AAAGTCATGT TACTGAAGTT
    GCAGCTCACC TAACTGATTT ATTCAAGCAG TCTTTGGCTA CGCCTCCAAA ATGCCCACCA
    GACACATTTG GTAAAGATTT CTTTGAAAAG ACATGGAGAC ACACAGCATC CTCAAAACGC
    TGGAAAGAAA AGATAGACAA AACGAGGAAG GAAATTGAGA CAACACAGAA TTACCTAATG
    GATATTAAGA ACCGCATAAT ACCACCCTTT TTTAAATCTG AATTGAACCA GTTATATCAG
    TCTCAGTATA ATCACCTGGA CAGTCTTTCC AAAAAACTGC CTTCTTTTAC AAAGAAAAAT
    GAAGATGCAA ACGAAACAGC TGTTCAAGAT ACATCTGATC TTAATCTAGA TTTCAAGCCA
    CATAAGGTTT CAGAACAGAA ATCCTCAAGT GTGCCTAGTC TTCCAAAACC AGAGATTTCT
    GCAGATAAGA AGGATTTCAC TGCTCAGAAC CAAACTGAAA ATTTAACAAA ATCTCCTGAA
    GAAGCAGAAT CTTATGAGCC CGTGAAAATT CCAACCCAGT CCTTGCTGCA GGATGTTGCG
    GGACAAACAA GAAAAGAAAA AGTGAAGTTG CCTCATTATT TGCTGAGTTC CAAGCCTAAG
    TCTCAACCTC TTGCAAAGGT GCAAGATTCT GTTGGAGGAA AAGTGAACAC ATCCTCTGTT
    GCATCTGCTG CCATTAATAA TGCAAAGTCA TCCCTTTTTG GGTTCCATCT TCTCCCATCA
    TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA CATACCTATG CCACAGTTGT AAAGCTCAAG
    AATGTTGGAG TGGACTTCTG CAGGTTTAAA GTAAAGCAGC CCCCACCCAG CACAGGACTG
    AAAGTGACTT ACAAACCTGG ACCTGTGGCA GCTGGTATGC AGACAGAACT GAATATAGAG
    TTATTTGCCA CAGCTGTTGG AGAGGATGGG GCCAAGGGAT CAGCACACAT CTCTCACAAT
    ATCGAGATTA TGACAGAGCA TGAGGTTCTG TTCCTACCTG TGGAAGCAAC TGTTTTAACA
    AGCAGCAATT ATGATAAACG ACCAAAAGAC TTTCCCCAGG GAAAAGAAAA TCCAATGGTC
    CAGAGAACTT CTACAATTTA TTCCTCCACA CTTGGAGTCT TCATGTCTCG TAAAGTTTCT
    CCACATTAG

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

    RefSeq XP_011539243.1
    CDS471..4859
    Translation

    Target ORF information:

    RefSeq Version XM_011540941.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540941.2

    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
    ATGATGGTGG AAGCAGATTT AGAGGACATA AAGAAAACAC AGCAGCGCAG TCTAATGGAC 
    TGGAGTTTTA CTGAACATTT TAAACCGAAA GTACTGCTTC AGGTCCTTCA AGAAGCCCAT
    AAGCAATATA GGTGTGTTGA TTCTTACTAC CACACCCAAG ACAACTCTTT ACTTTTAGTC
    TTTCACAATC CAATGAATAG ACAACGTTTG CATTGTGAAT ATTGGAACAT TGCTCTCCAC
    TCCAATGTTG GATTCAGGAA TTATTTGGAA CTTGTTGCAA AATCTATTCA AGATTGGATT
    ACAAAAGAAG AAGCTATATA TCAGGAATCT AAAATGAATG AGAAAATCAT CAGGACCAGA
    GCTGAGCTGG AATTGAAATC TTCTGCTAAT GCCAAACTTA CTTCTGCTAG CAAAATTTTT
    TCCATTAAAG AATCTAAAAG TAACAAAGGA ATCAGCAAAA CAGAGATATC AGATCAAGAA
    AAAGAAAAAG AGAAGGAAAA GATTCCTTTC ATTTTAGAAG GCTCTCTCAA GGCATGGAAA
    GAAGAGCAAC ATCGATTAGC AGAAGAGGAG CGCTTAAGGG AAGAAAAGAA AGCAGAGAAG
    AAGGGTAAAG AAGCTGGTAA AAAGAAAGGC AAGGATAACG CAGAGAAAGA GGATAGTAGG
    TCTTTGAAGA AAAAATCACC TTACAAGGAG AAATCTAAAG AAGAACAAGT CAAGATCCAA
    GAAGTAACAG AAGAGTCCCC CCACCAACCA GAACCTAAGA TAACTTACCC GTTTCACGGA
    TACAATATGG GAAATATACC CACTCAAATC TCAGGGTCAA ATTACTACCT GTATCCTTCT
    GATGGGGGGC AGATTGAAGT GGAAAAGACA ATGTTTGAAA AAGGCCCAAC TTTTATCAAA
    GTGAGAGTGG TAAAGGACAA CCACAATTTT ATGATTCATT TAAATGACCC TAAGGAAATT
    GTGAAAAAGG AAGAGAAAGG GGATTATTAT TTAGAAGAGG AAGAAGAAGG AGATGAGGAA
    CAAAGTCTTG AAACGGAAGT ATCAGATGCA AAGAATAAAG CTTTCAGCAA GTTTGGATCT
    TTTTCTGCCA CCTTAGAAAA TGGAATCTGC CTCTCGATAA GTTACTATGG ATCAAATGGA
    ATGGCACCAG AAGATAAGGA TCCTGATTTA GAAACAATAT TGAATATCCC TTCAGCACTC
    ACTCCAACAG TGGTTCCTGT TATAGTGACC GTTCCTCAAA GCAAAGCTAA AGGGAAAATA
    AAAGGCAAAG AAAAACCCAA AGAATCCCTT AAAGAAGAAG AACACCCAAA AGAAGAAGAG
    AAAAAGGAAG AAGAAGTAGA ACCAGAACCT GTTTTACAAG AGACTTTGGA TGTTCCCACC
    TTCCAGAGCC TAAATGTGTC TTGCCCCAGT GGGCTCCTGT TGACTTTCAT TGGACAAGAA
    TCTACAGGTC AATATGTTAT AGATGAGGAA CCCACCTGGG ACATCATGGT CCGTCAGAGC
    TACCCCCAGA GGGTGAAGCA CTATGAGTTC TATAAAACGG TGATGCCACC CGCAGAGCAG
    GAGGCTTCAA GGGTTATCAC CAGTCAAGGC ACTGTTGTCA AATATATGTT GGATGGATCC
    ACACAGATTC TCTTTGCAGA TGGTGCTGTG AGCAGGAGTC CCAATTCAGG TCTTATTTGT
    CCTCCTTCTG AAATGCCAGC AACGCCTCAC AGTGGAGATT TGATGGACTC TATTTCTCAG
    CAGAAATCAG AAACGATACC ATCTGAGATT ACCAACACAA AGAAAGGAAA AAGTCACAAA
    AGTCAGTCAT CAATGGCCCA TAAGGGTGAA ATCCATGACC CTCCTCCAGA GGCAGTTCAA
    ACTGTAACTC CTGTGGAGGT TCACATAGGC ACCTGGTTTA CAACCACACC TGAAGGAAAT
    CGGATCGGCA CCAAAGGATT AGAAAGAATA GCAGACTTGA CCCCATTGTT ATCCTTTCAG
    GCCACAGATC CTGTCAATGG AACGGTTATG ACAACTCGAG AAGACAAAGT TGTCATAGTT
    GAAAGGAAAG ATGGTACTCG GATAGTGGAT CATGCTGATG GTACCAGAAT CACAACCTTT
    TATCAAGTTT ATGAAGATCA AATTATTCTG CCAGATGATC AAGAAACAAC CGAGGGTCCT
    CGGACTGTCA CCAGGCAGGT GAAGTGTATG CGGGTAGAAA GCTCACGCTA TGCCACTGTT
    ATCGCCAACT GTGAGGACAG TAGCTGCTGT GCCACCTTTG GAGATGGAAC AACTATTATT
    GCAAAGCCAC AGGGAACATA CCAGGTGTTA CCTCCAAACA CAGGCTCTCT TTATATTGAC
    AAGGATTGTT CAGCTGTGTA CTGCCATGAG TCAAGCAGTA ATATATACTA TCCTTTTCAA
    AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC ATCATGAGGC ATACTTCAGA GGTTATCTGT
    GAGGTTCTGG ATCCTGAGGG AAACACTTTT CAGGTCATGG CTGATGGTAG CATATCAACT
    ATATTACCTG AAAAAAAATT GGAAGATGAT TTAAATGAGA AAACTGAGGG CTATGATAGT
    CTGTCCTCTA TGCACCTTGA AAAGAATCAT CAGCAAATCT ATGGTGAACA TGTCCCCAGG
    TTTTTTGTTA TGTATGCTGA TGGATCAGGA ATGGAACTTC TTCGAGACAG TGACATAGAA
    GAATATCTAT CTTTGGCATA TAAAGAATCA AATACTGTTG TTCTCCAAGA GCCAGTGCAG
    GAACAGCCAG GCACCCTAAC CATCACAGTC CTTCGCCCTT TCCATGAAGC ATCACCATGG
    CAAGTAAAAA AGGAAGATAC AATTGTCCCT CCTAATCTCC GGTCAAGGTC ATGGGAAACA
    TTTCCCTCAG TTGAGAAAAA AACTCCAGGA CCTCCGTTTG GTACTCAGAT TTGGAAAGGC
    CTTTGCATTG AGTCCAAACA GCTAGTGAGT GCCCCGGGTG CCATACTCAA GAGCCCCAGT
    GTGCTACAGA TGCGCCAATT CATTCAGCAT GAGGTCATAA AGAATGAGGT GAAACTGAGG
    CTGCAGGTTT CCCTTAAGGA TTACATAAAC TATATTCTAA AGAAAGAAGA TGAGCTGCAG
    GAAATGATGG TTAAAGATTC CAGAACTGAG GAGGAGAGAG GCAATGCTGC TGATCTCCTC
    AAGCTGGTTA TGTCTTTCCC TAAAATGGAG GAAACTACAA AAAGTCATGT TACTGAAGTT
    GCAGCTCACC TAACTGATTT ATTCAAGCAG TCTTTGGCTA CGCCTCCAAA ATGCCCACCA
    GACACATTTG GTAAAGATTT CTTTGAAAAG ACATGGAGAC ACACAGCATC CTCAAAACGC
    TGGAAAGAAA AGATAGACAA AACGAGGAAG GAAATTGAGA CAACACAGAA TTACCTAATG
    GATATTAAGA ACCGCATAAT ACCACCCTTT TTTAAATCTG AATTGAACCA GTTATATCAG
    TCTCAGTATA ATCACCTGGA CAGTCTTTCC AAAAAACTGC CTTCTTTTAC AAAGAAAAAT
    GAAGATGCAA ACGAAACAGC TGTTCAAGAT ACATCTGATC TTAATCTAGA TTTCAAGCCA
    CATAAGGTTT CAGAACAGAA ATCCTCAAGT GTGCCTAGTC TTCCAAAACC AGAGATTTCT
    GCAGATAAGA AGGATTTCAC TGCTCAGAAC CAAACTGAAA ATTTAACAAA ATCTCCTGAA
    GAAGCAGAAT CTTATGAGCC CGTGAAAATT CCAACCCAGT CCTTGCTGCA GGATGTTGCG
    GGACAAACAA GAAAAGAAAA AGTGAAGTTG CCTCATTATT TGCTGAGTTC CAAGCCTAAG
    TCTCAACCTC TTGCAAAGGT GCAAGATTCT GTTGGAGGAA AAGTGAACAC ATCCTCTGTT
    GCATCTGCTG CCATTAATAA TGCAAAGTCA TCCCTTTTTG GGTTCCATCT TCTCCCATCA
    TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA CATACCTATG CCACAGTTGT AAAGCTCAAG
    AATGTTGGAG TGGACTTCTG CAGGTTTAAA GTAAAGCAGC CCCCACCCAG CACAGGACTG
    AAAGTGACTT ACAAACCTGG ACCTGTGGCA GCTGGTATGC AGACAGAACT GAATATAGAG
    TTATTTGCCA CAGCTGTTGG AGAGGATGGG GCCAAGGGAT CAGCACACAT CTCTCACAAT
    ATCGAGATTA TGACAGAGCA TGAGGTTCTG TTCCTACCTG TGGAAGCAAC TGTTTTAACA
    AGCAGCAATT ATGATAAACG ACCAAAAGAC TTTCCCCAGG GAAAAGAAAA TCCAATGGTC
    CAGAGAACTT CTACAATTTA TTCCTCCACA CTTGGAGTCT TCATGTCTCG TAAAGTTTCT
    CCACATTAG

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

    CloneID OHu77639
    Clone ID Related Accession (Same CDS sequence) XM_011540941.2 , XM_011540942.2
    Accession Version XM_011540942.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4389bp)
    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 sperm-associated antigen 17 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540942.1. ##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
    ATGATGGTGG AAGCAGATTT AGAGGACATA AAGAAAACAC AGCAGCGCAG TCTAATGGAC 
    TGGAGTTTTA CTGAACATTT TAAACCGAAA GTACTGCTTC AGGTCCTTCA AGAAGCCCAT
    AAGCAATATA GGTGTGTTGA TTCTTACTAC CACACCCAAG ACAACTCTTT ACTTTTAGTC
    TTTCACAATC CAATGAATAG ACAACGTTTG CATTGTGAAT ATTGGAACAT TGCTCTCCAC
    TCCAATGTTG GATTCAGGAA TTATTTGGAA CTTGTTGCAA AATCTATTCA AGATTGGATT
    ACAAAAGAAG AAGCTATATA TCAGGAATCT AAAATGAATG AGAAAATCAT CAGGACCAGA
    GCTGAGCTGG AATTGAAATC TTCTGCTAAT GCCAAACTTA CTTCTGCTAG CAAAATTTTT
    TCCATTAAAG AATCTAAAAG TAACAAAGGA ATCAGCAAAA CAGAGATATC AGATCAAGAA
    AAAGAAAAAG AGAAGGAAAA GATTCCTTTC ATTTTAGAAG GCTCTCTCAA GGCATGGAAA
    GAAGAGCAAC ATCGATTAGC AGAAGAGGAG CGCTTAAGGG AAGAAAAGAA AGCAGAGAAG
    AAGGGTAAAG AAGCTGGTAA AAAGAAAGGC AAGGATAACG CAGAGAAAGA GGATAGTAGG
    TCTTTGAAGA AAAAATCACC TTACAAGGAG AAATCTAAAG AAGAACAAGT CAAGATCCAA
    GAAGTAACAG AAGAGTCCCC CCACCAACCA GAACCTAAGA TAACTTACCC GTTTCACGGA
    TACAATATGG GAAATATACC CACTCAAATC TCAGGGTCAA ATTACTACCT GTATCCTTCT
    GATGGGGGGC AGATTGAAGT GGAAAAGACA ATGTTTGAAA AAGGCCCAAC TTTTATCAAA
    GTGAGAGTGG TAAAGGACAA CCACAATTTT ATGATTCATT TAAATGACCC TAAGGAAATT
    GTGAAAAAGG AAGAGAAAGG GGATTATTAT TTAGAAGAGG AAGAAGAAGG AGATGAGGAA
    CAAAGTCTTG AAACGGAAGT ATCAGATGCA AAGAATAAAG CTTTCAGCAA GTTTGGATCT
    TTTTCTGCCA CCTTAGAAAA TGGAATCTGC CTCTCGATAA GTTACTATGG ATCAAATGGA
    ATGGCACCAG AAGATAAGGA TCCTGATTTA GAAACAATAT TGAATATCCC TTCAGCACTC
    ACTCCAACAG TGGTTCCTGT TATAGTGACC GTTCCTCAAA GCAAAGCTAA AGGGAAAATA
    AAAGGCAAAG AAAAACCCAA AGAATCCCTT AAAGAAGAAG AACACCCAAA AGAAGAAGAG
    AAAAAGGAAG AAGAAGTAGA ACCAGAACCT GTTTTACAAG AGACTTTGGA TGTTCCCACC
    TTCCAGAGCC TAAATGTGTC TTGCCCCAGT GGGCTCCTGT TGACTTTCAT TGGACAAGAA
    TCTACAGGTC AATATGTTAT AGATGAGGAA CCCACCTGGG ACATCATGGT CCGTCAGAGC
    TACCCCCAGA GGGTGAAGCA CTATGAGTTC TATAAAACGG TGATGCCACC CGCAGAGCAG
    GAGGCTTCAA GGGTTATCAC CAGTCAAGGC ACTGTTGTCA AATATATGTT GGATGGATCC
    ACACAGATTC TCTTTGCAGA TGGTGCTGTG AGCAGGAGTC CCAATTCAGG TCTTATTTGT
    CCTCCTTCTG AAATGCCAGC AACGCCTCAC AGTGGAGATT TGATGGACTC TATTTCTCAG
    CAGAAATCAG AAACGATACC ATCTGAGATT ACCAACACAA AGAAAGGAAA AAGTCACAAA
    AGTCAGTCAT CAATGGCCCA TAAGGGTGAA ATCCATGACC CTCCTCCAGA GGCAGTTCAA
    ACTGTAACTC CTGTGGAGGT TCACATAGGC ACCTGGTTTA CAACCACACC TGAAGGAAAT
    CGGATCGGCA CCAAAGGATT AGAAAGAATA GCAGACTTGA CCCCATTGTT ATCCTTTCAG
    GCCACAGATC CTGTCAATGG AACGGTTATG ACAACTCGAG AAGACAAAGT TGTCATAGTT
    GAAAGGAAAG ATGGTACTCG GATAGTGGAT CATGCTGATG GTACCAGAAT CACAACCTTT
    TATCAAGTTT ATGAAGATCA AATTATTCTG CCAGATGATC AAGAAACAAC CGAGGGTCCT
    CGGACTGTCA CCAGGCAGGT GAAGTGTATG CGGGTAGAAA GCTCACGCTA TGCCACTGTT
    ATCGCCAACT GTGAGGACAG TAGCTGCTGT GCCACCTTTG GAGATGGAAC AACTATTATT
    GCAAAGCCAC AGGGAACATA CCAGGTGTTA CCTCCAAACA CAGGCTCTCT TTATATTGAC
    AAGGATTGTT CAGCTGTGTA CTGCCATGAG TCAAGCAGTA ATATATACTA TCCTTTTCAA
    AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC ATCATGAGGC ATACTTCAGA GGTTATCTGT
    GAGGTTCTGG ATCCTGAGGG AAACACTTTT CAGGTCATGG CTGATGGTAG CATATCAACT
    ATATTACCTG AAAAAAAATT GGAAGATGAT TTAAATGAGA AAACTGAGGG CTATGATAGT
    CTGTCCTCTA TGCACCTTGA AAAGAATCAT CAGCAAATCT ATGGTGAACA TGTCCCCAGG
    TTTTTTGTTA TGTATGCTGA TGGATCAGGA ATGGAACTTC TTCGAGACAG TGACATAGAA
    GAATATCTAT CTTTGGCATA TAAAGAATCA AATACTGTTG TTCTCCAAGA GCCAGTGCAG
    GAACAGCCAG GCACCCTAAC CATCACAGTC CTTCGCCCTT TCCATGAAGC ATCACCATGG
    CAAGTAAAAA AGGAAGATAC AATTGTCCCT CCTAATCTCC GGTCAAGGTC ATGGGAAACA
    TTTCCCTCAG TTGAGAAAAA AACTCCAGGA CCTCCGTTTG GTACTCAGAT TTGGAAAGGC
    CTTTGCATTG AGTCCAAACA GCTAGTGAGT GCCCCGGGTG CCATACTCAA GAGCCCCAGT
    GTGCTACAGA TGCGCCAATT CATTCAGCAT GAGGTCATAA AGAATGAGGT GAAACTGAGG
    CTGCAGGTTT CCCTTAAGGA TTACATAAAC TATATTCTAA AGAAAGAAGA TGAGCTGCAG
    GAAATGATGG TTAAAGATTC CAGAACTGAG GAGGAGAGAG GCAATGCTGC TGATCTCCTC
    AAGCTGGTTA TGTCTTTCCC TAAAATGGAG GAAACTACAA AAAGTCATGT TACTGAAGTT
    GCAGCTCACC TAACTGATTT ATTCAAGCAG TCTTTGGCTA CGCCTCCAAA ATGCCCACCA
    GACACATTTG GTAAAGATTT CTTTGAAAAG ACATGGAGAC ACACAGCATC CTCAAAACGC
    TGGAAAGAAA AGATAGACAA AACGAGGAAG GAAATTGAGA CAACACAGAA TTACCTAATG
    GATATTAAGA ACCGCATAAT ACCACCCTTT TTTAAATCTG AATTGAACCA GTTATATCAG
    TCTCAGTATA ATCACCTGGA CAGTCTTTCC AAAAAACTGC CTTCTTTTAC AAAGAAAAAT
    GAAGATGCAA ACGAAACAGC TGTTCAAGAT ACATCTGATC TTAATCTAGA TTTCAAGCCA
    CATAAGGTTT CAGAACAGAA ATCCTCAAGT GTGCCTAGTC TTCCAAAACC AGAGATTTCT
    GCAGATAAGA AGGATTTCAC TGCTCAGAAC CAAACTGAAA ATTTAACAAA ATCTCCTGAA
    GAAGCAGAAT CTTATGAGCC CGTGAAAATT CCAACCCAGT CCTTGCTGCA GGATGTTGCG
    GGACAAACAA GAAAAGAAAA AGTGAAGTTG CCTCATTATT TGCTGAGTTC CAAGCCTAAG
    TCTCAACCTC TTGCAAAGGT GCAAGATTCT GTTGGAGGAA AAGTGAACAC ATCCTCTGTT
    GCATCTGCTG CCATTAATAA TGCAAAGTCA TCCCTTTTTG GGTTCCATCT TCTCCCATCA
    TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA CATACCTATG CCACAGTTGT AAAGCTCAAG
    AATGTTGGAG TGGACTTCTG CAGGTTTAAA GTAAAGCAGC CCCCACCCAG CACAGGACTG
    AAAGTGACTT ACAAACCTGG ACCTGTGGCA GCTGGTATGC AGACAGAACT GAATATAGAG
    TTATTTGCCA CAGCTGTTGG AGAGGATGGG GCCAAGGGAT CAGCACACAT CTCTCACAAT
    ATCGAGATTA TGACAGAGCA TGAGGTTCTG TTCCTACCTG TGGAAGCAAC TGTTTTAACA
    AGCAGCAATT ATGATAAACG ACCAAAAGAC TTTCCCCAGG GAAAAGAAAA TCCAATGGTC
    CAGAGAACTT CTACAATTTA TTCCTCCACA CTTGGAGTCT TCATGTCTCG TAAAGTTTCT
    CCACATTAG

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

    RefSeq XP_011539244.1
    CDS279..4667
    Translation

    Target ORF information:

    RefSeq Version XM_011540942.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540942.2

    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
    ATGATGGTGG AAGCAGATTT AGAGGACATA AAGAAAACAC AGCAGCGCAG TCTAATGGAC 
    TGGAGTTTTA CTGAACATTT TAAACCGAAA GTACTGCTTC AGGTCCTTCA AGAAGCCCAT
    AAGCAATATA GGTGTGTTGA TTCTTACTAC CACACCCAAG ACAACTCTTT ACTTTTAGTC
    TTTCACAATC CAATGAATAG ACAACGTTTG CATTGTGAAT ATTGGAACAT TGCTCTCCAC
    TCCAATGTTG GATTCAGGAA TTATTTGGAA CTTGTTGCAA AATCTATTCA AGATTGGATT
    ACAAAAGAAG AAGCTATATA TCAGGAATCT AAAATGAATG AGAAAATCAT CAGGACCAGA
    GCTGAGCTGG AATTGAAATC TTCTGCTAAT GCCAAACTTA CTTCTGCTAG CAAAATTTTT
    TCCATTAAAG AATCTAAAAG TAACAAAGGA ATCAGCAAAA CAGAGATATC AGATCAAGAA
    AAAGAAAAAG AGAAGGAAAA GATTCCTTTC ATTTTAGAAG GCTCTCTCAA GGCATGGAAA
    GAAGAGCAAC ATCGATTAGC AGAAGAGGAG CGCTTAAGGG AAGAAAAGAA AGCAGAGAAG
    AAGGGTAAAG AAGCTGGTAA AAAGAAAGGC AAGGATAACG CAGAGAAAGA GGATAGTAGG
    TCTTTGAAGA AAAAATCACC TTACAAGGAG AAATCTAAAG AAGAACAAGT CAAGATCCAA
    GAAGTAACAG AAGAGTCCCC CCACCAACCA GAACCTAAGA TAACTTACCC GTTTCACGGA
    TACAATATGG GAAATATACC CACTCAAATC TCAGGGTCAA ATTACTACCT GTATCCTTCT
    GATGGGGGGC AGATTGAAGT GGAAAAGACA ATGTTTGAAA AAGGCCCAAC TTTTATCAAA
    GTGAGAGTGG TAAAGGACAA CCACAATTTT ATGATTCATT TAAATGACCC TAAGGAAATT
    GTGAAAAAGG AAGAGAAAGG GGATTATTAT TTAGAAGAGG AAGAAGAAGG AGATGAGGAA
    CAAAGTCTTG AAACGGAAGT ATCAGATGCA AAGAATAAAG CTTTCAGCAA GTTTGGATCT
    TTTTCTGCCA CCTTAGAAAA TGGAATCTGC CTCTCGATAA GTTACTATGG ATCAAATGGA
    ATGGCACCAG AAGATAAGGA TCCTGATTTA GAAACAATAT TGAATATCCC TTCAGCACTC
    ACTCCAACAG TGGTTCCTGT TATAGTGACC GTTCCTCAAA GCAAAGCTAA AGGGAAAATA
    AAAGGCAAAG AAAAACCCAA AGAATCCCTT AAAGAAGAAG AACACCCAAA AGAAGAAGAG
    AAAAAGGAAG AAGAAGTAGA ACCAGAACCT GTTTTACAAG AGACTTTGGA TGTTCCCACC
    TTCCAGAGCC TAAATGTGTC TTGCCCCAGT GGGCTCCTGT TGACTTTCAT TGGACAAGAA
    TCTACAGGTC AATATGTTAT AGATGAGGAA CCCACCTGGG ACATCATGGT CCGTCAGAGC
    TACCCCCAGA GGGTGAAGCA CTATGAGTTC TATAAAACGG TGATGCCACC CGCAGAGCAG
    GAGGCTTCAA GGGTTATCAC CAGTCAAGGC ACTGTTGTCA AATATATGTT GGATGGATCC
    ACACAGATTC TCTTTGCAGA TGGTGCTGTG AGCAGGAGTC CCAATTCAGG TCTTATTTGT
    CCTCCTTCTG AAATGCCAGC AACGCCTCAC AGTGGAGATT TGATGGACTC TATTTCTCAG
    CAGAAATCAG AAACGATACC ATCTGAGATT ACCAACACAA AGAAAGGAAA AAGTCACAAA
    AGTCAGTCAT CAATGGCCCA TAAGGGTGAA ATCCATGACC CTCCTCCAGA GGCAGTTCAA
    ACTGTAACTC CTGTGGAGGT TCACATAGGC ACCTGGTTTA CAACCACACC TGAAGGAAAT
    CGGATCGGCA CCAAAGGATT AGAAAGAATA GCAGACTTGA CCCCATTGTT ATCCTTTCAG
    GCCACAGATC CTGTCAATGG AACGGTTATG ACAACTCGAG AAGACAAAGT TGTCATAGTT
    GAAAGGAAAG ATGGTACTCG GATAGTGGAT CATGCTGATG GTACCAGAAT CACAACCTTT
    TATCAAGTTT ATGAAGATCA AATTATTCTG CCAGATGATC AAGAAACAAC CGAGGGTCCT
    CGGACTGTCA CCAGGCAGGT GAAGTGTATG CGGGTAGAAA GCTCACGCTA TGCCACTGTT
    ATCGCCAACT GTGAGGACAG TAGCTGCTGT GCCACCTTTG GAGATGGAAC AACTATTATT
    GCAAAGCCAC AGGGAACATA CCAGGTGTTA CCTCCAAACA CAGGCTCTCT TTATATTGAC
    AAGGATTGTT CAGCTGTGTA CTGCCATGAG TCAAGCAGTA ATATATACTA TCCTTTTCAA
    AAGCGTGAGC AGCTGCGAGC TGGCAGGTAC ATCATGAGGC ATACTTCAGA GGTTATCTGT
    GAGGTTCTGG ATCCTGAGGG AAACACTTTT CAGGTCATGG CTGATGGTAG CATATCAACT
    ATATTACCTG AAAAAAAATT GGAAGATGAT TTAAATGAGA AAACTGAGGG CTATGATAGT
    CTGTCCTCTA TGCACCTTGA AAAGAATCAT CAGCAAATCT ATGGTGAACA TGTCCCCAGG
    TTTTTTGTTA TGTATGCTGA TGGATCAGGA ATGGAACTTC TTCGAGACAG TGACATAGAA
    GAATATCTAT CTTTGGCATA TAAAGAATCA AATACTGTTG TTCTCCAAGA GCCAGTGCAG
    GAACAGCCAG GCACCCTAAC CATCACAGTC CTTCGCCCTT TCCATGAAGC ATCACCATGG
    CAAGTAAAAA AGGAAGATAC AATTGTCCCT CCTAATCTCC GGTCAAGGTC ATGGGAAACA
    TTTCCCTCAG TTGAGAAAAA AACTCCAGGA CCTCCGTTTG GTACTCAGAT TTGGAAAGGC
    CTTTGCATTG AGTCCAAACA GCTAGTGAGT GCCCCGGGTG CCATACTCAA GAGCCCCAGT
    GTGCTACAGA TGCGCCAATT CATTCAGCAT GAGGTCATAA AGAATGAGGT GAAACTGAGG
    CTGCAGGTTT CCCTTAAGGA TTACATAAAC TATATTCTAA AGAAAGAAGA TGAGCTGCAG
    GAAATGATGG TTAAAGATTC CAGAACTGAG GAGGAGAGAG GCAATGCTGC TGATCTCCTC
    AAGCTGGTTA TGTCTTTCCC TAAAATGGAG GAAACTACAA AAAGTCATGT TACTGAAGTT
    GCAGCTCACC TAACTGATTT ATTCAAGCAG TCTTTGGCTA CGCCTCCAAA ATGCCCACCA
    GACACATTTG GTAAAGATTT CTTTGAAAAG ACATGGAGAC ACACAGCATC CTCAAAACGC
    TGGAAAGAAA AGATAGACAA AACGAGGAAG GAAATTGAGA CAACACAGAA TTACCTAATG
    GATATTAAGA ACCGCATAAT ACCACCCTTT TTTAAATCTG AATTGAACCA GTTATATCAG
    TCTCAGTATA ATCACCTGGA CAGTCTTTCC AAAAAACTGC CTTCTTTTAC AAAGAAAAAT
    GAAGATGCAA ACGAAACAGC TGTTCAAGAT ACATCTGATC TTAATCTAGA TTTCAAGCCA
    CATAAGGTTT CAGAACAGAA ATCCTCAAGT GTGCCTAGTC TTCCAAAACC AGAGATTTCT
    GCAGATAAGA AGGATTTCAC TGCTCAGAAC CAAACTGAAA ATTTAACAAA ATCTCCTGAA
    GAAGCAGAAT CTTATGAGCC CGTGAAAATT CCAACCCAGT CCTTGCTGCA GGATGTTGCG
    GGACAAACAA GAAAAGAAAA AGTGAAGTTG CCTCATTATT TGCTGAGTTC CAAGCCTAAG
    TCTCAACCTC TTGCAAAGGT GCAAGATTCT GTTGGAGGAA AAGTGAACAC ATCCTCTGTT
    GCATCTGCTG CCATTAATAA TGCAAAGTCA TCCCTTTTTG GGTTCCATCT TCTCCCATCA
    TCAGTCAAGT TTGGAGTGCT TAAGGAAGGA CATACCTATG CCACAGTTGT AAAGCTCAAG
    AATGTTGGAG TGGACTTCTG CAGGTTTAAA GTAAAGCAGC CCCCACCCAG CACAGGACTG
    AAAGTGACTT ACAAACCTGG ACCTGTGGCA GCTGGTATGC AGACAGAACT GAATATAGAG
    TTATTTGCCA CAGCTGTTGG AGAGGATGGG GCCAAGGGAT CAGCACACAT CTCTCACAAT
    ATCGAGATTA TGACAGAGCA TGAGGTTCTG TTCCTACCTG TGGAAGCAAC TGTTTTAACA
    AGCAGCAATT ATGATAAACG ACCAAAAGAC TTTCCCCAGG GAAAAGAAAA TCCAATGGTC
    CAGAGAACTT CTACAATTTA TTCCTCCACA CTTGGAGTCT TCATGTCTCG TAAAGTTTCT
    CCACATTAG

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

    CloneID OHu33131
    Clone ID Related Accession (Same CDS sequence) XM_006710426.3
    Accession Version XM_006710426.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6558bp)
    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 sperm-associated antigen 17 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_006710426.2. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGATAAGGAT CCTGATTTAG AAACAATATT GAATATCCCT
    TCAGCACTCA CTCCAACAGT GGTTCCTGTT ATAGTGACCG TTCCTCAAAG CAAAGCTAAA
    GGGAAAATAA AAGGCAAAGA AAAACCCAAA GAATCCCTTA AAGAAGAAGA ACACCCAAAA
    GAAGAAGAGA AAAAGGAAGA AGAAGTAGAA CCAGAACCTG TTTTACAAGA GACTTTGGAT
    GTTCCCACCT TCCAGAGCCT AAATGTGTCT TGCCCCAGTG GGCTCCTGTT GACTTTCATT
    GGACAAGAAT CTACAGGTCA ATATGTTATA GATGAGGAAC CCACCTGGGA CATCATGGTC
    CGTCAGAGCT ACCCCCAGAG GGTGAAGCAC TATGAGTTCT ATAAAACGGT GATGCCACCC
    GCAGAGCAGG AGGCTTCAAG GGTTATCACC AGTCAAGGCA CTGTTGTCAA ATATATGTTG
    GATGGATCCA CACAGATTCT CTTTGCAGAT GGTGCTGTGA GCAGGAGTCC CAATTCAGGT
    CTTATTTGTC CTCCTTCTGA AATGCCAGCA ACGCCTCACA GTGGAGATTT GATGGACTCT
    ATTTCTCAGC AGAAATCAGA AACGATACCA TCTGAGATTA CCAACACAAA GAAAGGAAAA
    AGTCACAAAA GTCAGTCATC AATGGCCCAT AAGGGTGAAA TCCATGACCC TCCTCCAGAG
    GCAGTTCAAA CTGTAACTCC TGTGGAGGTT CACATAGGCA CCTGGTTTAC AACCACACCT
    GAAGGAAATC GGATCGGCAC CAAAGGATTA GAAAGAATAG CAGACTTGAC CCCATTGTTA
    TCCTTTCAGG CCACAGATCC TGTCAATGGA ACGGTTATGA CAACTCGAGA AGACAAAGTT
    GTCATAGTTG AAAGGAAAGA TGGTACTCGG ATAGTGGATC ATGCTGATGG TACCAGAATC
    ACAACCTTTT ATCAAGTTTA TGAAGATCAA ATTATTCTGC CAGATGATCA AGAAACAACC
    GAGGGTCCTC GGACTGTCAC CAGGCAGGTG AAGTGTATGC GGGTAGAAAG CTCACGCTAT
    GCCACTGTTA TCGCCAACTG TGAGGACAGT AGCTGCTGTG CCACCTTTGG AGATGGAACA
    ACTATTATTG CAAAGCCACA GGGAACATAC CAGGTGTTAC CTCCAAACAC AGGCTCTCTT
    TATATTGACA AGGATTGTTC AGCTGTGTAC TGCCATGAGT CAAGCAGTAA TATATACTAT
    CCTTTTCAAA AGCGTGAGCA GCTGCGAGCT GGCAGGTACA TCATGAGGCA TACTTCAGAG
    GTTATCTGTG AGGTTCTGGA TCCTGAGGGA AACACTTTTC AGGTCATGGC TGATGGTAGC
    ATATCAACTA TATTACCTGA AAAAAAATTG GAAGATGATT TAAATGAGAA AACTGAGGGC
    TATGATAGTC TGTCCTCTAT GCACCTTGAA AAGAATCATC AGCAAATCTA TGGTGAACAT
    GTCCCCAGGT TTTTTGTTAT GTATGCTGAT GGATCAGGAA TGGAACTTCT TCGAGACAGT
    GACATAGAAG AATATCTATC TTTGGCATAT AAAGAATCAA ATACTGTTGT TCTCCAAGAG
    CCAGTGCAGG AACAGCCAGG CACCCTAACC ATCACAGTCC TTCGCCCTTT CCATGAAGCA
    TCACCATGGC AAGTAAAAAA GGAAGATACA ATTGTCCCTC CTAATCTCCG GTCAAGGTCA
    TGGGAAACAT TTCCCTCAGT TGAGAAAAAA ACTCCAGGAC CTCCGTTTGG TACTCAGATT
    TGGAAAGGCC TTTGCATTGA GTCCAAACAG CTAGTGAGTG CCCCGGGTGC CATACTCAAG
    AGCCCCAGTG TGCTACAGAT GCGCCAATTC ATTCAGCATG AGGTCATAAA GAATGAGGTG
    AAACTGAGGC TGCAGGTTTC CCTTAAGGAT TACATAAACT ATATTCTAAA GAAAGAAGAT
    GAGCTGCAGG AAATGATGGT TAAAGATTCC AGAACTGAGG AGGAGAGAGG CAATGCTGCT
    GATCTCCTCA AGCTGGTTAT GTCTTTCCCT AAAATGGAGG AAACTACAAA AAGTCATGTT
    ACTGAAGTTG CAGCTCACCT AACTGATTTA TTCAAGCAGT CTTTGGCTAC GCCTCCAAAA
    TGCCCACCAG ACACATTTGG TAAAGATTTC TTTGAAAAGA CATGGAGACA CACAGCATCC
    TCAAAACGCT GGAAAGAAAA GATAGACAAA ACGAGGAAGG AAATTGAGAC AACACAGAAT
    TACCTAATGG ATATTAAGAA CCGCATAATA CCACCCTTTT TTAAATCTGA ATTGAACCAG
    TTATATCAGT CTCAGTATAA TCACCTGGAC AGTCTTTCCA AAAAACTGCC TTCTTTTACA
    AAGAAAAATG AAGATGCAAA CGAAACAGCT GTTCAAGATA CATCTGATCT TAATCTAGAT
    TTCAAGCCAC ATAAGGTTTC AGAACAGAAA TCCTCAAGTG TGCCTAGTCT TCCAAAACCA
    GAGATTTCTG CAGATAAGAA GGATTTCACT GCTCAGAACC AAACTGAAAA TTTAACAAAA
    TCTCCTGAAG AAGCAGAATC TTATGAGCCC GTGAAAATTC CAACCCAGTC CTTGCTGCAG
    GATGTTGCGG GACAAACAAG AAAAGAAAAA GTGAAGTTGC CTCATTATTT GCTGAGTTCC
    AAGCCTAAGT CTCAACCTCT TGCAAAGGTG CAAGATTCTG TTGGAGGAAA AGTGAACACA
    TCCTCTGTTG CATCTGCTGC CATTAATAAT GCAAAGTCAT CCCTTTTTGG GTTCCATCTT
    CTCCCATCAT CAGTCAAGTT TGGAGTGCTT AAGGAAGGAC ATACCTATGC CACAGTTGTA
    AAGCTCAAGA ATGTTGGAGT GGACTTCTGC AGGTTTAAAG TAAAGCAGCC CCCACCCAGC
    ACAGGACTGA AAGTGACTTA CAAACCTGGA CCTGTGGCAG CTGGTATGCA GACAGAACTG
    AATATAGAGT TATTTGCCAC AGCTGTTGGA GAGGATGGGG CCAAGGGATC AGCACACATC
    TCTCACAATA TCGAGATTAT GACAGAGCAT GAGGTTCTGT TCCTACCTGT GGAAGCAACT
    GTTTTAACAA GCAGCAATTA TGATAAACGA CCAAAAGACT TTCCCCAGGG AAAAGAAAAT
    CCAATGGTCC AGAGAACTTC TACAATTTAT TCCTCCACAC TTGGAGTCTT CATGTCTCGT
    AAAGTTTCTC CACATTAG

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

    RefSeq XP_006710489.1
    CDS69..6626
    Translation

    Target ORF information:

    RefSeq Version XM_006710426.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006710426.3

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGATAAGGAT CCTGATTTAG AAACAATATT GAATATCCCT
    TCAGCACTCA CTCCAACAGT GGTTCCTGTT ATAGTGACCG TTCCTCAAAG CAAAGCTAAA
    GGGAAAATAA AAGGCAAAGA AAAACCCAAA GAATCCCTTA AAGAAGAAGA ACACCCAAAA
    GAAGAAGAGA AAAAGGAAGA AGAAGTAGAA CCAGAACCTG TTTTACAAGA GACTTTGGAT
    GTTCCCACCT TCCAGAGCCT AAATGTGTCT TGCCCCAGTG GGCTCCTGTT GACTTTCATT
    GGACAAGAAT CTACAGGTCA ATATGTTATA GATGAGGAAC CCACCTGGGA CATCATGGTC
    CGTCAGAGCT ACCCCCAGAG GGTGAAGCAC TATGAGTTCT ATAAAACGGT GATGCCACCC
    GCAGAGCAGG AGGCTTCAAG GGTTATCACC AGTCAAGGCA CTGTTGTCAA ATATATGTTG
    GATGGATCCA CACAGATTCT CTTTGCAGAT GGTGCTGTGA GCAGGAGTCC CAATTCAGGT
    CTTATTTGTC CTCCTTCTGA AATGCCAGCA ACGCCTCACA GTGGAGATTT GATGGACTCT
    ATTTCTCAGC AGAAATCAGA AACGATACCA TCTGAGATTA CCAACACAAA GAAAGGAAAA
    AGTCACAAAA GTCAGTCATC AATGGCCCAT AAGGGTGAAA TCCATGACCC TCCTCCAGAG
    GCAGTTCAAA CTGTAACTCC TGTGGAGGTT CACATAGGCA CCTGGTTTAC AACCACACCT
    GAAGGAAATC GGATCGGCAC CAAAGGATTA GAAAGAATAG CAGACTTGAC CCCATTGTTA
    TCCTTTCAGG CCACAGATCC TGTCAATGGA ACGGTTATGA CAACTCGAGA AGACAAAGTT
    GTCATAGTTG AAAGGAAAGA TGGTACTCGG ATAGTGGATC ATGCTGATGG TACCAGAATC
    ACAACCTTTT ATCAAGTTTA TGAAGATCAA ATTATTCTGC CAGATGATCA AGAAACAACC
    GAGGGTCCTC GGACTGTCAC CAGGCAGGTG AAGTGTATGC GGGTAGAAAG CTCACGCTAT
    GCCACTGTTA TCGCCAACTG TGAGGACAGT AGCTGCTGTG CCACCTTTGG AGATGGAACA
    ACTATTATTG CAAAGCCACA GGGAACATAC CAGGTGTTAC CTCCAAACAC AGGCTCTCTT
    TATATTGACA AGGATTGTTC AGCTGTGTAC TGCCATGAGT CAAGCAGTAA TATATACTAT
    CCTTTTCAAA AGCGTGAGCA GCTGCGAGCT GGCAGGTACA TCATGAGGCA TACTTCAGAG
    GTTATCTGTG AGGTTCTGGA TCCTGAGGGA AACACTTTTC AGGTCATGGC TGATGGTAGC
    ATATCAACTA TATTACCTGA AAAAAAATTG GAAGATGATT TAAATGAGAA AACTGAGGGC
    TATGATAGTC TGTCCTCTAT GCACCTTGAA AAGAATCATC AGCAAATCTA TGGTGAACAT
    GTCCCCAGGT TTTTTGTTAT GTATGCTGAT GGATCAGGAA TGGAACTTCT TCGAGACAGT
    GACATAGAAG AATATCTATC TTTGGCATAT AAAGAATCAA ATACTGTTGT TCTCCAAGAG
    CCAGTGCAGG AACAGCCAGG CACCCTAACC ATCACAGTCC TTCGCCCTTT CCATGAAGCA
    TCACCATGGC AAGTAAAAAA GGAAGATACA ATTGTCCCTC CTAATCTCCG GTCAAGGTCA
    TGGGAAACAT TTCCCTCAGT TGAGAAAAAA ACTCCAGGAC CTCCGTTTGG TACTCAGATT
    TGGAAAGGCC TTTGCATTGA GTCCAAACAG CTAGTGAGTG CCCCGGGTGC CATACTCAAG
    AGCCCCAGTG TGCTACAGAT GCGCCAATTC ATTCAGCATG AGGTCATAAA GAATGAGGTG
    AAACTGAGGC TGCAGGTTTC CCTTAAGGAT TACATAAACT ATATTCTAAA GAAAGAAGAT
    GAGCTGCAGG AAATGATGGT TAAAGATTCC AGAACTGAGG AGGAGAGAGG CAATGCTGCT
    GATCTCCTCA AGCTGGTTAT GTCTTTCCCT AAAATGGAGG AAACTACAAA AAGTCATGTT
    ACTGAAGTTG CAGCTCACCT AACTGATTTA TTCAAGCAGT CTTTGGCTAC GCCTCCAAAA
    TGCCCACCAG ACACATTTGG TAAAGATTTC TTTGAAAAGA CATGGAGACA CACAGCATCC
    TCAAAACGCT GGAAAGAAAA GATAGACAAA ACGAGGAAGG AAATTGAGAC AACACAGAAT
    TACCTAATGG ATATTAAGAA CCGCATAATA CCACCCTTTT TTAAATCTGA ATTGAACCAG
    TTATATCAGT CTCAGTATAA TCACCTGGAC AGTCTTTCCA AAAAACTGCC TTCTTTTACA
    AAGAAAAATG AAGATGCAAA CGAAACAGCT GTTCAAGATA CATCTGATCT TAATCTAGAT
    TTCAAGCCAC ATAAGGTTTC AGAACAGAAA TCCTCAAGTG TGCCTAGTCT TCCAAAACCA
    GAGATTTCTG CAGATAAGAA GGATTTCACT GCTCAGAACC AAACTGAAAA TTTAACAAAA
    TCTCCTGAAG AAGCAGAATC TTATGAGCCC GTGAAAATTC CAACCCAGTC CTTGCTGCAG
    GATGTTGCGG GACAAACAAG AAAAGAAAAA GTGAAGTTGC CTCATTATTT GCTGAGTTCC
    AAGCCTAAGT CTCAACCTCT TGCAAAGGTG CAAGATTCTG TTGGAGGAAA AGTGAACACA
    TCCTCTGTTG CATCTGCTGC CATTAATAAT GCAAAGTCAT CCCTTTTTGG GTTCCATCTT
    CTCCCATCAT CAGTCAAGTT TGGAGTGCTT AAGGAAGGAC ATACCTATGC CACAGTTGTA
    AAGCTCAAGA ATGTTGGAGT GGACTTCTGC AGGTTTAAAG TAAAGCAGCC CCCACCCAGC
    ACAGGACTGA AAGTGACTTA CAAACCTGGA CCTGTGGCAG CTGGTATGCA GACAGAACTG
    AATATAGAGT TATTTGCCAC AGCTGTTGGA GAGGATGGGG CCAAGGGATC AGCACACATC
    TCTCACAATA TCGAGATTAT GACAGAGCAT GAGGTTCTGT TCCTACCTGT GGAAGCAACT
    GTTTTAACAA GCAGCAATTA TGATAAACGA CCAAAAGACT TTCCCCAGGG AAAAGAAAAT
    CCAATGGTCC AGAGAACTTC TACAATTTAT TCCTCCACAC TTGGAGTCTT CATGTCTCGT
    AAAGTTTCTC CACATTAG

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

    CloneID OHu33132
    Clone ID Related Accession (Same CDS sequence) XM_006710427.3
    Accession Version XM_006710427.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6477bp)
    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 sperm-associated antigen 17 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_006710427.2. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGATCTAG AAGCAGAAAA ATTGAAGAAA
    GAAAATGCCA TAAAAGAGCT TAAAACTTTC TGGAAGTACT TGGAACCAGT CCTGAATAAT
    GAGAAACCTG AAACAAATCT CTTTGATGTT GCTCGACTTG AGTACATGGT CAAAGCAGCT
    GATTTTCCTT CTGACTGGTC AGATGGTGAG ATGATGCTGA AATTGGGCAC TGATATTTTT
    GAAAATATTG CCTGCTTGAT GTATGACATC CTGGATTGGA AAAGGCAGCA CCAGCACTAT
    TTGGAAAGCA TGCAGCTTAT TAATGTTCCA CAAGTGGTTA ATGAGAAACC TGTATTAGAA
    GCCATGCCAA CTTCAGAGGC TCCACAACCT GCTGTACCAG CTCCTGGAAA GAAGAAAGCA
    CAGTATGAAG AACCGCAAGC TCCACCACCA GTGACTTCAG TCATCACAAC TGAAGTAGAC
    ATGAGATATT ACAATTATTT GCTGAATCCA ATTCGAGAGG AATTCATTTC TGTGCCCCTG
    ATACTGCATT GTATGCTGGA ACAGGTTGTT GCAACTGAAG AAGATCTCGT CCCACCCAGT
    CTGCGGGAGC CATCCCCCAG AGCAGACGGG CTAGACCACA GAATCGCAGC TCACATTGTG
    TCCCTTCTGC CCTCACTCTG TCTCTCAGAG AGGGAGAAAA AGAATCTTCA TGACATATTT
    TTATCTGAAG AAGAAAATGA AAGCAAAGCA GTGCCCAAAG GCCCCCTCCT ACTGAACTAT
    CATGATGCAC ACGCCCACAA GAAGTACGCA CTACAGGACC AAAAGAATTT TGATCCAGTT
    CAAATTGAGC AGGAGATGCA GTCCAAGTTG CCACTGTGGG AATTTCTTCA ATTCCCTCTA
    CCCCCACCAT GGAACAACAC TAAACGTCTA GCTACAATTC ATGAGCTTAT GCACTTTTGT
    ACGAGTGATG TCTTGAGCTG GAATGAAGTA GAACGAGCCT TCAAGGTGTT TACTTTTGAG
    AGCCTGAAGC TCTCTGAGGT TGATGAAAAA GGGAAACTGA AACCTTCTGG GATGATGTGT
    GGGTCAGATT CTGAAATGTT CAACATACCG TGGGACAACC CTGCCAGATT TGCTAAACAG
    ATAAGGCAGC AATATGTCAT GAAAATGAAT ACTCAAGAGG CCAAGCAGAA AGCAGATATT
    AAAATCAAAG ACAGAACACT ATTTGTGGAT CAGAATTTGT CAATGTCTGT GCAAGATAAT
    GAAAGCAACC GAGAACCTTC AGATCCTAGT CAGTGTGATG CTAACAATAT GAAGCATTCT
    GACTTGAATA ATCTCAAACT CTCAGTCCCT GATAATAGAC AGCTGTTAGA GCAGGAGAGC
    ATCATGAAGG CTCAGCCCCA ACATGAGTCT CTGGAGCAGA CCACAAACAA TGAGATCAAA
    GATGATGCAG TCACAAAGGC TGATTCTCAT GAAAAGAAAC CCAAGAAGAT GATGGTGGAA
    GCAGATTTAG AGGACATAAA GAAAACACAG CAGCGCAGTC TAATGGACTG GAGTTTTACT
    GAACATTTTA AACCGAAAGT ACTGCTTCAG GTCCTTCAAG AAGCCCATAA GCAATATAGG
    TGTGTTGATT CTTACTACCA CACCCAAGAC AACTCTTTAC TTTTAGTCTT TCACAATCCA
    ATGAATAGAC AACGTTTGCA TTGTGAATAT TGGAACATTG CTCTCCACTC CAATGTTGGA
    TTCAGGAATT ATTTGGAACT TGTTGCAAAA TCTATTCAAG ATTGGATTAC AAAAGAAGAA
    GCTATATATC AGGAATCTAA AATGAATGAG AAAATCATCA GGACCAGAGC TGAGCTGGAA
    TTGAAATCTT CTGCTAATGC CAAACTTACT TCTGCTAGCA AAATTTTTTC CATTAAAGAA
    TCTAAAAGTA ACAAAGGAAT CAGCAAAACA GAGATATCAG ATCAAGAAAA AGAAAAAGAG
    AAGGAAAAGA TTCCTTTCAT TTTAGAAGGC TCTCTCAAGG CATGGAAAGA AGAGCAACAT
    CGATTAGCAG AAGAGGAGCG CTTAAGGGAA GAAAAGAAAG CAGAGAAGAA GGGTAAAGAA
    GCTGGTAAAA AGAAAGGCAA GGATAACGCA GAGAAAGAGG ATAGTAGGTC TTTGAAGAAA
    AAATCACCTT ACAAGGAGAA ATCTAAAGAA GAACAAGTCA AGATCCAAGA AGTAACAGAA
    GAGTCCCCCC ACCAACCAGA ACCTAAGATA ACTTACCCGT TTCACGGATA CAATATGGGA
    AATATACCCA CTCAAATCTC AGGGTCAAAT TACTACCTGT ATCCTTCTGA TGGGGGGCAG
    ATTGAAGTGG AAAAGACAAT GTTTGAAAAA GGCCCAACTT TTATCAAAGT GAGAGTGGTA
    AAGGACAACC ACAATTTTAT GATTCATTTA AATGACCCTA AGGAAATTGT GAAAAAGGAA
    GAGAAAGGGG ATTATTATTT AGAAGAGGAA GAAGAAGGAG ATGAGGAACA AAGTCTTGAA
    ACGGAAGTAT CAGATGCAAA GAATAAAGCT TTCAGCAAGT TTGGATCTTT TTCTGCCACC
    TTAGAAAATG GAATCTGCCT CTCGATAAGT TACTATGGAT CAAATGGAAT GGCACCAGAA
    GATAAGGATC CTGATTTAGA AACAATATTG AATATCCCTT CAGCACTCAC TCCAACAGTG
    GTTCCTGTTA TAGTGACCGT TCCTCAAAGC AAAGCTAAAG GGAAAATAAA AGGCAAAGAA
    AAACCCAAAG AATCCCTTAA AGAAGAAGAA CACCCAAAAG AAGAAGAGAA AAAGGAAGAA
    GAAGTAGAAC CAGAACCTGT TTTACAAGAG ACTTTGGATG TTCCCACCTT CCAGAGCCTA
    AATGTGTCTT GCCCCAGTGG GCTCCTGTTG ACTTTCATTG GACAAGAATC TACAGGTCAA
    TATGTTATAG ATGAGGAACC CACCTGGGAC ATCATGGTCC GTCAGAGCTA CCCCCAGAGG
    GTGAAGCACT ATGAGTTCTA TAAAACGGTG ATGCCACCCG CAGAGCAGGA GGCTTCAAGG
    GTTATCACCA GTCAAGGCAC TGTTGTCAAA TATATGTTGG ATGGATCCAC ACAGATTCTC
    TTTGCAGATG GTGCTGTGAG CAGGAGTCCC AATTCAGGTC TTATTTGTCC TCCTTCTGAA
    ATGCCAGCAA CGCCTCACAG TGGAGATTTG ATGGACTCTA TTTCTCAGCA GAAATCAGAA
    ACGATACCAT CTGAGATTAC CAACACAAAG AAAGGAAAAA GTCACAAAAG TCAGTCATCA
    ATGGCCCATA AGGGTGAAAT CCATGACCCT CCTCCAGAGG CAGTTCAAAC TGTAACTCCT
    GTGGAGGTTC ACATAGGCAC CTGGTTTACA ACCACACCTG AAGGAAATCG GATCGGCACC
    AAAGGATTAG AAAGAATAGC AGACTTGACC CCATTGTTAT CCTTTCAGGC CACAGATCCT
    GTCAATGGAA CGGTTATGAC AACTCGAGAA GACAAAGTTG TCATAGTTGA AAGGAAAGAT
    GGTACTCGGA TAGTGGATCA TGCTGATGGT ACCAGAATCA CAACCTTTTA TCAAGTTTAT
    GAAGATCAAA TTATTCTGCC AGATGATCAA GAAACAACCG AGGGTCCTCG GACTGTCACC
    AGGCAGGTGA AGTGTATGCG GGTAGAAAGC TCACGCTATG CCACTGTTAT CGCCAACTGT
    GAGGACAGTA GCTGCTGTGC CACCTTTGGA GATGGAACAA CTATTATTGC AAAGCCACAG
    GGAACATACC AGGTGTTACC TCCAAACACA GGCTCTCTTT ATATTGACAA GGATTGTTCA
    GCTGTGTACT GCCATGAGTC AAGCAGTAAT ATATACTATC CTTTTCAAAA GCGTGAGCAG
    CTGCGAGCTG GCAGGTACAT CATGAGGCAT ACTTCAGAGG TTATCTGTGA GGTTCTGGAT
    CCTGAGGGAA ACACTTTTCA GGTCATGGCT GATGGTAGCA TATCAACTAT ATTACCTGAA
    AAAAAATTGG AAGATGATTT AAATGAGAAA ACTGAGGGCT ATGATAGTCT GTCCTCTATG
    CACCTTGAAA AGAATCATCA GCAAATCTAT GGTGAACATG TCCCCAGGTT TTTTGTTATG
    TATGCTGATG GATCAGGAAT GGAACTTCTT CGAGACAGTG ACATAGAAGA ATATCTATCT
    TTGGCATATA AAGAATCAAA TACTGTTGTT CTCCAAGAGC CAGTGCAGGA ACAGCCAGGC
    ACCCTAACCA TCACAGTCCT TCGCCCTTTC CATGAAGCAT CACCATGGCA AGTAAAAAAG
    GAAGATACAA TTGTCCCTCC TAATCTCCGG TCAAGGTCAT GGGAAACATT TCCCTCAGTT
    GAGAAAAAAA CTCCAGGACC TCCGTTTGGT ACTCAGATTT GGAAAGGCCT TTGCATTGAG
    TCCAAACAGC TAGTGAGTGC CCCGGGTGCC ATACTCAAGA GCCCCAGTGT GCTACAGATG
    CGCCAATTCA TTCAGCATGA GGTCATAAAG AATGAGGTGA AACTGAGGCT GCAGGTTTCC
    CTTAAGGATT ACATAAACTA TATTCTAAAG AAAGAAGATG AGCTGCAGGA AATGATGGTT
    AAAGATTCCA GAACTGAGGA GGAGAGAGGC AATGCTGCTG ATCTCCTCAA GCTGGTTATG
    TCTTTCCCTA AAATGGAGGA AACTACAAAA AGTCATGTTA CTGAAGTTGC AGCTCACCTA
    ACTGATTTAT TCAAGCAGTC TTTGGCTACG CCTCCAAAAT GCCCACCAGA CACATTTGGT
    AAAGATTTCT TTGAAAAGAC ATGGAGACAC ACAGCATCCT CAAAACGCTG GAAAGAAAAG
    ATAGACAAAA CGAGGAAGGA AATTGAGACA ACACAGAATT ACCTAATGGA TATTAAGAAC
    CGCATAATAC CACCCTTTTT TAAATCTGAA TTGAACCAGT TATATCAGTC TCAGTATAAT
    CACCTGGACA GTCTTTCCAA AAAACTGCCT TCTTTTACAA AGAAAAATGA AGATGCAAAC
    GAAACAGCTG TTCAAGATAC ATCTGATCTT AATCTAGATT TCAAGCCACA TAAGGTTTCA
    GAACAGAAAT CCTCAAGTGT GCCTAGTCTT CCAAAACCAG AGATTTCTGC AGATAAGAAG
    GATTTCACTG CTCAGAACCA AACTGAAAAT TTAACAAAAT CTCCTGAAGA AGCAGAATCT
    TATGAGCCCG TGAAAATTCC AACCCAGTCC TTGCTGCAGG ATGTTGCGGG ACAAACAAGA
    AAAGAAAAAG TGAAGTTGCC TCATTATTTG CTGAGTTCCA AGCCTAAGTC TCAACCTCTT
    GCAAAGGTGC AAGATTCTGT TGGAGGAAAA GTGAACACAT CCTCTGTTGC ATCTGCTGCC
    ATTAATAATG CAAAGTCATC CCTTTTTGGG TTCCATCTTC TCCCATCATC AGTCAAGTTT
    GGAGTGCTTA AGGAAGGACA TACCTATGCC ACAGTTGTAA AGCTCAAGAA TGTTGGAGTG
    GACTTCTGCA GGTTTAAAGT AAAGCAGCCC CCACCCAGCA CAGGACTGAA AGTGACTTAC
    AAACCTGGAC CTGTGGCAGC TGGTATGCAG ACAGAACTGA ATATAGAGTT ATTTGCCACA
    GCTGTTGGAG AGGATGGGGC CAAGGGATCA GCACACATCT CTCACAATAT CGAGATTATG
    ACAGAGCATG AGGTTCTGTT CCTACCTGTG GAAGCAACTG TTTTAACAAG CAGCAATTAT
    GATAAACGAC CAAAAGACTT TCCCCAGGGA AAAGAAAATC CAATGGTCCA GAGAACTTCT
    ACAATTTATT CCTCCACACT TGGAGTCTTC ATGTCTCGTA AAGTTTCTCC ACATTAG

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

    RefSeq XP_006710490.1
    CDS69..6545
    Translation

    Target ORF information:

    RefSeq Version XM_006710427.3
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006710427.3

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGATCTAG AAGCAGAAAA ATTGAAGAAA
    GAAAATGCCA TAAAAGAGCT TAAAACTTTC TGGAAGTACT TGGAACCAGT CCTGAATAAT
    GAGAAACCTG AAACAAATCT CTTTGATGTT GCTCGACTTG AGTACATGGT CAAAGCAGCT
    GATTTTCCTT CTGACTGGTC AGATGGTGAG ATGATGCTGA AATTGGGCAC TGATATTTTT
    GAAAATATTG CCTGCTTGAT GTATGACATC CTGGATTGGA AAAGGCAGCA CCAGCACTAT
    TTGGAAAGCA TGCAGCTTAT TAATGTTCCA CAAGTGGTTA ATGAGAAACC TGTATTAGAA
    GCCATGCCAA CTTCAGAGGC TCCACAACCT GCTGTACCAG CTCCTGGAAA GAAGAAAGCA
    CAGTATGAAG AACCGCAAGC TCCACCACCA GTGACTTCAG TCATCACAAC TGAAGTAGAC
    ATGAGATATT ACAATTATTT GCTGAATCCA ATTCGAGAGG AATTCATTTC TGTGCCCCTG
    ATACTGCATT GTATGCTGGA ACAGGTTGTT GCAACTGAAG AAGATCTCGT CCCACCCAGT
    CTGCGGGAGC CATCCCCCAG AGCAGACGGG CTAGACCACA GAATCGCAGC TCACATTGTG
    TCCCTTCTGC CCTCACTCTG TCTCTCAGAG AGGGAGAAAA AGAATCTTCA TGACATATTT
    TTATCTGAAG AAGAAAATGA AAGCAAAGCA GTGCCCAAAG GCCCCCTCCT ACTGAACTAT
    CATGATGCAC ACGCCCACAA GAAGTACGCA CTACAGGACC AAAAGAATTT TGATCCAGTT
    CAAATTGAGC AGGAGATGCA GTCCAAGTTG CCACTGTGGG AATTTCTTCA ATTCCCTCTA
    CCCCCACCAT GGAACAACAC TAAACGTCTA GCTACAATTC ATGAGCTTAT GCACTTTTGT
    ACGAGTGATG TCTTGAGCTG GAATGAAGTA GAACGAGCCT TCAAGGTGTT TACTTTTGAG
    AGCCTGAAGC TCTCTGAGGT TGATGAAAAA GGGAAACTGA AACCTTCTGG GATGATGTGT
    GGGTCAGATT CTGAAATGTT CAACATACCG TGGGACAACC CTGCCAGATT TGCTAAACAG
    ATAAGGCAGC AATATGTCAT GAAAATGAAT ACTCAAGAGG CCAAGCAGAA AGCAGATATT
    AAAATCAAAG ACAGAACACT ATTTGTGGAT CAGAATTTGT CAATGTCTGT GCAAGATAAT
    GAAAGCAACC GAGAACCTTC AGATCCTAGT CAGTGTGATG CTAACAATAT GAAGCATTCT
    GACTTGAATA ATCTCAAACT CTCAGTCCCT GATAATAGAC AGCTGTTAGA GCAGGAGAGC
    ATCATGAAGG CTCAGCCCCA ACATGAGTCT CTGGAGCAGA CCACAAACAA TGAGATCAAA
    GATGATGCAG TCACAAAGGC TGATTCTCAT GAAAAGAAAC CCAAGAAGAT GATGGTGGAA
    GCAGATTTAG AGGACATAAA GAAAACACAG CAGCGCAGTC TAATGGACTG GAGTTTTACT
    GAACATTTTA AACCGAAAGT ACTGCTTCAG GTCCTTCAAG AAGCCCATAA GCAATATAGG
    TGTGTTGATT CTTACTACCA CACCCAAGAC AACTCTTTAC TTTTAGTCTT TCACAATCCA
    ATGAATAGAC AACGTTTGCA TTGTGAATAT TGGAACATTG CTCTCCACTC CAATGTTGGA
    TTCAGGAATT ATTTGGAACT TGTTGCAAAA TCTATTCAAG ATTGGATTAC AAAAGAAGAA
    GCTATATATC AGGAATCTAA AATGAATGAG AAAATCATCA GGACCAGAGC TGAGCTGGAA
    TTGAAATCTT CTGCTAATGC CAAACTTACT TCTGCTAGCA AAATTTTTTC CATTAAAGAA
    TCTAAAAGTA ACAAAGGAAT CAGCAAAACA GAGATATCAG ATCAAGAAAA AGAAAAAGAG
    AAGGAAAAGA TTCCTTTCAT TTTAGAAGGC TCTCTCAAGG CATGGAAAGA AGAGCAACAT
    CGATTAGCAG AAGAGGAGCG CTTAAGGGAA GAAAAGAAAG CAGAGAAGAA GGGTAAAGAA
    GCTGGTAAAA AGAAAGGCAA GGATAACGCA GAGAAAGAGG ATAGTAGGTC TTTGAAGAAA
    AAATCACCTT ACAAGGAGAA ATCTAAAGAA GAACAAGTCA AGATCCAAGA AGTAACAGAA
    GAGTCCCCCC ACCAACCAGA ACCTAAGATA ACTTACCCGT TTCACGGATA CAATATGGGA
    AATATACCCA CTCAAATCTC AGGGTCAAAT TACTACCTGT ATCCTTCTGA TGGGGGGCAG
    ATTGAAGTGG AAAAGACAAT GTTTGAAAAA GGCCCAACTT TTATCAAAGT GAGAGTGGTA
    AAGGACAACC ACAATTTTAT GATTCATTTA AATGACCCTA AGGAAATTGT GAAAAAGGAA
    GAGAAAGGGG ATTATTATTT AGAAGAGGAA GAAGAAGGAG ATGAGGAACA AAGTCTTGAA
    ACGGAAGTAT CAGATGCAAA GAATAAAGCT TTCAGCAAGT TTGGATCTTT TTCTGCCACC
    TTAGAAAATG GAATCTGCCT CTCGATAAGT TACTATGGAT CAAATGGAAT GGCACCAGAA
    GATAAGGATC CTGATTTAGA AACAATATTG AATATCCCTT CAGCACTCAC TCCAACAGTG
    GTTCCTGTTA TAGTGACCGT TCCTCAAAGC AAAGCTAAAG GGAAAATAAA AGGCAAAGAA
    AAACCCAAAG AATCCCTTAA AGAAGAAGAA CACCCAAAAG AAGAAGAGAA AAAGGAAGAA
    GAAGTAGAAC CAGAACCTGT TTTACAAGAG ACTTTGGATG TTCCCACCTT CCAGAGCCTA
    AATGTGTCTT GCCCCAGTGG GCTCCTGTTG ACTTTCATTG GACAAGAATC TACAGGTCAA
    TATGTTATAG ATGAGGAACC CACCTGGGAC ATCATGGTCC GTCAGAGCTA CCCCCAGAGG
    GTGAAGCACT ATGAGTTCTA TAAAACGGTG ATGCCACCCG CAGAGCAGGA GGCTTCAAGG
    GTTATCACCA GTCAAGGCAC TGTTGTCAAA TATATGTTGG ATGGATCCAC ACAGATTCTC
    TTTGCAGATG GTGCTGTGAG CAGGAGTCCC AATTCAGGTC TTATTTGTCC TCCTTCTGAA
    ATGCCAGCAA CGCCTCACAG TGGAGATTTG ATGGACTCTA TTTCTCAGCA GAAATCAGAA
    ACGATACCAT CTGAGATTAC CAACACAAAG AAAGGAAAAA GTCACAAAAG TCAGTCATCA
    ATGGCCCATA AGGGTGAAAT CCATGACCCT CCTCCAGAGG CAGTTCAAAC TGTAACTCCT
    GTGGAGGTTC ACATAGGCAC CTGGTTTACA ACCACACCTG AAGGAAATCG GATCGGCACC
    AAAGGATTAG AAAGAATAGC AGACTTGACC CCATTGTTAT CCTTTCAGGC CACAGATCCT
    GTCAATGGAA CGGTTATGAC AACTCGAGAA GACAAAGTTG TCATAGTTGA AAGGAAAGAT
    GGTACTCGGA TAGTGGATCA TGCTGATGGT ACCAGAATCA CAACCTTTTA TCAAGTTTAT
    GAAGATCAAA TTATTCTGCC AGATGATCAA GAAACAACCG AGGGTCCTCG GACTGTCACC
    AGGCAGGTGA AGTGTATGCG GGTAGAAAGC TCACGCTATG CCACTGTTAT CGCCAACTGT
    GAGGACAGTA GCTGCTGTGC CACCTTTGGA GATGGAACAA CTATTATTGC AAAGCCACAG
    GGAACATACC AGGTGTTACC TCCAAACACA GGCTCTCTTT ATATTGACAA GGATTGTTCA
    GCTGTGTACT GCCATGAGTC AAGCAGTAAT ATATACTATC CTTTTCAAAA GCGTGAGCAG
    CTGCGAGCTG GCAGGTACAT CATGAGGCAT ACTTCAGAGG TTATCTGTGA GGTTCTGGAT
    CCTGAGGGAA ACACTTTTCA GGTCATGGCT GATGGTAGCA TATCAACTAT ATTACCTGAA
    AAAAAATTGG AAGATGATTT AAATGAGAAA ACTGAGGGCT ATGATAGTCT GTCCTCTATG
    CACCTTGAAA AGAATCATCA GCAAATCTAT GGTGAACATG TCCCCAGGTT TTTTGTTATG
    TATGCTGATG GATCAGGAAT GGAACTTCTT CGAGACAGTG ACATAGAAGA ATATCTATCT
    TTGGCATATA AAGAATCAAA TACTGTTGTT CTCCAAGAGC CAGTGCAGGA ACAGCCAGGC
    ACCCTAACCA TCACAGTCCT TCGCCCTTTC CATGAAGCAT CACCATGGCA AGTAAAAAAG
    GAAGATACAA TTGTCCCTCC TAATCTCCGG TCAAGGTCAT GGGAAACATT TCCCTCAGTT
    GAGAAAAAAA CTCCAGGACC TCCGTTTGGT ACTCAGATTT GGAAAGGCCT TTGCATTGAG
    TCCAAACAGC TAGTGAGTGC CCCGGGTGCC ATACTCAAGA GCCCCAGTGT GCTACAGATG
    CGCCAATTCA TTCAGCATGA GGTCATAAAG AATGAGGTGA AACTGAGGCT GCAGGTTTCC
    CTTAAGGATT ACATAAACTA TATTCTAAAG AAAGAAGATG AGCTGCAGGA AATGATGGTT
    AAAGATTCCA GAACTGAGGA GGAGAGAGGC AATGCTGCTG ATCTCCTCAA GCTGGTTATG
    TCTTTCCCTA AAATGGAGGA AACTACAAAA AGTCATGTTA CTGAAGTTGC AGCTCACCTA
    ACTGATTTAT TCAAGCAGTC TTTGGCTACG CCTCCAAAAT GCCCACCAGA CACATTTGGT
    AAAGATTTCT TTGAAAAGAC ATGGAGACAC ACAGCATCCT CAAAACGCTG GAAAGAAAAG
    ATAGACAAAA CGAGGAAGGA AATTGAGACA ACACAGAATT ACCTAATGGA TATTAAGAAC
    CGCATAATAC CACCCTTTTT TAAATCTGAA TTGAACCAGT TATATCAGTC TCAGTATAAT
    CACCTGGACA GTCTTTCCAA AAAACTGCCT TCTTTTACAA AGAAAAATGA AGATGCAAAC
    GAAACAGCTG TTCAAGATAC ATCTGATCTT AATCTAGATT TCAAGCCACA TAAGGTTTCA
    GAACAGAAAT CCTCAAGTGT GCCTAGTCTT CCAAAACCAG AGATTTCTGC AGATAAGAAG
    GATTTCACTG CTCAGAACCA AACTGAAAAT TTAACAAAAT CTCCTGAAGA AGCAGAATCT
    TATGAGCCCG TGAAAATTCC AACCCAGTCC TTGCTGCAGG ATGTTGCGGG ACAAACAAGA
    AAAGAAAAAG TGAAGTTGCC TCATTATTTG CTGAGTTCCA AGCCTAAGTC TCAACCTCTT
    GCAAAGGTGC AAGATTCTGT TGGAGGAAAA GTGAACACAT CCTCTGTTGC ATCTGCTGCC
    ATTAATAATG CAAAGTCATC CCTTTTTGGG TTCCATCTTC TCCCATCATC AGTCAAGTTT
    GGAGTGCTTA AGGAAGGACA TACCTATGCC ACAGTTGTAA AGCTCAAGAA TGTTGGAGTG
    GACTTCTGCA GGTTTAAAGT AAAGCAGCCC CCACCCAGCA CAGGACTGAA AGTGACTTAC
    AAACCTGGAC CTGTGGCAGC TGGTATGCAG ACAGAACTGA ATATAGAGTT ATTTGCCACA
    GCTGTTGGAG AGGATGGGGC CAAGGGATCA GCACACATCT CTCACAATAT CGAGATTATG
    ACAGAGCATG AGGTTCTGTT CCTACCTGTG GAAGCAACTG TTTTAACAAG CAGCAATTAT
    GATAAACGAC CAAAAGACTT TCCCCAGGGA AAAGAAAATC CAATGGTCCA GAGAACTTCT
    ACAATTTATT CCTCCACACT TGGAGTCTTC ATGTCTCGTA AAGTTTCTCC ACATTAG

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

    CloneID OHu77634
    Clone ID Related Accession (Same CDS sequence) XM_011540934.1
    Accession Version XM_011540934.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6540bp)
    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 sperm-associated antigen 17 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGAAGCAGAA
    TCTTATGAGC CCGTGAAAAT TCCAACCCAG TCCTTGCTGC AGGATGTTGC GGGACAAACA
    AGAAAAGAAA AAGTGAAGTT GCCTCATTAT TTGCTGAGTT CCAAGCCTAA GTCTCAACCT
    CTTGCAAAGG TGCAAGATTC TGTTGGAGGA AAAGTGAACA CATCCTCTGT TGCATCTGCT
    GCCATTAATA ATGCAAAGTC ATCCCTTTTT GGGTTCCATC TTCTCCCATC ATCAGTCAAG
    TTTGGAGTGC TTAAGGAAGG ACATACCTAT GCCACAGTTG TAAAGCTCAA GAATGTTGGA
    GTGGACTTCT GCAGGTTTAA AGTAAAGCAG CCCCCACCCA GCACAGGACT GAAAGTGACT
    TACAAACCTG GACCTGTGGC AGCTGGTATG CAGACAGAAC TGAATATAGA GTTATTTGCC
    ACAGCTGTTG GAGAGGATGG GGCCAAGGGA TCAGCACACA TCTCTCACAA TATCGAGATT
    ATGACAGAGC ATGAGGTTCT GTTCCTACCT GTGGAAGCAA CTGTTTTAAC AAGCAGCAAT
    TATGATAAAC GACCAAAAGA CTTTCCCCAG GGAAAAGAAA ATCCAATGGT CCAGAGAACT
    TCTACAATTT ATTCCTCCAC ACTTGGAGTC TTCATGTCTC GTAAAGTTTC TCCACATTAG

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

    RefSeq XP_011539236.1
    CDS69..6608
    Translation

    Target ORF information:

    RefSeq Version XM_011540934.1
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540934.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    ATGGCACCCA AGAAGGAGAA AGGAGGAACT GTGAACACCA GTTCTAAGAT ATGGGAACCC 
    TCGCTCATAG CTGCACAGTT CAATCAGAAC GATTGGCAGG CCTCCATTGC TTTTGTGGTT
    GGGAACCAGA TTGAAGATGA TCTTCTCATC CAAGCCCTTA CCGTGGCTGT CCAGGTCCCT
    CAGCGTAAAC TCTTCAGTAT GGTGTCGTGG CAAGACATTC TCCAGCAGAT TAATGAAATA
    AATACACTTG TTGGATCTGC TTCATCTAAA AAGGCAAAAA AACCTGTAGG TGGTAATGCT
    CCTTTATATT ATGAGGTGTT AACGGCAGCA AAAGCAATTA TGGATAGTGG AGAGAAATTA
    ACCTTACCAC TGATAGGGAA ACTCTTGAAA TTTCAACTTC TCCAGATTAA ATTTAAGGAC
    CAACAGCGAC GGGAAAATGA AAAGAAGGTA ATAGAAGACA AACCTAAGTT AGAAAAGGAT
    AAAGGGAAAG CAAAATCTCC CAAGGAGAAA AAGGCTCCAA GTGCCAAGCC TGCCAAAGGA
    AAGGGAAAGG ATCAGCCTGA GGCAAATGCA CCAGTGAAAA AGACCACCCA GTTAAAGCGG
    AGAGGAGAAG ACGACCACAC CAATCGTTAC ATTGACGATG AGCCAGATGA TGGTGCCCAA
    CATTACATTA TAGTTGTGGG CTTTAACAAT CCTCAGCTAT TAGCAATTAT GGCTGAGCTT
    GGCATTCCTA TAACCAGCGT GATTAAAATA TCTTCAGAGA ATTATGAACC TCTGCAGACA
    CACCTGGCAG CAGTTAACCA GCAGCAGGAA GTTCTTCTTC AGTCAGAAGA TCTAGAAGCA
    GAAAAATTGA AGAAAGAAAA TGCCATAAAA GAGCTTAAAA CTTTCTGGAA GTACTTGGAA
    CCAGTCCTGA ATAATGAGAA ACCTGAAACA AATCTCTTTG ATGTTGCTCG ACTTGAGTAC
    ATGGTCAAAG CAGCTGATTT TCCTTCTGAC TGGTCAGATG GTGAGATGAT GCTGAAATTG
    GGCACTGATA TTTTTGAAAA TATTGCCTGC TTGATGTATG ACATCCTGGA TTGGAAAAGG
    CAGCACCAGC ACTATTTGGA AAGCATGCAG CTTATTAATG TTCCACAAGT GGTTAATGAG
    AAACCTGTAT TAGAAGCCAT GCCAACTTCA GAGGCTCCAC AACCTGCTGT ACCAGCTCCT
    GGAAAGAAGA AAGCACAGTA TGAAGAACCG CAAGCTCCAC CACCAGTGAC TTCAGTCATC
    ACAACTGAAG TAGACATGAG ATATTACAAT TATTTGCTGA ATCCAATTCG AGAGGAATTC
    ATTTCTGTGC CCCTGATACT GCATTGTATG CTGGAACAGG TTGTTGCAAC TGAAGAAGAT
    CTCGTCCCAC CCAGTCTGCG GGAGCCATCC CCCAGAGCAG ACGGGCTAGA CCACAGAATC
    GCAGCTCACA TTGTGTCCCT TCTGCCCTCA CTCTGTCTCT CAGAGAGGGA GAAAAAGAAT
    CTTCATGACA TATTTTTATC TGAAGAAGAA AATGAAAGCA AAGCAGTGCC CAAAGGCCCC
    CTCCTACTGA ACTATCATGA TGCACACGCC CACAAGAAGT ACGCACTACA GGACCAAAAG
    AATTTTGATC CAGTTCAAAT TGAGCAGGAG ATGCAGTCCA AGTTGCCACT GTGGGAATTT
    CTTCAATTCC CTCTACCCCC ACCATGGAAC AACACTAAAC GTCTAGCTAC AATTCATGAG
    CTTATGCACT TTTGTACGAG TGATGTCTTG AGCTGGAATG AAGTAGAACG AGCCTTCAAG
    GTGTTTACTT TTGAGAGCCT GAAGCTCTCT GAGGTTGATG AAAAAGGGAA ACTGAAACCT
    TCTGGGATGA TGTGTGGGTC AGATTCTGAA ATGTTCAACA TACCGTGGGA CAACCCTGCC
    AGATTTGCTA AACAGATAAG GCAGCAATAT GTCATGAAAA TGAATACTCA AGAGGCCAAG
    CAGAAAGCAG ATATTAAAAT CAAAGACAGA ACACTATTTG TGGATCAGAA TTTGTCAATG
    TCTGTGCAAG ATAATGAAAG CAACCGAGAA CCTTCAGATC CTAGTCAGTG TGATGCTAAC
    AATATGAAGC ATTCTGACTT GAATAATCTC AAACTCTCAG TCCCTGATAA TAGACAGCTG
    TTAGAGCAGG AGAGCATCAT GAAGGCTCAG CCCCAACATG AGTCTCTGGA GCAGACCACA
    AACAATGAGA TCAAAGATGA TGCAGTCACA AAGGCTGATT CTCATGAAAA GAAACCCAAG
    AAGATGATGG TGGAAGCAGA TTTAGAGGAC ATAAAGAAAA CACAGCAGCG CAGTCTAATG
    GACTGGAGTT TTACTGAACA TTTTAAACCG AAAGTACTGC TTCAGGTCCT TCAAGAAGCC
    CATAAGCAAT ATAGGTGTGT TGATTCTTAC TACCACACCC AAGACAACTC TTTACTTTTA
    GTCTTTCACA ATCCAATGAA TAGACAACGT TTGCATTGTG AATATTGGAA CATTGCTCTC
    CACTCCAATG TTGGATTCAG GAATTATTTG GAACTTGTTG CAAAATCTAT TCAAGATTGG
    ATTACAAAAG AAGAAGCTAT ATATCAGGAA TCTAAAATGA ATGAGAAAAT CATCAGGACC
    AGAGCTGAGC TGGAATTGAA ATCTTCTGCT AATGCCAAAC TTACTTCTGC TAGCAAAATT
    TTTTCCATTA AAGAATCTAA AAGTAACAAA GGAATCAGCA AAACAGAGAT ATCAGATCAA
    GAAAAAGAAA AAGAGAAGGA AAAGATTCCT TTCATTTTAG AAGGCTCTCT CAAGGCATGG
    AAAGAAGAGC AACATCGATT AGCAGAAGAG GAGCGCTTAA GGGAAGAAAA GAAAGCAGAG
    AAGAAGGGTA AAGAAGCTGG TAAAAAGAAA GGCAAGGATA ACGCAGAGAA AGAGGATAGT
    AGGTCTTTGA AGAAAAAATC ACCTTACAAG GAGAAATCTA AAGAAGAACA AGTCAAGATC
    CAAGAAGTAA CAGAAGAGTC CCCCCACCAA CCAGAACCTA AGATAACTTA CCCGTTTCAC
    GGATACAATA TGGGAAATAT ACCCACTCAA ATCTCAGGGT CAAATTACTA CCTGTATCCT
    TCTGATGGGG GGCAGATTGA AGTGGAAAAG ACAATGTTTG AAAAAGGCCC AACTTTTATC
    AAAGTGAGAG TGGTAAAGGA CAACCACAAT TTTATGATTC ATTTAAATGA CCCTAAGGAA
    ATTGTGAAAA AGGAAGAGAA AGGGGATTAT TATTTAGAAG AGGAAGAAGA AGGAGATGAG
    GAACAAAGTC TTGAAACGGA AGTATCAGAT GCAAAGAATA AAGCTTTCAG CAAGTTTGGA
    TCTTTTTCTG CCACCTTAGA AAATGGAATC TGCCTCTCGA TAAGTTACTA TGGATCAAAT
    GGAATGGCAC CAGAAGATAA GGATCCTGAT TTAGAAACAA TATTGAATAT CCCTTCAGCA
    CTCACTCCAA CAGTGGTTCC TGTTATAGTG ACCGTTCCTC AAAGCAAAGC TAAAGGGAAA
    ATAAAAGGCA AAGAAAAACC CAAAGAATCC CTTAAAGAAG AAGAACACCC AAAAGAAGAA
    GAGAAAAAGG AAGAAGAAGT AGAACCAGAA CCTGTTTTAC AAGAGACTTT GGATGTTCCC
    ACCTTCCAGA GCCTAAATGT GTCTTGCCCC AGTGGGCTCC TGTTGACTTT CATTGGACAA
    GAATCTACAG GTCAATATGT TATAGATGAG GAACCCACCT GGGACATCAT GGTCCGTCAG
    AGCTACCCCC AGAGGGTGAA GCACTATGAG TTCTATAAAA CGGTGATGCC ACCCGCAGAG
    CAGGAGGCTT CAAGGGTTAT CACCAGTCAA GGCACTGTTG TCAAATATAT GTTGGATGGA
    TCCACACAGA TTCTCTTTGC AGATGGTGCT GTGAGCAGGA GTCCCAATTC AGGTCTTATT
    TGTCCTCCTT CTGAAATGCC AGCAACGCCT CACAGTGGAG ATTTGATGGA CTCTATTTCT
    CAGCAGAAAT CAGAAACGAT ACCATCTGAG ATTACCAACA CAAAGAAAGG AAAAAGTCAC
    AAAAGTCAGT CATCAATGGC CCATAAGGGT GAAATCCATG ACCCTCCTCC AGAGGCAGTT
    CAAACTGTAA CTCCTGTGGA GGTTCACATA GGCACCTGGT TTACAACCAC ACCTGAAGGA
    AATCGGATCG GCACCAAAGG ATTAGAAAGA ATAGCAGACT TGACCCCATT GTTATCCTTT
    CAGGCCACAG ATCCTGTCAA TGGAACGGTT ATGACAACTC GAGAAGACAA AGTTGTCATA
    GTTGAAAGGA AAGATGGTAC TCGGATAGTG GATCATGCTG ATGGTACCAG AATCACAACC
    TTTTATCAAG TTTATGAAGA TCAAATTATT CTGCCAGATG ATCAAGAAAC AACCGAGGGT
    CCTCGGACTG TCACCAGGCA GGTGAAGTGT ATGCGGGTAG AAAGCTCACG CTATGCCACT
    GTTATCGCCA ACTGTGAGGA CAGTAGCTGC TGTGCCACCT TTGGAGATGG AACAACTATT
    ATTGCAAAGC CACAGGGAAC ATACCAGGTG TTACCTCCAA ACACAGGCTC TCTTTATATT
    GACAAGGATT GTTCAGCTGT GTACTGCCAT GAGTCAAGCA GTAATATATA CTATCCTTTT
    CAAAAGCGTG AGCAGCTGCG AGCTGGCAGG TACATCATGA GGCATACTTC AGAGGTTATC
    TGTGAGGTTC TGGATCCTGA GGGAAACACT TTTCAGGTCA TGGCTGATGG TAGCATATCA
    ACTATATTAC CTGAAAAAAA ATTGGAAGAT GATTTAAATG AGAAAACTGA GGGCTATGAT
    AGTCTGTCCT CTATGCACCT TGAAAAGAAT CATCAGCAAA TCTATGGTGA ACATGTCCCC
    AGGTTTTTTG TTATGTATGC TGATGGATCA GGAATGGAAC TTCTTCGAGA CAGTGACATA
    GAAGAATATC TATCTTTGGC ATATAAAGAA TCAAATACTG TTGTTCTCCA AGAGCCAGTG
    CAGGAACAGC CAGGCACCCT AACCATCACA GTCCTTCGCC CTTTCCATGA AGCATCACCA
    TGGCAAGTAA AAAAGGAAGA TACAATTGTC CCTCCTAATC TCCGGTCAAG GTCATGGGAA
    ACATTTCCCT CAGTTGAGAA AAAAACTCCA GGACCTCCGT TTGGTACTCA GATTTGGAAA
    GGCCTTTGCA TTGAGTCCAA ACAGCTAGTG AGTGCCCCGG GTGCCATACT CAAGAGCCCC
    AGTGTGCTAC AGATGCGCCA ATTCATTCAG CATGAGGTCA TAAAGAATGA GGTGAAACTG
    AGGCTGCAGG TTTCCCTTAA GGATTACATA AACTATATTC TAAAGAAAGA AGATGAGCTG
    CAGGAAATGA TGGTTAAAGA TTCCAGAACT GAGGAGGAGA GAGGCAATGC TGCTGATCTC
    CTCAAGCTGG TTATGTCTTT CCCTAAAATG GAGGAAACTA CAAAAAGTCA TGTTACTGAA
    GTTGCAGCTC ACCTAACTGA TTTATTCAAG CAGTCTTTGG CTACGCCTCC AAAATGCCCA
    CCAGACACAT TTGGTAAAGA TTTCTTTGAA AAGACATGGA GACACACAGC ATCCTCAAAA
    CGCTGGAAAG AAAAGATAGA CAAAACGAGG AAGGAAATTG AGACAACACA GAATTACCTA
    ATGGATATTA AGAACCGCAT AATACCACCC TTTTTTAAAT CTGAATTGAA CCAGTTATAT
    CAGTCTCAGT ATAATCACCT GGACAGTCTT TCCAAAAAAC TGCCTTCTTT TACAAAGAAA
    AATGAAGATG CAAACGAAAC AGCTGTTCAA GATACATCTG ATCTTAATCT AGAAGCAGAA
    TCTTATGAGC CCGTGAAAAT TCCAACCCAG TCCTTGCTGC AGGATGTTGC GGGACAAACA
    AGAAAAGAAA AAGTGAAGTT GCCTCATTAT TTGCTGAGTT CCAAGCCTAA GTCTCAACCT
    CTTGCAAAGG TGCAAGATTC TGTTGGAGGA AAAGTGAACA CATCCTCTGT TGCATCTGCT
    GCCATTAATA ATGCAAAGTC ATCCCTTTTT GGGTTCCATC TTCTCCCATC ATCAGTCAAG
    TTTGGAGTGC TTAAGGAAGG ACATACCTAT GCCACAGTTG TAAAGCTCAA GAATGTTGGA
    GTGGACTTCT GCAGGTTTAA AGTAAAGCAG CCCCCACCCA GCACAGGACT GAAAGTGACT
    TACAAACCTG GACCTGTGGC AGCTGGTATG CAGACAGAAC TGAATATAGA GTTATTTGCC
    ACAGCTGTTG GAGAGGATGG GGCCAAGGGA TCAGCACACA TCTCTCACAA TATCGAGATT
    ATGACAGAGC ATGAGGTTCT GTTCCTACCT GTGGAAGCAA CTGTTTTAAC AAGCAGCAAT
    TATGATAAAC GACCAAAAGA CTTTCCCCAG GGAAAAGAAA ATCCAATGGT CCAGAGAACT
    TCTACAATTT ATTCCTCCAC ACTTGGAGTC TTCATGTCTC GTAAAGTTTC TCCACATTAG

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

    CloneID OHu77635
    Clone ID Related Accession (Same CDS sequence) XM_011540935.2
    Accession Version XM_011540935.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6333bp)
    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 sperm-associated antigen 17 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_011540935.1. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGGATAGTG GAGAGAAATT AACCTTACCA CTGATAGGGA AACTCTTGAA ATTTCAACTT 
    CTCCAGATTA AATTTAAGGA CCAACAGCGA CGGGAAAATG AAAAGAAGGT AATAGAAGAC
    AAACCTAAGT TAGAAAAGGA TAAAGGGAAA GCAAAATCTC CCAAGGAGAA AAAGGCTCCA
    AGTGCCAAGC CTGCCAAAGG AAAGGGAAAG GATCAGCCTG AGGCAAATGC ACCAGTGAAA
    AAGACCACCC AGTTAAAGCG GAGAGGAGAA GACGACCACA CCAATCGTTA CATTGACGAT
    GAGCCAGATG ATGGTGCCCA ACATTACATT ATAGTTGTGG GCTTTAACAA TCCTCAGCTA
    TTAGCAATTA TGGCTGAGCT TGGCATTCCT ATAACCAGCG TGATTAAAAT ATCTTCAGAG
    AATTATGAAC CTCTGCAGAC ACACCTGGCA GCAGTTAACC AGCAGCAGGA AGTTCTTCTT
    CAGTCAGAAG ATCTAGAAGC AGAAAAATTG AAGAAAGAAA ATGCCATAAA AGAGCTTAAA
    ACTTTCTGGA AGTACTTGGA ACCAGTCCTG AATAATGAGA AACCTGAAAC AAATCTCTTT
    GATGTTGCTC GACTTGAGTA CATGGTCAAA GCAGCTGATT TTCCTTCTGA CTGGTCAGAT
    GGTGAGATGA TGCTGAAATT GGGCACTGAT ATTTTTGAAA ATATTGCCTG CTTGATGTAT
    GACATCCTGG ATTGGAAAAG GCAGCACCAG CACTATTTGG AAAGCATGCA GCTTATTAAT
    GTTCCACAAG TGGTTAATGA GAAACCTGTA TTAGAAGCCA TGCCAACTTC AGAGGCTCCA
    CAACCTGCTG TACCAGCTCC TGGAAAGAAG AAAGCACAGT ATGAAGAACC GCAAGCTCCA
    CCACCAGTGA CTTCAGTCAT CACAACTGAA GTAGACATGA GATATTACAA TTATTTGCTG
    AATCCAATTC GAGAGGAATT CATTTCTGTG CCCCTGATAC TGCATTGTAT GCTGGAACAG
    GTTGTTGCAA CTGAAGAAGA TCTCGTCCCA CCCAGTCTGC GGGAGCCATC CCCCAGAGCA
    GACGGGCTAG ACCACAGAAT CGCAGCTCAC ATTGTGTCCC TTCTGCCCTC ACTCTGTCTC
    TCAGAGAGGG AGAAAAAGAA TCTTCATGAC ATATTTTTAT CTGAAGAAGA AAATGAAAGC
    AAAGCAGTGC CCAAAGGCCC CCTCCTACTG AACTATCATG ATGCACACGC CCACAAGAAG
    TACGCACTAC AGGACCAAAA GAATTTTGAT CCAGTTCAAA TTGAGCAGGA GATGCAGTCC
    AAGTTGCCAC TGTGGGAATT TCTTCAATTC CCTCTACCCC CACCATGGAA CAACACTAAA
    CGTCTAGCTA CAATTCATGA GCTTATGCAC TTTTGTACGA GTGATGTCTT GAGCTGGAAT
    GAAGTAGAAC GAGCCTTCAA GGTGTTTACT TTTGAGAGCC TGAAGCTCTC TGAGGTTGAT
    GAAAAAGGGA AACTGAAACC TTCTGGGATG ATGTGTGGGT CAGATTCTGA AATGTTCAAC
    ATACCGTGGG ACAACCCTGC CAGATTTGCT AAACAGATAA GGCAGCAATA TGTCATGAAA
    ATGAATACTC AAGAGGCCAA GCAGAAAGCA GATATTAAAA TCAAAGACAG AACACTATTT
    GTGGATCAGA ATTTGTCAAT GTCTGTGCAA GATAATGAAA GCAACCGAGA ACCTTCAGAT
    CCTAGTCAGT GTGATGCTAA CAATATGAAG CATTCTGACT TGAATAATCT CAAACTCTCA
    GTCCCTGATA ATAGACAGCT GTTAGAGCAG GAGAGCATCA TGAAGGCTCA GCCCCAACAT
    GAGTCTCTGG AGCAGACCAC AAACAATGAG ATCAAAGATG ATGCAGTCAC AAAGGCTGAT
    TCTCATGAAA AGAAACCCAA GAAGATGATG GTGGAAGCAG ATTTAGAGGA CATAAAGAAA
    ACACAGCAGC GCAGTCTAAT GGACTGGAGT TTTACTGAAC ATTTTAAACC GAAAGTACTG
    CTTCAGGTCC TTCAAGAAGC CCATAAGCAA TATAGGTGTG TTGATTCTTA CTACCACACC
    CAAGACAACT CTTTACTTTT AGTCTTTCAC AATCCAATGA ATAGACAACG TTTGCATTGT
    GAATATTGGA ACATTGCTCT CCACTCCAAT GTTGGATTCA GGAATTATTT GGAACTTGTT
    GCAAAATCTA TTCAAGATTG GATTACAAAA GAAGAAGCTA TATATCAGGA ATCTAAAATG
    AATGAGAAAA TCATCAGGAC CAGAGCTGAG CTGGAATTGA AATCTTCTGC TAATGCCAAA
    CTTACTTCTG CTAGCAAAAT TTTTTCCATT AAAGAATCTA AAAGTAACAA AGGAATCAGC
    AAAACAGAGA TATCAGATCA AGAAAAAGAA AAAGAGAAGG AAAAGATTCC TTTCATTTTA
    GAAGGCTCTC TCAAGGCATG GAAAGAAGAG CAACATCGAT TAGCAGAAGA GGAGCGCTTA
    AGGGAAGAAA AGAAAGCAGA GAAGAAGGGT AAAGAAGCTG GTAAAAAGAA AGGCAAGGAT
    AACGCAGAGA AAGAGGATAG TAGGTCTTTG AAGAAAAAAT CACCTTACAA GGAGAAATCT
    AAAGAAGAAC AAGTCAAGAT CCAAGAAGTA ACAGAAGAGT CCCCCCACCA ACCAGAACCT
    AAGATAACTT ACCCGTTTCA CGGATACAAT ATGGGAAATA TACCCACTCA AATCTCAGGG
    TCAAATTACT ACCTGTATCC TTCTGATGGG GGGCAGATTG AAGTGGAAAA GACAATGTTT
    GAAAAAGGCC CAACTTTTAT CAAAGTGAGA GTGGTAAAGG ACAACCACAA TTTTATGATT
    CATTTAAATG ACCCTAAGGA AATTGTGAAA AAGGAAGAGA AAGGGGATTA TTATTTAGAA
    GAGGAAGAAG AAGGAGATGA GGAACAAAGT CTTGAAACGG AAGTATCAGA TGCAAAGAAT
    AAAGCTTTCA GCAAGTTTGG ATCTTTTTCT GCCACCTTAG AAAATGGAAT CTGCCTCTCG
    ATAAGTTACT ATGGATCAAA TGGAATGGCA CCAGAAGATA AGGATCCTGA TTTAGAAACA
    ATATTGAATA TCCCTTCAGC ACTCACTCCA ACAGTGGTTC CTGTTATAGT GACCGTTCCT
    CAAAGCAAAG CTAAAGGGAA AATAAAAGGC AAAGAAAAAC CCAAAGAATC CCTTAAAGAA
    GAAGAACACC CAAAAGAAGA AGAGAAAAAG GAAGAAGAAG TAGAACCAGA ACCTGTTTTA
    CAAGAGACTT TGGATGTTCC CACCTTCCAG AGCCTAAATG TGTCTTGCCC CAGTGGGCTC
    CTGTTGACTT TCATTGGACA AGAATCTACA GGTCAATATG TTATAGATGA GGAACCCACC
    TGGGACATCA TGGTCCGTCA GAGCTACCCC CAGAGGGTGA AGCACTATGA GTTCTATAAA
    ACGGTGATGC CACCCGCAGA GCAGGAGGCT TCAAGGGTTA TCACCAGTCA AGGCACTGTT
    GTCAAATATA TGTTGGATGG ATCCACACAG ATTCTCTTTG CAGATGGTGC TGTGAGCAGG
    AGTCCCAATT CAGGTCTTAT TTGTCCTCCT TCTGAAATGC CAGCAACGCC TCACAGTGGA
    GATTTGATGG ACTCTATTTC TCAGCAGAAA TCAGAAACGA TACCATCTGA GATTACCAAC
    ACAAAGAAAG GAAAAAGTCA CAAAAGTCAG TCATCAATGG CCCATAAGGG TGAAATCCAT
    GACCCTCCTC CAGAGGCAGT TCAAACTGTA ACTCCTGTGG AGGTTCACAT AGGCACCTGG
    TTTACAACCA CACCTGAAGG AAATCGGATC GGCACCAAAG GATTAGAAAG AATAGCAGAC
    TTGACCCCAT TGTTATCCTT TCAGGCCACA GATCCTGTCA ATGGAACGGT TATGACAACT
    CGAGAAGACA AAGTTGTCAT AGTTGAAAGG AAAGATGGTA CTCGGATAGT GGATCATGCT
    GATGGTACCA GAATCACAAC CTTTTATCAA GTTTATGAAG ATCAAATTAT TCTGCCAGAT
    GATCAAGAAA CAACCGAGGG TCCTCGGACT GTCACCAGGC AGGTGAAGTG TATGCGGGTA
    GAAAGCTCAC GCTATGCCAC TGTTATCGCC AACTGTGAGG ACAGTAGCTG CTGTGCCACC
    TTTGGAGATG GAACAACTAT TATTGCAAAG CCACAGGGAA CATACCAGGT GTTACCTCCA
    AACACAGGCT CTCTTTATAT TGACAAGGAT TGTTCAGCTG TGTACTGCCA TGAGTCAAGC
    AGTAATATAT ACTATCCTTT TCAAAAGCGT GAGCAGCTGC GAGCTGGCAG GTACATCATG
    AGGCATACTT CAGAGGTTAT CTGTGAGGTT CTGGATCCTG AGGGAAACAC TTTTCAGGTC
    ATGGCTGATG GTAGCATATC AACTATATTA CCTGAAAAAA AATTGGAAGA TGATTTAAAT
    GAGAAAACTG AGGGCTATGA TAGTCTGTCC TCTATGCACC TTGAAAAGAA TCATCAGCAA
    ATCTATGGTG AACATGTCCC CAGGTTTTTT GTTATGTATG CTGATGGATC AGGAATGGAA
    CTTCTTCGAG ACAGTGACAT AGAAGAATAT CTATCTTTGG CATATAAAGA ATCAAATACT
    GTTGTTCTCC AAGAGCCAGT GCAGGAACAG CCAGGCACCC TAACCATCAC AGTCCTTCGC
    CCTTTCCATG AAGCATCACC ATGGCAAGTA AAAAAGGAAG ATACAATTGT CCCTCCTAAT
    CTCCGGTCAA GGTCATGGGA AACATTTCCC TCAGTTGAGA AAAAAACTCC AGGACCTCCG
    TTTGGTACTC AGATTTGGAA AGGCCTTTGC ATTGAGTCCA AACAGCTAGT GAGTGCCCCG
    GGTGCCATAC TCAAGAGCCC CAGTGTGCTA CAGATGCGCC AATTCATTCA GCATGAGGTC
    ATAAAGAATG AGGTGAAACT GAGGCTGCAG GTTTCCCTTA AGGATTACAT AAACTATATT
    CTAAAGAAAG AAGATGAGCT GCAGGAAATG ATGGTTAAAG ATTCCAGAAC TGAGGAGGAG
    AGAGGCAATG CTGCTGATCT CCTCAAGCTG GTTATGTCTT TCCCTAAAAT GGAGGAAACT
    ACAAAAAGTC ATGTTACTGA AGTTGCAGCT CACCTAACTG ATTTATTCAA GCAGTCTTTG
    GCTACGCCTC CAAAATGCCC ACCAGACACA TTTGGTAAAG ATTTCTTTGA AAAGACATGG
    AGACACACAG CATCCTCAAA ACGCTGGAAA GAAAAGATAG ACAAAACGAG GAAGGAAATT
    GAGACAACAC AGAATTACCT AATGGATATT AAGAACCGCA TAATACCACC CTTTTTTAAA
    TCTGAATTGA ACCAGTTATA TCAGTCTCAG TATAATCACC TGGACAGTCT TTCCAAAAAA
    CTGCCTTCTT TTACAAAGAA AAATGAAGAT GCAAACGAAA CAGCTGTTCA AGATACATCT
    GATCTTAATC TAGATTTCAA GCCACATAAG GTTTCAGAAC AGAAATCCTC AAGTGTGCCT
    AGTCTTCCAA AACCAGAGAT TTCTGCAGAT AAGAAGGATT TCACTGCTCA GAACCAAACT
    GAAAATTTAA CAAAATCTCC TGAAGAAGCA GAATCTTATG AGCCCGTGAA AATTCCAACC
    CAGTCCTTGC TGCAGGATGT TGCGGGACAA ACAAGAAAAG AAAAAGTGAA GTTGCCTCAT
    TATTTGCTGA GTTCCAAGCC TAAGTCTCAA CCTCTTGCAA AGGTGCAAGA TTCTGTTGGA
    GGAAAAGTGA ACACATCCTC TGTTGCATCT GCTGCCATTA ATAATGCAAA GTCATCCCTT
    TTTGGGTTCC ATCTTCTCCC ATCATCAGTC AAGTTTGGAG TGCTTAAGGA AGGACATACC
    TATGCCACAG TTGTAAAGCT CAAGAATGTT GGAGTGGACT TCTGCAGGTT TAAAGTAAAG
    CAGCCCCCAC CCAGCACAGG ACTGAAAGTG ACTTACAAAC CTGGACCTGT GGCAGCTGGT
    ATGCAGACAG AACTGAATAT AGAGTTATTT GCCACAGCTG TTGGAGAGGA TGGGGCCAAG
    GGATCAGCAC ACATCTCTCA CAATATCGAG ATTATGACAG AGCATGAGGT TCTGTTCCTA
    CCTGTGGAAG CAACTGTTTT AACAAGCAGC AATTATGATA AACGACCAAA AGACTTTCCC
    CAGGGAAAAG AAAATCCAAT GGTCCAGAGA ACTTCTACAA TTTATTCCTC CACACTTGGA
    GTCTTCATGT CTCGTAAAGT TTCTCCACAT TAG

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

    RefSeq XP_011539237.1
    CDS247..6579
    Translation

    Target ORF information:

    RefSeq Version XM_011540935.2
    Organism Homo sapiens(human)
    Definition Homo sapiens sperm associated antigen 17 (SPAG17), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011540935.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGGATAGTG GAGAGAAATT AACCTTACCA CTGATAGGGA AACTCTTGAA ATTTCAACTT 
    CTCCAGATTA AATTTAAGGA CCAACAGCGA CGGGAAAATG AAAAGAAGGT AATAGAAGAC
    AAACCTAAGT TAGAAAAGGA TAAAGGGAAA GCAAAATCTC CCAAGGAGAA AAAGGCTCCA
    AGTGCCAAGC CTGCCAAAGG AAAGGGAAAG GATCAGCCTG AGGCAAATGC ACCAGTGAAA
    AAGACCACCC AGTTAAAGCG GAGAGGAGAA GACGACCACA CCAATCGTTA CATTGACGAT
    GAGCCAGATG ATGGTGCCCA ACATTACATT ATAGTTGTGG GCTTTAACAA TCCTCAGCTA
    TTAGCAATTA TGGCTGAGCT TGGCATTCCT ATAACCAGCG TGATTAAAAT ATCTTCAGAG
    AATTATGAAC CTCTGCAGAC ACACCTGGCA GCAGTTAACC AGCAGCAGGA AGTTCTTCTT
    CAGTCAGAAG ATCTAGAAGC AGAAAAATTG AAGAAAGAAA ATGCCATAAA AGAGCTTAAA
    ACTTTCTGGA AGTACTTGGA ACCAGTCCTG AATAATGAGA AACCTGAAAC AAATCTCTTT
    GATGTTGCTC GACTTGAGTA CATGGTCAAA GCAGCTGATT TTCCTTCTGA CTGGTCAGAT
    GGTGAGATGA TGCTGAAATT GGGCACTGAT ATTTTTGAAA ATATTGCCTG CTTGATGTAT
    GACATCCTGG ATTGGAAAAG GCAGCACCAG CACTATTTGG AAAGCATGCA GCTTATTAAT
    GTTCCACAAG TGGTTAATGA GAAACCTGTA TTAGAAGCCA TGCCAACTTC AGAGGCTCCA
    CAACCTGCTG TACCAGCTCC TGGAAAGAAG AAAGCACAGT ATGAAGAACC GCAAGCTCCA
    CCACCAGTGA CTTCAGTCAT CACAACTGAA GTAGACATGA GATATTACAA TTATTTGCTG
    AATCCAATTC GAGAGGAATT CATTTCTGTG CCCCTGATAC TGCATTGTAT GCTGGAACAG
    GTTGTTGCAA CTGAAGAAGA TCTCGTCCCA CCCAGTCTGC GGGAGCCATC CCCCAGAGCA
    GACGGGCTAG ACCACAGAAT CGCAGCTCAC ATTGTGTCCC TTCTGCCCTC ACTCTGTCTC
    TCAGAGAGGG AGAAAAAGAA TCTTCATGAC ATATTTTTAT CTGAAGAAGA AAATGAAAGC
    AAAGCAGTGC CCAAAGGCCC CCTCCTACTG AACTATCATG ATGCACACGC CCACAAGAAG
    TACGCACTAC AGGACCAAAA GAATTTTGAT CCAGTTCAAA TTGAGCAGGA GATGCAGTCC
    AAGTTGCCAC TGTGGGAATT TCTTCAATTC CCTCTACCCC CACCATGGAA CAACACTAAA
    CGTCTAGCTA CAATTCATGA GCTTATGCAC TTTTGTACGA GTGATGTCTT GAGCTGGAAT
    GAAGTAGAAC GAGCCTTCAA GGTGTTTACT TTTGAGAGCC TGAAGCTCTC TGAGGTTGAT
    GAAAAAGGGA AACTGAAACC TTCTGGGATG ATGTGTGGGT CAGATTCTGA AATGTTCAAC
    ATACCGTGGG ACAACCCTGC CAGATTTGCT AAACAGATAA GGCAGCAATA TGTCATGAAA
    ATGAATACTC AAGAGGCCAA GCAGAAAGCA GATATTAAAA TCAAAGACAG AACACTATTT
    GTGGATCAGA ATTTGTCAAT GTCTGTGCAA GATAATGAAA GCAACCGAGA ACCTTCAGAT
    CCTAGTCAGT GTGATGCTAA CAATATGAAG CATTCTGACT TGAATAATCT CAAACTCTCA
    GTCCCTGATA ATAGACAGCT GTTAGAGCAG GAGAGCATCA TGAAGGCTCA GCCCCAACAT
    GAGTCTCTGG AGCAGACCAC AAACAATGAG ATCAAAGATG ATGCAGTCAC AAAGGCTGAT
    TCTCATGAAA AGAAACCCAA GAAGATGATG GTGGAAGCAG ATTTAGAGGA CATAAAGAAA
    ACACAGCAGC GCAGTCTAAT GGACTGGAGT TTTACTGAAC ATTTTAAACC GAAAGTACTG
    CTTCAGGTCC TTCAAGAAGC CCATAAGCAA TATAGGTGTG TTGATTCTTA CTACCACACC
    CAAGACAACT CTTTACTTTT AGTCTTTCAC AATCCAATGA ATAGACAACG TTTGCATTGT
    GAATATTGGA ACATTGCTCT CCACTCCAAT GTTGGATTCA GGAATTATTT GGAACTTGTT
    GCAAAATCTA TTCAAGATTG GATTACAAAA GAAGAAGCTA TATATCAGGA ATCTAAAATG
    AATGAGAAAA TCATCAGGAC CAGAGCTGAG CTGGAATTGA AATCTTCTGC TAATGCCAAA
    CTTACTTCTG CTAGCAAAAT TTTTTCCATT AAAGAATCTA AAAGTAACAA AGGAATCAGC
    AAAACAGAGA TATCAGATCA AGAAAAAGAA AAAGAGAAGG AAAAGATTCC TTTCATTTTA
    GAAGGCTCTC TCAAGGCATG GAAAGAAGAG CAACATCGAT TAGCAGAAGA GGAGCGCTTA
    AGGGAAGAAA AGAAAGCAGA GAAGAAGGGT AAAGAAGCTG GTAAAAAGAA AGGCAAGGAT
    AACGCAGAGA AAGAGGATAG TAGGTCTTTG AAGAAAAAAT CACCTTACAA GGAGAAATCT
    AAAGAAGAAC AAGTCAAGAT CCAAGAAGTA ACAGAAGAGT CCCCCCACCA ACCAGAACCT
    AAGATAACTT ACCCGTTTCA CGGATACAAT ATGGGAAATA TACCCACTCA AATCTCAGGG
    TCAAATTACT ACCTGTATCC TTCTGATGGG GGGCAGATTG AAGTGGAAAA GACAATGTTT
    GAAAAAGGCC CAACTTTTAT CAAAGTGAGA GTGGTAAAGG ACAACCACAA TTTTATGATT
    CATTTAAATG ACCCTAAGGA AATTGTGAAA AAGGAAGAGA AAGGGGATTA TTATTTAGAA
    GAGGAAGAAG AAGGAGATGA GGAACAAAGT CTTGAAACGG AAGTATCAGA TGCAAAGAAT
    AAAGCTTTCA GCAAGTTTGG ATCTTTTTCT GCCACCTTAG AAAATGGAAT CTGCCTCTCG
    ATAAGTTACT ATGGATCAAA TGGAATGGCA CCAGAAGATA AGGATCCTGA TTTAGAAACA
    ATATTGAATA TCCCTTCAGC ACTCACTCCA ACAGTGGTTC CTGTTATAGT GACCGTTCCT
    CAAAGCAAAG CTAAAGGGAA AATAAAAGGC AAAGAAAAAC CCAAAGAATC CCTTAAAGAA
    GAAGAACACC CAAAAGAAGA AGAGAAAAAG GAAGAAGAAG TAGAACCAGA ACCTGTTTTA
    CAAGAGACTT TGGATGTTCC CACCTTCCAG AGCCTAAATG TGTCTTGCCC CAGTGGGCTC
    CTGTTGACTT TCATTGGACA AGAATCTACA GGTCAATATG TTATAGATGA GGAACCCACC
    TGGGACATCA TGGTCCGTCA GAGCTACCCC CAGAGGGTGA AGCACTATGA GTTCTATAAA
    ACGGTGATGC CACCCGCAGA GCAGGAGGCT TCAAGGGTTA TCACCAGTCA AGGCACTGTT
    GTCAAATATA TGTTGGATGG ATCCACACAG ATTCTCTTTG CAGATGGTGC TGTGAGCAGG
    AGTCCCAATT CAGGTCTTAT TTGTCCTCCT TCTGAAATGC CAGCAACGCC TCACAGTGGA
    GATTTGATGG ACTCTATTTC TCAGCAGAAA TCAGAAACGA TACCATCTGA GATTACCAAC
    ACAAAGAAAG GAAAAAGTCA CAAAAGTCAG TCATCAATGG CCCATAAGGG TGAAATCCAT
    GACCCTCCTC CAGAGGCAGT TCAAACTGTA ACTCCTGTGG AGGTTCACAT AGGCACCTGG
    TTTACAACCA CACCTGAAGG AAATCGGATC GGCACCAAAG GATTAGAAAG AATAGCAGAC
    TTGACCCCAT TGTTATCCTT TCAGGCCACA GATCCTGTCA ATGGAACGGT TATGACAACT
    CGAGAAGACA AAGTTGTCAT AGTTGAAAGG AAAGATGGTA CTCGGATAGT GGATCATGCT
    GATGGTACCA GAATCACAAC CTTTTATCAA GTTTATGAAG ATCAAATTAT TCTGCCAGAT
    GATCAAGAAA CAACCGAGGG TCCTCGGACT GTCACCAGGC AGGTGAAGTG TATGCGGGTA
    GAAAGCTCAC GCTATGCCAC TGTTATCGCC AACTGTGAGG ACAGTAGCTG CTGTGCCACC
    TTTGGAGATG GAACAACTAT TATTGCAAAG CCACAGGGAA CATACCAGGT GTTACCTCCA
    AACACAGGCT CTCTTTATAT TGACAAGGAT TGTTCAGCTG TGTACTGCCA TGAGTCAAGC
    AGTAATATAT ACTATCCTTT TCAAAAGCGT GAGCAGCTGC GAGCTGGCAG GTACATCATG
    AGGCATACTT CAGAGGTTAT CTGTGAGGTT CTGGATCCTG AGGGAAACAC TTTTCAGGTC
    ATGGCTGATG GTAGCATATC AACTATATTA CCTGAAAAAA AATTGGAAGA TGATTTAAAT
    GAGAAAACTG AGGGCTATGA TAGTCTGTCC TCTATGCACC TTGAAAAGAA TCATCAGCAA
    ATCTATGGTG AACATGTCCC CAGGTTTTTT GTTATGTATG CTGATGGATC AGGAATGGAA
    CTTCTTCGAG ACAGTGACAT AGAAGAATAT CTATCTTTGG CATATAAAGA ATCAAATACT
    GTTGTTCTCC AAGAGCCAGT GCAGGAACAG CCAGGCACCC TAACCATCAC AGTCCTTCGC
    CCTTTCCATG AAGCATCACC ATGGCAAGTA AAAAAGGAAG ATACAATTGT CCCTCCTAAT
    CTCCGGTCAA GGTCATGGGA AACATTTCCC TCAGTTGAGA AAAAAACTCC AGGACCTCCG
    TTTGGTACTC AGATTTGGAA AGGCCTTTGC ATTGAGTCCA AACAGCTAGT GAGTGCCCCG
    GGTGCCATAC TCAAGAGCCC CAGTGTGCTA CAGATGCGCC AATTCATTCA GCATGAGGTC
    ATAAAGAATG AGGTGAAACT GAGGCTGCAG GTTTCCCTTA AGGATTACAT AAACTATATT
    CTAAAGAAAG AAGATGAGCT GCAGGAAATG ATGGTTAAAG ATTCCAGAAC TGAGGAGGAG
    AGAGGCAATG CTGCTGATCT CCTCAAGCTG GTTATGTCTT TCCCTAAAAT GGAGGAAACT
    ACAAAAAGTC ATGTTACTGA AGTTGCAGCT CACCTAACTG ATTTATTCAA GCAGTCTTTG
    GCTACGCCTC CAAAATGCCC ACCAGACACA TTTGGTAAAG ATTTCTTTGA AAAGACATGG
    AGACACACAG CATCCTCAAA ACGCTGGAAA GAAAAGATAG ACAAAACGAG GAAGGAAATT
    GAGACAACAC AGAATTACCT AATGGATATT AAGAACCGCA TAATACCACC CTTTTTTAAA
    TCTGAATTGA ACCAGTTATA TCAGTCTCAG TATAATCACC TGGACAGTCT TTCCAAAAAA
    CTGCCTTCTT TTACAAAGAA AAATGAAGAT GCAAACGAAA CAGCTGTTCA AGATACATCT
    GATCTTAATC TAGATTTCAA GCCACATAAG GTTTCAGAAC AGAAATCCTC AAGTGTGCCT
    AGTCTTCCAA AACCAGAGAT TTCTGCAGAT AAGAAGGATT TCACTGCTCA GAACCAAACT
    GAAAATTTAA CAAAATCTCC TGAAGAAGCA GAATCTTATG AGCCCGTGAA AATTCCAACC
    CAGTCCTTGC TGCAGGATGT TGCGGGACAA ACAAGAAAAG AAAAAGTGAA GTTGCCTCAT
    TATTTGCTGA GTTCCAAGCC TAAGTCTCAA CCTCTTGCAA AGGTGCAAGA TTCTGTTGGA
    GGAAAAGTGA ACACATCCTC TGTTGCATCT GCTGCCATTA ATAATGCAAA GTCATCCCTT
    TTTGGGTTCC ATCTTCTCCC ATCATCAGTC AAGTTTGGAG TGCTTAAGGA AGGACATACC
    TATGCCACAG TTGTAAAGCT CAAGAATGTT GGAGTGGACT TCTGCAGGTT TAAAGTAAAG
    CAGCCCCCAC CCAGCACAGG ACTGAAAGTG ACTTACAAAC CTGGACCTGT GGCAGCTGGT
    ATGCAGACAG AACTGAATAT AGAGTTATTT GCCACAGCTG TTGGAGAGGA TGGGGCCAAG
    GGATCAGCAC ACATCTCTCA CAATATCGAG ATTATGACAG AGCATGAGGT TCTGTTCCTA
    CCTGTGGAAG CAACTGTTTT AACAAGCAGC AATTATGATA AACGACCAAA AGACTTTCCC
    CAGGGAAAAG AAAATCCAAT GGTCCAGAGA ACTTCTACAA TTTATTCCTC CACACTTGGA
    GTCTTCATGT CTCGTAAAGT TTCTCCACAT TAG

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

feedback

Do you like the current new website?

Hate

Dislike

Neutral

Like

Love

*