ORF » Species Summary » Homo sapiens » SPATA31D1 cDNA ORF clone

SPATA31D1 cDNA ORF clone, Homo sapiens(human)

The following SPATA31D1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SPATA31D1 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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu12705 NM_001001670.3
Latest version!		 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$579.50-$811.30
$1159.00
OHu98641 XM_017014710.2
Latest version!		 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OHu98641 XM_017014710.1 Homo sapiens SPATA31 subfamily D, member 1 (SPATA31D1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu12705 NM_001001670.2 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
Hide Old Accession Versions >>

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** 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)
    SPATA31D1 ( NM_001001670.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001001670.1 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA.
    Price & Availability↑
    CloneID OHu12705
    Clone ID Related Accession (Same CDS sequence) NM_001001670.2 , NM_001001670.3
    Accession Version NM_001001670.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4731bp)
    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 spermatogenesis-associated protein 31D1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK128831.1 and AL355985.18. On May 17, 2019 this sequence version replaced NM_001001670.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AK128831.1, DB093176.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000344803.3/ ENSP00000341988.2 RefSeq Select criteria :: based on 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
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTGACTCA 
    CATTGGTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTGGTATT GACCCTGTAT TCGTCACCCA CCGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAAGAGGAGA AGGAAAGGTG GGACATTCAA AGGTTTCCCA 
    GACTGGAAAA GTTTCCAGAG AGAAGAGGAA GAGGAAAGGA AGCTGCTTTC TCTTCTGAAA 
    AGCTTTGGAC CTCCTGTTTC CTGCAGTCCT CGGGGCCAGC ATCATGATAC CAACCACTTT 
    CGTCGACTGT TATGCCCAGA CCCCGTCTGT CGGGTGTGTA AGAGAGCAAC TGCTGATATC 
    CAGCAACTGC TGTCTTGGGA GTCCCTGAAA GATGCTGCTC CCTCTGTGTC CCCTTTGGCT 
    TCTTCGGCTT CTGCGACTGA GTCATCGTTC ACTCTGGCTT CCACCCCCTC AGCAACCCCT 
    CCAGAAGACC TAATACTGTC CCCTCGGCCT AAGGCCTCTC CACCACCCCC CTTAATTCTC 
    TCACCTGACC TGATCACCAC CTTAGCTGAC TTATTTTCAC CCTCACCACT GAGGGACCCT 
    CTGCCACCAC AGCCTGTTTC TCCCTTGGAT TCCAAGTTCC CCATAGACCA TTCCCCACCC 
    CAACAGCTTC CCTTTCCCCT TCTCCCACCA CATCACATTG AGAGAGTGGA GTCCAGCCTC 
    CAACCTGAAG CCAGTTTGTC TCTGAACACC ATCTTTTCAT TTGGCTCCAC CCTATGCCAA 
    GATATTTCGC AGGCCATGAA TCCCATTGAT TCTTGTGCTC GTCATCACGG ACCACCAATC 
    CCATCTGCTT TACCACCGGA AGATTGCACT GTGACTCAGT CTAAATCAAG TCTCACCATC 
    TTGAAGACTT TTCCGGAAAT GTTATCTCTA GGTGGCTCTG GTGGGTCATC CACCTCTGCC 
    CCAACAATCA AAGGCATTGA CCATTCACAC CTTGCATCTT CAGAATTCAC CTGGTGGCAG 
    CCTCATGCCA AGGACTCTTT TTCCTCTAAT TTTGTGCCAT CTGATTTCAT GGAGGAGCTT 
    CTTACCCTTC ATTCTTCTGA GGCCTTTTTA GGGGGGCACT CTGTGGCCAA CCTCATAGAG 
    CCTGTTAACA TCTCATTTCT CAGCCATGAC ATTCTGGCAC TCCTGGAGAG ACAAGTCAAA 
    AAAAGGGGTG ATTTCCTGAT GTGGAAAGAA AATGGAAAGA AACCAGGATC ATTCCCAAAA 
    CAACTTAGGC CAAACTACCA ACTAAATTCC TCACGGAATA TGTTAACCTC AATTGCTGTT 
    AAGCATGACT TGGCAGAATC CTTTCCTTTT TGGGCCAGTA AAGGCAAACT AGAATGGCAG 
    CACATCCATC AGCAGCCTCC ACACTCTAAA TGCTTTGAAG ACCATTTAGA GCAAAAATAT 
    GTCCAGCTCT TCTGGGGTCT CCCATCTTTG CACAGCGAGT CTCTGCATCC TACTGTTCTT 
    GTCCAACGTG GCCATTCCTC CATGTTTGTA TTCTTCAATG GCATTACAAA TACATCTATA 
    TCCCATGAAT CCCCAGTACT TCCCCCTCCC CAACCTCTGT CCTTGCCTAG TACCCAACCA 
    CTACCCTTGC CTCAAACCCT GCCCCAAGGT CAGTCCCCAC ATCTCACTCA GGTGAAGTCC 
    CTGGCTCAAC CTCAATCTCC ATTCCGAGCC CTACTACCTA GTCCTCTATT CCTGATTAGG 
    ATCTGTGGAG TGTGTTTTCA TAGACCCCAG AACGAGGCAC GGTCTCTTTT GCCATCTGAA 
    ATTAACCATC TGGAGTGGAA CGTGTTGCAG AAAGTGCAGG AAAGTTTGTG GGGCTTACCC 
    TCTGTGGTTC AAAAATCCCA GGAAGACTTT TGTCCTCCAG CTCCCAATCC TGAATTGGTC 
    AGAAAGTCCT TCAAGGTCCA TGTTCCGATC TCCATCATTC CTGGAGATTT TCCACTCAGC 
    TCTGAGGTAA GGAAGAAACT AGAGCAACAC ATTCGAAGGA GGCTCATCCA GCGCAGATGG 
    GGCCTGCCCC GCAGAATCCA TGAGTCTCTG TCATTGCTAC GTCCTCAGAG CAAAATTTCA 
    GAGCTATCTG TGTCAGAGAG AATTCATGGA CCGTTAAATA TCTCTTTGGT TGAGGGTCAG 
    AGGTGCAATG TTCTAAAGAA GTCCGCATCA AGCTTCCCTA GAAGCTTCCA CGAGAGGAGC 
    TCAAATATGC TTTCCATGGA GAATGTGGGG AATTATCAGG GATACAGCCA GGAGACTGTC 
    CCAAAAGATC ACCTGTTGCA TGGTCCGGAG ACTTCTTCAG ACAAGGATCT GAGGTCTAAC 
    TCTGAGAGAG ACCTAGAAAC TCATATGATG CATCTGTCAG GGAATGACTC AGGGGTGAGA 
    CTAGGTCAGA AACAACTTGA AAATGCCCTG ACAGTACGTT TGAGCAAGAA ATTTGAGGAA 
    ATCAATGAGG GTCGAATGCC TGGGACTGTG CATAGTTCAT GGCACTCAGT CAAGCAGACA 
    ATGTCTCTTC CTGAGAAATC CCACAGCCAA ATTAAACATC GAAATCTGGT AACATTGGTG 
    AGTGAGGACC ACTGCGTTGA TACTTCCCAG GAAATTTCCT TCCTTAGTTC CAACAAACAA 
    AAGATGTTGG AAGCCCATAT TAAAACTTTC CGTATGAGGA TGCTGTGGGG CCTTCCCCTC 
    AAGGTCCTTG AATCCATAGA AATCTTCAAA TCGAAAGCGG ACCTTTCCAC TTCCTTTTCC 
    CATTTCGACC TTCCCTCCTC AGCCACCTTC ATCTCTCAGG GAGATTCCAA AGATGGGGTC 
    TCTAAGTCCC GTAGTCGAAG CACTTTTCAA GGAGAAAAGT TGGGAACAAC AAGCTCAGTC 
    CCCATCCTTG ATCGTCCTCA CCCTGTCTCC TCACCTGTCG TCCAAGAAGG GCAGGGGACC 
    CTGAGAAGAC AATTTTCTGA TACTGACCAT GACCTTATAG AGACAGATTC CAAAGACGGG 
    GCCTCCACAT CCCTTAGAAG AGGTACTACA GATTTTCAAA GCGAAAAATT AGATTCAACA 
    AGCTCATTCC CCATCCTCGG TCATTCTTAC CTTGTCACTT CACCTGTCAA CCAAGAAAAG 
    CAGGGGACCC TGAGAAGAGA ATTCTCTGAT ACTGACAATG ATCTTACAGA AAGTGTCCGG 
    ACAACAGAGG ATGGCAGACA GACTTTTCTG CCCCCGCCAC ACAGCATCGT AGACGAAGTC 
    AGTCAGAAAC AGACTGTACT GGCCAGTAGA TGCAGCGCAG AGCTGCCCAT AATGCAAGCT 
    GGAGCTGGCT GTGAGTCATG GGATAAGAGA AAGAGTTCCT TTCATAATGT AGACAGGCTT 
    CAGGGCAGTA GAAAGACCTT TCCTGTCACC AATGCTCTTC AATCACAAAC TAGGAACAAC 
    TTGACAACCA GCAAGTCAGG AAGCTGCTCA CTGACAAATG TGAAAGCAAG CACTTCCAAT 
    GAAACTGAAA TTTTCCCACC AAGAATATCA GTTCCTCAAG ATCCTAAATC ATCATACCTT 
    AAAAATCAGA TGTTGAGCCA GTTAAAGTTG GTCCAGAGGA AGCATAGCCA ACCTCAGAGC 
    CATTTCACTG ACATGTCTTT TGCCTTAGAT AACTTGAGTT CCAAGGACTT ACTGACTAAT 
    TCCCAGGGCA TCTCGAGTGG GGACATGGGA ACTTCCCAGG TGGTGCATGT CCACTTGGAG 
    GACAGCGGAA TCCGTGTGGC ACAGAAGCAG GAGCCCAGGG TCCCTACCTG TGTCTTACAG 
    AAGTGTCAAG TTACGAATTT CCCACCAGCT GTAAACAGAG TGAGTCCTGT GAGACCCAAA 
    GGAGGAGAGC TTGATGGAGG GGATGCAGGG CTGGGGACAT CCCAACGCAG GAGAAAGAGC 
    CTCCCTGTTC ATAACAAGAC ATCAGGGGAG GTGCTTGGGA GCAAATCTTC CCCAACCTTG 
    AAAACACAGC CTCCTCCTGA AAACCTTTTC AGAAAATGGA TGAAGACCTC TTTGCAGTGG 
    TTTAATAAAC CCAGCATATC ATATGAAGAA CAAGAAAGTT CCTGGGAAAA GGGTAGCTCC 
    CTGTCATCAT GTGTGCAGAA TATTGGTCGA GTTATAAGAG CTGCCTTTAC TGGGACTACT 
    GAAGCTCAGA AAATTAGGAA AGACACTAGG GAGTTCCTAG AAGAGAAGCT GGGGCATAGG 
    CATGGGATAG ATATCACCTG TCCCCAAGAG CCCCTTTCCT TCCCAGTGGG GCTTGGGAAA 
    GCTCAGCACA ACCCAGAAGT GCATGTCAGA GCAGAGCCTG TCCAGGGCTG TCCCTGCAAC 
    TACAGGGCTC CCTCCTGCAA AGTGACACGT ACCAAATCTT GCAGCCAACA AGCTATCTTT 
    GTTGGCCAGA ATTATCCTAC AAGGATTAGA CAGATCATAG ACAAGGACAG ACAGCCCCAG 
    AAAGTTGAGG CATTTAAGGG GAAGATACTG TGTCAAAGCC ATCCCCAATC CATGCCCCAC 
    AGGAAGCCTG TGCCACATCC AAACCCCACT TGCCGGCGTC AGGTCAGCCT GGTGTGTCCA 
    GCCGTCCCAA CCAGTGCTAA AAGCCCTGTG TTTAGTGATG TGCCTTTCCT AACTGGACAG 
    AAAATGCTTC CAAAGCATTT ACAGGGAGGA AAATTTCCCC CCACAAAATA A

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

    RefSeq NP_001001670.1
    CDS48..4778
    Translation

    Target ORF information:

    RefSeq Version NM_001001670.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001001670.3

    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
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTGACTCA 
    CATTGGTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTGGTATT GACCCTGTAT TCGTCACCCA CCGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAAGAGGAGA AGGAAAGGTG GGACATTCAA AGGTTTCCCA 
    GACTGGAAAA GTTTCCAGAG AGAAGAGGAA GAGGAAAGGA AGCTGCTTTC TCTTCTGAAA 
    AGCTTTGGAC CTCCTGTTTC CTGCAGTCCT CGGGGCCAGC ATCATGATAC CAACCACTTT 
    CGTCGACTGT TATGCCCAGA CCCCGTCTGT CGGGTGTGTA AGAGAGCAAC TGCTGATATC 
    CAGCAACTGC TGTCTTGGGA GTCCCTGAAA GATGCTGCTC CCTCTGTGTC CCCTTTGGCT 
    TCTTCGGCTT CTGCGACTGA GTCATCGTTC ACTCTGGCTT CCACCCCCTC AGCAACCCCT 
    CCAGAAGACC TAATACTGTC CCCTCGGCCT AAGGCCTCTC CACCACCCCC CTTAATTCTC 
    TCACCTGACC TGATCACCAC CTTAGCTGAC TTATTTTCAC CCTCACCACT GAGGGACCCT 
    CTGCCACCAC AGCCTGTTTC TCCCTTGGAT TCCAAGTTCC CCATAGACCA TTCCCCACCC 
    CAACAGCTTC CCTTTCCCCT TCTCCCACCA CATCACATTG AGAGAGTGGA GTCCAGCCTC 
    CAACCTGAAG CCAGTTTGTC TCTGAACACC ATCTTTTCAT TTGGCTCCAC CCTATGCCAA 
    GATATTTCGC AGGCCATGAA TCCCATTGAT TCTTGTGCTC GTCATCACGG ACCACCAATC 
    CCATCTGCTT TACCACCGGA AGATTGCACT GTGACTCAGT CTAAATCAAG TCTCACCATC 
    TTGAAGACTT TTCCGGAAAT GTTATCTCTA GGTGGCTCTG GTGGGTCATC CACCTCTGCC 
    CCAACAATCA AAGGCATTGA CCATTCACAC CTTGCATCTT CAGAATTCAC CTGGTGGCAG 
    CCTCATGCCA AGGACTCTTT TTCCTCTAAT TTTGTGCCAT CTGATTTCAT GGAGGAGCTT 
    CTTACCCTTC ATTCTTCTGA GGCCTTTTTA GGGGGGCACT CTGTGGCCAA CCTCATAGAG 
    CCTGTTAACA TCTCATTTCT CAGCCATGAC ATTCTGGCAC TCCTGGAGAG ACAAGTCAAA 
    AAAAGGGGTG ATTTCCTGAT GTGGAAAGAA AATGGAAAGA AACCAGGATC ATTCCCAAAA 
    CAACTTAGGC CAAACTACCA ACTAAATTCC TCACGGAATA TGTTAACCTC AATTGCTGTT 
    AAGCATGACT TGGCAGAATC CTTTCCTTTT TGGGCCAGTA AAGGCAAACT AGAATGGCAG 
    CACATCCATC AGCAGCCTCC ACACTCTAAA TGCTTTGAAG ACCATTTAGA GCAAAAATAT 
    GTCCAGCTCT TCTGGGGTCT CCCATCTTTG CACAGCGAGT CTCTGCATCC TACTGTTCTT 
    GTCCAACGTG GCCATTCCTC CATGTTTGTA TTCTTCAATG GCATTACAAA TACATCTATA 
    TCCCATGAAT CCCCAGTACT TCCCCCTCCC CAACCTCTGT CCTTGCCTAG TACCCAACCA 
    CTACCCTTGC CTCAAACCCT GCCCCAAGGT CAGTCCCCAC ATCTCACTCA GGTGAAGTCC 
    CTGGCTCAAC CTCAATCTCC ATTCCGAGCC CTACTACCTA GTCCTCTATT CCTGATTAGG 
    ATCTGTGGAG TGTGTTTTCA TAGACCCCAG AACGAGGCAC GGTCTCTTTT GCCATCTGAA 
    ATTAACCATC TGGAGTGGAA CGTGTTGCAG AAAGTGCAGG AAAGTTTGTG GGGCTTACCC 
    TCTGTGGTTC AAAAATCCCA GGAAGACTTT TGTCCTCCAG CTCCCAATCC TGAATTGGTC 
    AGAAAGTCCT TCAAGGTCCA TGTTCCGATC TCCATCATTC CTGGAGATTT TCCACTCAGC 
    TCTGAGGTAA GGAAGAAACT AGAGCAACAC ATTCGAAGGA GGCTCATCCA GCGCAGATGG 
    GGCCTGCCCC GCAGAATCCA TGAGTCTCTG TCATTGCTAC GTCCTCAGAG CAAAATTTCA 
    GAGCTATCTG TGTCAGAGAG AATTCATGGA CCGTTAAATA TCTCTTTGGT TGAGGGTCAG 
    AGGTGCAATG TTCTAAAGAA GTCCGCATCA AGCTTCCCTA GAAGCTTCCA CGAGAGGAGC 
    TCAAATATGC TTTCCATGGA GAATGTGGGG AATTATCAGG GATACAGCCA GGAGACTGTC 
    CCAAAAGATC ACCTGTTGCA TGGTCCGGAG ACTTCTTCAG ACAAGGATCT GAGGTCTAAC 
    TCTGAGAGAG ACCTAGAAAC TCATATGATG CATCTGTCAG GGAATGACTC AGGGGTGAGA 
    CTAGGTCAGA AACAACTTGA AAATGCCCTG ACAGTACGTT TGAGCAAGAA ATTTGAGGAA 
    ATCAATGAGG GTCGAATGCC TGGGACTGTG CATAGTTCAT GGCACTCAGT CAAGCAGACA 
    ATGTCTCTTC CTGAGAAATC CCACAGCCAA ATTAAACATC GAAATCTGGT AACATTGGTG 
    AGTGAGGACC ACTGCGTTGA TACTTCCCAG GAAATTTCCT TCCTTAGTTC CAACAAACAA 
    AAGATGTTGG AAGCCCATAT TAAAACTTTC CGTATGAGGA TGCTGTGGGG CCTTCCCCTC 
    AAGGTCCTTG AATCCATAGA AATCTTCAAA TCGAAAGCGG ACCTTTCCAC TTCCTTTTCC 
    CATTTCGACC TTCCCTCCTC AGCCACCTTC ATCTCTCAGG GAGATTCCAA AGATGGGGTC 
    TCTAAGTCCC GTAGTCGAAG CACTTTTCAA GGAGAAAAGT TGGGAACAAC AAGCTCAGTC 
    CCCATCCTTG ATCGTCCTCA CCCTGTCTCC TCACCTGTCG TCCAAGAAGG GCAGGGGACC 
    CTGAGAAGAC AATTTTCTGA TACTGACCAT GACCTTATAG AGACAGATTC CAAAGACGGG 
    GCCTCCACAT CCCTTAGAAG AGGTACTACA GATTTTCAAA GCGAAAAATT AGATTCAACA 
    AGCTCATTCC CCATCCTCGG TCATTCTTAC CTTGTCACTT CACCTGTCAA CCAAGAAAAG 
    CAGGGGACCC TGAGAAGAGA ATTCTCTGAT ACTGACAATG ATCTTACAGA AAGTGTCCGG 
    ACAACAGAGG ATGGCAGACA GACTTTTCTG CCCCCGCCAC ACAGCATCGT AGACGAAGTC 
    AGTCAGAAAC AGACTGTACT GGCCAGTAGA TGCAGCGCAG AGCTGCCCAT AATGCAAGCT 
    GGAGCTGGCT GTGAGTCATG GGATAAGAGA AAGAGTTCCT TTCATAATGT AGACAGGCTT 
    CAGGGCAGTA GAAAGACCTT TCCTGTCACC AATGCTCTTC AATCACAAAC TAGGAACAAC 
    TTGACAACCA GCAAGTCAGG AAGCTGCTCA CTGACAAATG TGAAAGCAAG CACTTCCAAT 
    GAAACTGAAA TTTTCCCACC AAGAATATCA GTTCCTCAAG ATCCTAAATC ATCATACCTT 
    AAAAATCAGA TGTTGAGCCA GTTAAAGTTG GTCCAGAGGA AGCATAGCCA ACCTCAGAGC 
    CATTTCACTG ACATGTCTTT TGCCTTAGAT AACTTGAGTT CCAAGGACTT ACTGACTAAT 
    TCCCAGGGCA TCTCGAGTGG GGACATGGGA ACTTCCCAGG TGGTGCATGT CCACTTGGAG 
    GACAGCGGAA TCCGTGTGGC ACAGAAGCAG GAGCCCAGGG TCCCTACCTG TGTCTTACAG 
    AAGTGTCAAG TTACGAATTT CCCACCAGCT GTAAACAGAG TGAGTCCTGT GAGACCCAAA 
    GGAGGAGAGC TTGATGGAGG GGATGCAGGG CTGGGGACAT CCCAACGCAG GAGAAAGAGC 
    CTCCCTGTTC ATAACAAGAC ATCAGGGGAG GTGCTTGGGA GCAAATCTTC CCCAACCTTG 
    AAAACACAGC CTCCTCCTGA AAACCTTTTC AGAAAATGGA TGAAGACCTC TTTGCAGTGG 
    TTTAATAAAC CCAGCATATC ATATGAAGAA CAAGAAAGTT CCTGGGAAAA GGGTAGCTCC 
    CTGTCATCAT GTGTGCAGAA TATTGGTCGA GTTATAAGAG CTGCCTTTAC TGGGACTACT 
    GAAGCTCAGA AAATTAGGAA AGACACTAGG GAGTTCCTAG AAGAGAAGCT GGGGCATAGG 
    CATGGGATAG ATATCACCTG TCCCCAAGAG CCCCTTTCCT TCCCAGTGGG GCTTGGGAAA 
    GCTCAGCACA ACCCAGAAGT GCATGTCAGA GCAGAGCCTG TCCAGGGCTG TCCCTGCAAC 
    TACAGGGCTC CCTCCTGCAA AGTGACACGT ACCAAATCTT GCAGCCAACA AGCTATCTTT 
    GTTGGCCAGA ATTATCCTAC AAGGATTAGA CAGATCATAG ACAAGGACAG ACAGCCCCAG 
    AAAGTTGAGG CATTTAAGGG GAAGATACTG TGTCAAAGCC ATCCCCAATC CATGCCCCAC 
    AGGAAGCCTG TGCCACATCC AAACCCCACT TGCCGGCGTC AGGTCAGCCT GGTGTGTCCA 
    GCCGTCCCAA CCAGTGCTAA AAGCCCTGTG TTTAGTGATG TGCCTTTCCT AACTGGACAG 
    AAAATGCTTC CAAAGCATTT ACAGGGAGGA AAATTTCCCC CCACAAAATA A

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

    SPATA31D1 ( XM_017014710.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870199.1 Homo sapiens SPATA31 subfamily D, member 1 (SPATA31D1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu98641
    Clone ID Related Accession (Same CDS sequence) XM_017014710.1 , XM_017014710.2
    Accession Version XM_017014710.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4620bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product spermatogenesis-associated protein 31D1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGTATGT GTGTTTGTGT AGAGAGTATG TTCCAAAAGT GCTTGAACAG TTTAAACCTC 
    ACTAACTTCA GAAAACATCA GGGCAGAGCC AAGAGGAGAA GGAAAGGTGG GACATTCAAA 
    GGTTTCCCAG ACTGGAAAAG TTTCCAGAGA GAAGAGGAAG AGGAAAGGAA GCTGCTTTCT 
    CTTCTGAAAA GCTTTGGACC TCCTGTTTCC TGCAGTCCTC GGGGCCAGCA TCATGATACC 
    AACCACTTTC GTCGACTGTT ATGCCCAGAC CCCGTCTGTC GGGTGTGTAA GAGAGCAACT 
    GCTGATATCC AGCAACTGCT GTCTTGGGAG TCCCTGAAAG ATGCTGCTCC CTCTGTGTCC 
    CCTTTGGCTT CTTCGGCTTC TGCGACTGAG TCATCGTTCA CTCTGGCTTC CACCCCCTCA 
    GCAACCCCTC CAGAAGACCT AATACTGTCC CCTCGGCCTA AGGCCTCTCC ACCACCCCCC 
    TTAATTCTCT CACCTGACCT GATCACCACC TTAGCTGACT TATTTTCACC CTCACCACTG 
    AGGGACCCTC TGCCACCACA GCCTGTTTCT CCCTTGGATT CCAAGTTCCC CATAGACCAT 
    TCCCCACCCC AACAGCTTCC CTTTCCCCTT CTCCCACCAC ATCACATTGA GAGAGTGGAG 
    TCCAGCCTCC AACCTGAAGC CAGTTTGTCT CTGAACACCA TCTTTTCATT TGGCTCCACC 
    CTATGCCAAG ATATTTCGCA GGCCATGAAT CCCATTGATT CTTGTGCTCG TCATCACGGA 
    CCACCAATCC CATCTGCTTT ACCACCGGAA GATTGCACTG TGACTCAGTC TAAATCAAGT 
    CTCACCATCT TGAAGACTTT TCCGGAAATG TTATCTCTAG GTGGCTCTGG TGGGTCATCC 
    ACCTCTGCCC CAACAATCAA AGGCATTGAC CATTCACACC TTGCATCTTC AGAATTCACC 
    TGGTGGCAGC CTCATGCCAA GGACTCTTTT TCCTCTAATT TTGTGCCATC TGATTTCATG 
    GAGGAGCTTC TTACCCTTCA TTCTTCTGAG GCCTTTTTAG GGGGGCACTC TGTGGCCAAC 
    CTCATAGAGC CTGTTAACAT CTCATTTCTC AGCCATGACA TTCTGGCACT CCTGGAGAGA 
    CAAGTCAAAA AAAGGGGTGA TTTCCTGATG TGGAAAGAAA ATGGAAAGAA ACCAGGATCA 
    TTCCCAAAAC AACTTAGGCC AAACTACCAA CTAAATTCCT CACGGAATAT GTTAACCTCA 
    ATTGCTGTTA AGCATGACTT GGCAGAATCC TTTCCTTTTT GGGCCAGTAA AGGCAAACTA 
    GAATGGCAGC ACATCCATCA GCAGCCTCCA CACTCTAAAT GCTTTGAAGA CCATTTAGAG 
    CAAAAATATG TCCAGCTCTT CTGGGGTCTC CCATCTTTGC ACAGCGAGTC TCTGCATCCT 
    ACTGTTCTTG TCCAACGTGG CCATTCCTCC ATGTTTGTAT TCTTCAATGG CATTACAAAT 
    ACATCTATAT CCCATGAATC CCCAGTACTT CCCCCTCCCC AACCTCTGTC CTTGCCTAGT 
    ACCCAACCAC TACCCTTGCC TCAAACCCTG CCCCAAGGTC AGTCCCCACA TCTCACTCAG 
    GTGAAGTCCC TGGCTCAACC TCAATCTCCA TTCCGAGCCC TACTACCTAG TCCTCTATTC 
    CTGATTAGGA TCTGTGGAGT GTGTTTTCAT AGACCCCAGA ACGAGGCACG GTCTCTTTTG 
    CCATCTGAAA TTAACCATCT GGAGTGGAAC GTGTTGCAGA AAGTGCAGGA AAGTTTGTGG 
    GGCTTACCCT CTGTGGTTCA AAAATCCCAG GAAGACTTTT GTCCTCCAGC TCCCAATCCT 
    GAATTGGTCA GAAAGTCCTT CAAGGTCCAT GTTCCGATCT CCATCATTCC TGGAGATTTT 
    CCACTCAGCT CTGAGGTAAG GAAGAAACTA GAGCAACACA TTCGAAGGAG GCTCATCCAG 
    CGCAGATGGG GCCTGCCCCG CAGAATCCAT GAGTCTCTGT CATTGCTACG TCCTCAGAGC 
    AAAATTTCAG AGCTATCTGT GTCAGAGAGA ATTCATGGAC CGTTAAATAT CTCTTTGGTT 
    GAGGGTCAGA GGTGCAATGT TCTAAAGAAG TCCGCATCAA GCTTCCCTAG AAGCTTCCAC 
    GAGAGGAGCT CAAATATGCT TTCCATGGAG AATGTGGGGA ATTATCAGGG ATACAGCCAG 
    GAGACTGTCC CAAAAGATCA CCTGTTGCAT GGTCCGGAGA CTTCTTCAGA CAAGGATCTG 
    AGGTCTAACT CTGAGAGAGA CCTAGAAACT CATATGATGC ATCTGTCAGG GAATGACTCA 
    GGGGTGAGAC TAGGTCAGAA ACAACTTGAA AATGCCCTGA CAGTACGTTT GAGCAAGAAA 
    TTTGAGGAAA TCAATGAGGG TCGAATGCCT GGGACTGTGC ATAGTTCATG GCACTCAGTC 
    AAGCAGACAA TGTCTCTTCC TGAGAAATCC CACAGCCAAA TTAAACATCG AAATCTGGTA 
    ACATTGGTGA GTGAGGACCA CTGCGTTGAT ACTTCCCAGG AAATTTCCTT CCTTAGTTCC 
    AACAAACAAA AGATGTTGGA AGCCCATATT AAAACTTTCC GTATGAGGAT GCTGTGGGGC 
    CTTCCCCTCA AGGTCCTTGA ATCCATAGAA ATCTTCAAAT CGAAAGCGGA CCTTTCCACT 
    TCCTTTTCCC ATTTCGACCT TCCCTCCTCA GCCACCTTCA TCTCTCAGGG AGATTCCAAA 
    GATGGGGTCT CTAAGTCCCG TAGTCGAAGC ACTTTTCAAG GAGAAAAGTT GGGAACAACA 
    AGCTCAGTCC CCATCCTTGA TCGTCCTCAC CCTGTCTCCT CACCTGTCGT CCAAGAAGGG 
    CAGGGGACCC TGAGAAGACA ATTTTCTGAT ACTGACCATG ACCTTATAGA GACAGATTCC 
    AAAGACGGGG CCTCCACATC CCTTAGAAGA GGTACTACAG ATTTTCAAAG CGAAAAATTA 
    GATTCAACAA GCTCATTCCC CATCCTCGGT CATTCTTACC TTGTCACTTC ACCTGTCAAC 
    CAAGAAAAGC AGGGGACCCT GAGAAGAGAA TTCTCTGATA CTGACAATGA TCTTACAGAA 
    AGTGTCCGGA CAACAGAGGA TGGCAGACAG ACTTTTCTGC CCCCGCCACA CAGCATCGTA 
    GACGAAGTCA GTCAGAAACA GACTGTACTG GCCAGTAGAT GCAGCGCAGA GCTGCCCATA 
    ATGCAAGCTG GAGCTGGCTG TGAGTCATGG GATAAGAGAA AGAGTTCCTT TCATAATGTA 
    GACAGGCTTC AGGGCAGTAG AAAGACCTTT CCTGTCACCA ATGCTCTTCA ATCACAAACT 
    AGGAACAACT TGACAACCAG CAAGTCAGGA AGCTGCTCAC TGACAAATGT GAAAGCAAGC 
    ACTTCCAATG AAACTGAAAT TTTCCCACCA AGAATATCAG TTCCTCAAGA TCCTAAATCA 
    TCATACCTTA AAAATCAGAT GTTGAGCCAG TTAAAGTTGG TCCAGAGGAA GCATAGCCAA 
    CCTCAGAGCC ATTTCACTGA CATGTCTTTT GCCTTAGATA ACTTGAGTTC CAAGGACTTA 
    CTGACTAATT CCCAGGGCAT CTCGAGTGGG GACATGGGAA CTTCCCAGGT GGTGCATGTC 
    CACTTGGAGG ACAGCGGAAT CCGTGTGGCA CAGAAGCAGG AGCCCAGGGT CCCTACCTGT 
    GTCTTACAGA AGTGTCAAGT TACGAATTTC CCACCAGCTG TAAACAGAGT GAGTCCTGTG 
    AGACCCAAAG GAGGAGAGCT TGATGGAGGG GATGCAGGGC TGGGGACATC CCAACGCAGG 
    AGAAAGAGCC TCCCTGTTCA TAACAAGACA TCAGGGGAGG TGCTTGGGAG CAAATCTTCC 
    CCAACCTTGA AAACACAGCC TCCTCCTGAA AACCTTTTCA GAAAATGGAT GAAGACCTCT 
    TTGCAGTGGT TTAATAAACC CAGCATATCA TATGAAGAAC AAGAAAGTTC CTGGGAAAAG 
    GGTAGCTCCC TGTCATCATG TGTGCAGAAT ATTGGTCGAG TTATAAGAGC TGCCTTTACT 
    GGGACTACTG AAGCTCAGAA AATTAGGAAA GACACTAGGG AGTTCCTAGA AGAGAAGCTG 
    GGGCATAGGC ATGGGATAGA TATCACCTGT CCCCAAGAGC CCCTTTCCTT CCCAGTGGGG 
    CTTGGGAAAG CTCAGCACAA CCCAGAAGTG CATGTCAGAG CAGAGCCTGT CCAGGGCTGT 
    CCCTGCAACT ACAGGGCTCC CTCCTGCAAA GTGACACGTA CCAAATCTTG CAGCCAACAA 
    GCTATCTTTG TTGGCCAGAA TTATCCTACA AGGATTAGAC AGATCATAGA CAAGGACAGA 
    CAGCCCCAGA AAGTTGAGGC ATTTAAGGGG AAGATACTGT GTCAAAGCCA TCCCCAATCC 
    ATGCCCCACA GGAAGCCTGT GCCACATCCA AACCCCACTT GCCGGCGTCA GGTCAGCCTG 
    GTGTGTCCAG CCGTCCCAAC CAGTGCTAAA AGCCCTGTGT TTAGTGATGT GCCTTTCCTA 
    ACTGGACAGA AAATGCTTCC AAAGCATTTA CAGGGAGGAA AATTTCCCCC CACAAAATAA

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

    RefSeq XP_016870199.1
    CDS137..4756
    Translation

    Target ORF information:

    RefSeq Version XM_017014710.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily D, member 1 (SPATA31D1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014710.1

    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
    ATGTGTATGT GTGTTTGTGT AGAGAGTATG TTCCAAAAGT GCTTGAACAG TTTAAACCTC 
    ACTAACTTCA GAAAACATCA GGGCAGAGCC AAGAGGAGAA GGAAAGGTGG GACATTCAAA 
    GGTTTCCCAG ACTGGAAAAG TTTCCAGAGA GAAGAGGAAG AGGAAAGGAA GCTGCTTTCT 
    CTTCTGAAAA GCTTTGGACC TCCTGTTTCC TGCAGTCCTC GGGGCCAGCA TCATGATACC 
    AACCACTTTC GTCGACTGTT ATGCCCAGAC CCCGTCTGTC GGGTGTGTAA GAGAGCAACT 
    GCTGATATCC AGCAACTGCT GTCTTGGGAG TCCCTGAAAG ATGCTGCTCC CTCTGTGTCC 
    CCTTTGGCTT CTTCGGCTTC TGCGACTGAG TCATCGTTCA CTCTGGCTTC CACCCCCTCA 
    GCAACCCCTC CAGAAGACCT AATACTGTCC CCTCGGCCTA AGGCCTCTCC ACCACCCCCC 
    TTAATTCTCT CACCTGACCT GATCACCACC TTAGCTGACT TATTTTCACC CTCACCACTG 
    AGGGACCCTC TGCCACCACA GCCTGTTTCT CCCTTGGATT CCAAGTTCCC CATAGACCAT 
    TCCCCACCCC AACAGCTTCC CTTTCCCCTT CTCCCACCAC ATCACATTGA GAGAGTGGAG 
    TCCAGCCTCC AACCTGAAGC CAGTTTGTCT CTGAACACCA TCTTTTCATT TGGCTCCACC 
    CTATGCCAAG ATATTTCGCA GGCCATGAAT CCCATTGATT CTTGTGCTCG TCATCACGGA 
    CCACCAATCC CATCTGCTTT ACCACCGGAA GATTGCACTG TGACTCAGTC TAAATCAAGT 
    CTCACCATCT TGAAGACTTT TCCGGAAATG TTATCTCTAG GTGGCTCTGG TGGGTCATCC 
    ACCTCTGCCC CAACAATCAA AGGCATTGAC CATTCACACC TTGCATCTTC AGAATTCACC 
    TGGTGGCAGC CTCATGCCAA GGACTCTTTT TCCTCTAATT TTGTGCCATC TGATTTCATG 
    GAGGAGCTTC TTACCCTTCA TTCTTCTGAG GCCTTTTTAG GGGGGCACTC TGTGGCCAAC 
    CTCATAGAGC CTGTTAACAT CTCATTTCTC AGCCATGACA TTCTGGCACT CCTGGAGAGA 
    CAAGTCAAAA AAAGGGGTGA TTTCCTGATG TGGAAAGAAA ATGGAAAGAA ACCAGGATCA 
    TTCCCAAAAC AACTTAGGCC AAACTACCAA CTAAATTCCT CACGGAATAT GTTAACCTCA 
    ATTGCTGTTA AGCATGACTT GGCAGAATCC TTTCCTTTTT GGGCCAGTAA AGGCAAACTA 
    GAATGGCAGC ACATCCATCA GCAGCCTCCA CACTCTAAAT GCTTTGAAGA CCATTTAGAG 
    CAAAAATATG TCCAGCTCTT CTGGGGTCTC CCATCTTTGC ACAGCGAGTC TCTGCATCCT 
    ACTGTTCTTG TCCAACGTGG CCATTCCTCC ATGTTTGTAT TCTTCAATGG CATTACAAAT 
    ACATCTATAT CCCATGAATC CCCAGTACTT CCCCCTCCCC AACCTCTGTC CTTGCCTAGT 
    ACCCAACCAC TACCCTTGCC TCAAACCCTG CCCCAAGGTC AGTCCCCACA TCTCACTCAG 
    GTGAAGTCCC TGGCTCAACC TCAATCTCCA TTCCGAGCCC TACTACCTAG TCCTCTATTC 
    CTGATTAGGA TCTGTGGAGT GTGTTTTCAT AGACCCCAGA ACGAGGCACG GTCTCTTTTG 
    CCATCTGAAA TTAACCATCT GGAGTGGAAC GTGTTGCAGA AAGTGCAGGA AAGTTTGTGG 
    GGCTTACCCT CTGTGGTTCA AAAATCCCAG GAAGACTTTT GTCCTCCAGC TCCCAATCCT 
    GAATTGGTCA GAAAGTCCTT CAAGGTCCAT GTTCCGATCT CCATCATTCC TGGAGATTTT 
    CCACTCAGCT CTGAGGTAAG GAAGAAACTA GAGCAACACA TTCGAAGGAG GCTCATCCAG 
    CGCAGATGGG GCCTGCCCCG CAGAATCCAT GAGTCTCTGT CATTGCTACG TCCTCAGAGC 
    AAAATTTCAG AGCTATCTGT GTCAGAGAGA ATTCATGGAC CGTTAAATAT CTCTTTGGTT 
    GAGGGTCAGA GGTGCAATGT TCTAAAGAAG TCCGCATCAA GCTTCCCTAG AAGCTTCCAC 
    GAGAGGAGCT CAAATATGCT TTCCATGGAG AATGTGGGGA ATTATCAGGG ATACAGCCAG 
    GAGACTGTCC CAAAAGATCA CCTGTTGCAT GGTCCGGAGA CTTCTTCAGA CAAGGATCTG 
    AGGTCTAACT CTGAGAGAGA CCTAGAAACT CATATGATGC ATCTGTCAGG GAATGACTCA 
    GGGGTGAGAC TAGGTCAGAA ACAACTTGAA AATGCCCTGA CAGTACGTTT GAGCAAGAAA 
    TTTGAGGAAA TCAATGAGGG TCGAATGCCT GGGACTGTGC ATAGTTCATG GCACTCAGTC 
    AAGCAGACAA TGTCTCTTCC TGAGAAATCC CACAGCCAAA TTAAACATCG AAATCTGGTA 
    ACATTGGTGA GTGAGGACCA CTGCGTTGAT ACTTCCCAGG AAATTTCCTT CCTTAGTTCC 
    AACAAACAAA AGATGTTGGA AGCCCATATT AAAACTTTCC GTATGAGGAT GCTGTGGGGC 
    CTTCCCCTCA AGGTCCTTGA ATCCATAGAA ATCTTCAAAT CGAAAGCGGA CCTTTCCACT 
    TCCTTTTCCC ATTTCGACCT TCCCTCCTCA GCCACCTTCA TCTCTCAGGG AGATTCCAAA 
    GATGGGGTCT CTAAGTCCCG TAGTCGAAGC ACTTTTCAAG GAGAAAAGTT GGGAACAACA 
    AGCTCAGTCC CCATCCTTGA TCGTCCTCAC CCTGTCTCCT CACCTGTCGT CCAAGAAGGG 
    CAGGGGACCC TGAGAAGACA ATTTTCTGAT ACTGACCATG ACCTTATAGA GACAGATTCC 
    AAAGACGGGG CCTCCACATC CCTTAGAAGA GGTACTACAG ATTTTCAAAG CGAAAAATTA 
    GATTCAACAA GCTCATTCCC CATCCTCGGT CATTCTTACC TTGTCACTTC ACCTGTCAAC 
    CAAGAAAAGC AGGGGACCCT GAGAAGAGAA TTCTCTGATA CTGACAATGA TCTTACAGAA 
    AGTGTCCGGA CAACAGAGGA TGGCAGACAG ACTTTTCTGC CCCCGCCACA CAGCATCGTA 
    GACGAAGTCA GTCAGAAACA GACTGTACTG GCCAGTAGAT GCAGCGCAGA GCTGCCCATA 
    ATGCAAGCTG GAGCTGGCTG TGAGTCATGG GATAAGAGAA AGAGTTCCTT TCATAATGTA 
    GACAGGCTTC AGGGCAGTAG AAAGACCTTT CCTGTCACCA ATGCTCTTCA ATCACAAACT 
    AGGAACAACT TGACAACCAG CAAGTCAGGA AGCTGCTCAC TGACAAATGT GAAAGCAAGC 
    ACTTCCAATG AAACTGAAAT TTTCCCACCA AGAATATCAG TTCCTCAAGA TCCTAAATCA 
    TCATACCTTA AAAATCAGAT GTTGAGCCAG TTAAAGTTGG TCCAGAGGAA GCATAGCCAA 
    CCTCAGAGCC ATTTCACTGA CATGTCTTTT GCCTTAGATA ACTTGAGTTC CAAGGACTTA 
    CTGACTAATT CCCAGGGCAT CTCGAGTGGG GACATGGGAA CTTCCCAGGT GGTGCATGTC 
    CACTTGGAGG ACAGCGGAAT CCGTGTGGCA CAGAAGCAGG AGCCCAGGGT CCCTACCTGT 
    GTCTTACAGA AGTGTCAAGT TACGAATTTC CCACCAGCTG TAAACAGAGT GAGTCCTGTG 
    AGACCCAAAG GAGGAGAGCT TGATGGAGGG GATGCAGGGC TGGGGACATC CCAACGCAGG 
    AGAAAGAGCC TCCCTGTTCA TAACAAGACA TCAGGGGAGG TGCTTGGGAG CAAATCTTCC 
    CCAACCTTGA AAACACAGCC TCCTCCTGAA AACCTTTTCA GAAAATGGAT GAAGACCTCT 
    TTGCAGTGGT TTAATAAACC CAGCATATCA TATGAAGAAC AAGAAAGTTC CTGGGAAAAG 
    GGTAGCTCCC TGTCATCATG TGTGCAGAAT ATTGGTCGAG TTATAAGAGC TGCCTTTACT 
    GGGACTACTG AAGCTCAGAA AATTAGGAAA GACACTAGGG AGTTCCTAGA AGAGAAGCTG 
    GGGCATAGGC ATGGGATAGA TATCACCTGT CCCCAAGAGC CCCTTTCCTT CCCAGTGGGG 
    CTTGGGAAAG CTCAGCACAA CCCAGAAGTG CATGTCAGAG CAGAGCCTGT CCAGGGCTGT 
    CCCTGCAACT ACAGGGCTCC CTCCTGCAAA GTGACACGTA CCAAATCTTG CAGCCAACAA 
    GCTATCTTTG TTGGCCAGAA TTATCCTACA AGGATTAGAC AGATCATAGA CAAGGACAGA 
    CAGCCCCAGA AAGTTGAGGC ATTTAAGGGG AAGATACTGT GTCAAAGCCA TCCCCAATCC 
    ATGCCCCACA GGAAGCCTGT GCCACATCCA AACCCCACTT GCCGGCGTCA GGTCAGCCTG 
    GTGTGTCCAG CCGTCCCAAC CAGTGCTAAA AGCCCTGTGT TTAGTGATGT GCCTTTCCTA 
    ACTGGACAGA AAATGCTTCC AAAGCATTTA CAGGGAGGAA AATTTCCCCC CACAAAATAA

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

    SPATA31D1 ( XM_017014710.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016870199.1 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu98641
    Clone ID Related Accession (Same CDS sequence) XM_017014710.1 , XM_017014710.2
    Accession Version XM_017014710.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4620bp)
    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 spermatogenesis-associated protein 31D1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017014710.1. ##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
    ATGTGTATGT GTGTTTGTGT AGAGAGTATG TTCCAAAAGT GCTTGAACAG TTTAAACCTC 
    ACTAACTTCA GAAAACATCA GGGCAGAGCC AAGAGGAGAA GGAAAGGTGG GACATTCAAA 
    GGTTTCCCAG ACTGGAAAAG TTTCCAGAGA GAAGAGGAAG AGGAAAGGAA GCTGCTTTCT 
    CTTCTGAAAA GCTTTGGACC TCCTGTTTCC TGCAGTCCTC GGGGCCAGCA TCATGATACC 
    AACCACTTTC GTCGACTGTT ATGCCCAGAC CCCGTCTGTC GGGTGTGTAA GAGAGCAACT 
    GCTGATATCC AGCAACTGCT GTCTTGGGAG TCCCTGAAAG ATGCTGCTCC CTCTGTGTCC 
    CCTTTGGCTT CTTCGGCTTC TGCGACTGAG TCATCGTTCA CTCTGGCTTC CACCCCCTCA 
    GCAACCCCTC CAGAAGACCT AATACTGTCC CCTCGGCCTA AGGCCTCTCC ACCACCCCCC 
    TTAATTCTCT CACCTGACCT GATCACCACC TTAGCTGACT TATTTTCACC CTCACCACTG 
    AGGGACCCTC TGCCACCACA GCCTGTTTCT CCCTTGGATT CCAAGTTCCC CATAGACCAT 
    TCCCCACCCC AACAGCTTCC CTTTCCCCTT CTCCCACCAC ATCACATTGA GAGAGTGGAG 
    TCCAGCCTCC AACCTGAAGC CAGTTTGTCT CTGAACACCA TCTTTTCATT TGGCTCCACC 
    CTATGCCAAG ATATTTCGCA GGCCATGAAT CCCATTGATT CTTGTGCTCG TCATCACGGA 
    CCACCAATCC CATCTGCTTT ACCACCGGAA GATTGCACTG TGACTCAGTC TAAATCAAGT 
    CTCACCATCT TGAAGACTTT TCCGGAAATG TTATCTCTAG GTGGCTCTGG TGGGTCATCC 
    ACCTCTGCCC CAACAATCAA AGGCATTGAC CATTCACACC TTGCATCTTC AGAATTCACC 
    TGGTGGCAGC CTCATGCCAA GGACTCTTTT TCCTCTAATT TTGTGCCATC TGATTTCATG 
    GAGGAGCTTC TTACCCTTCA TTCTTCTGAG GCCTTTTTAG GGGGGCACTC TGTGGCCAAC 
    CTCATAGAGC CTGTTAACAT CTCATTTCTC AGCCATGACA TTCTGGCACT CCTGGAGAGA 
    CAAGTCAAAA AAAGGGGTGA TTTCCTGATG TGGAAAGAAA ATGGAAAGAA ACCAGGATCA 
    TTCCCAAAAC AACTTAGGCC AAACTACCAA CTAAATTCCT CACGGAATAT GTTAACCTCA 
    ATTGCTGTTA AGCATGACTT GGCAGAATCC TTTCCTTTTT GGGCCAGTAA AGGCAAACTA 
    GAATGGCAGC ACATCCATCA GCAGCCTCCA CACTCTAAAT GCTTTGAAGA CCATTTAGAG 
    CAAAAATATG TCCAGCTCTT CTGGGGTCTC CCATCTTTGC ACAGCGAGTC TCTGCATCCT 
    ACTGTTCTTG TCCAACGTGG CCATTCCTCC ATGTTTGTAT TCTTCAATGG CATTACAAAT 
    ACATCTATAT CCCATGAATC CCCAGTACTT CCCCCTCCCC AACCTCTGTC CTTGCCTAGT 
    ACCCAACCAC TACCCTTGCC TCAAACCCTG CCCCAAGGTC AGTCCCCACA TCTCACTCAG 
    GTGAAGTCCC TGGCTCAACC TCAATCTCCA TTCCGAGCCC TACTACCTAG TCCTCTATTC 
    CTGATTAGGA TCTGTGGAGT GTGTTTTCAT AGACCCCAGA ACGAGGCACG GTCTCTTTTG 
    CCATCTGAAA TTAACCATCT GGAGTGGAAC GTGTTGCAGA AAGTGCAGGA AAGTTTGTGG 
    GGCTTACCCT CTGTGGTTCA AAAATCCCAG GAAGACTTTT GTCCTCCAGC TCCCAATCCT 
    GAATTGGTCA GAAAGTCCTT CAAGGTCCAT GTTCCGATCT CCATCATTCC TGGAGATTTT 
    CCACTCAGCT CTGAGGTAAG GAAGAAACTA GAGCAACACA TTCGAAGGAG GCTCATCCAG 
    CGCAGATGGG GCCTGCCCCG CAGAATCCAT GAGTCTCTGT CATTGCTACG TCCTCAGAGC 
    AAAATTTCAG AGCTATCTGT GTCAGAGAGA ATTCATGGAC CGTTAAATAT CTCTTTGGTT 
    GAGGGTCAGA GGTGCAATGT TCTAAAGAAG TCCGCATCAA GCTTCCCTAG AAGCTTCCAC 
    GAGAGGAGCT CAAATATGCT TTCCATGGAG AATGTGGGGA ATTATCAGGG ATACAGCCAG 
    GAGACTGTCC CAAAAGATCA CCTGTTGCAT GGTCCGGAGA CTTCTTCAGA CAAGGATCTG 
    AGGTCTAACT CTGAGAGAGA CCTAGAAACT CATATGATGC ATCTGTCAGG GAATGACTCA 
    GGGGTGAGAC TAGGTCAGAA ACAACTTGAA AATGCCCTGA CAGTACGTTT GAGCAAGAAA 
    TTTGAGGAAA TCAATGAGGG TCGAATGCCT GGGACTGTGC ATAGTTCATG GCACTCAGTC 
    AAGCAGACAA TGTCTCTTCC TGAGAAATCC CACAGCCAAA TTAAACATCG AAATCTGGTA 
    ACATTGGTGA GTGAGGACCA CTGCGTTGAT ACTTCCCAGG AAATTTCCTT CCTTAGTTCC 
    AACAAACAAA AGATGTTGGA AGCCCATATT AAAACTTTCC GTATGAGGAT GCTGTGGGGC 
    CTTCCCCTCA AGGTCCTTGA ATCCATAGAA ATCTTCAAAT CGAAAGCGGA CCTTTCCACT 
    TCCTTTTCCC ATTTCGACCT TCCCTCCTCA GCCACCTTCA TCTCTCAGGG AGATTCCAAA 
    GATGGGGTCT CTAAGTCCCG TAGTCGAAGC ACTTTTCAAG GAGAAAAGTT GGGAACAACA 
    AGCTCAGTCC CCATCCTTGA TCGTCCTCAC CCTGTCTCCT CACCTGTCGT CCAAGAAGGG 
    CAGGGGACCC TGAGAAGACA ATTTTCTGAT ACTGACCATG ACCTTATAGA GACAGATTCC 
    AAAGACGGGG CCTCCACATC CCTTAGAAGA GGTACTACAG ATTTTCAAAG CGAAAAATTA 
    GATTCAACAA GCTCATTCCC CATCCTCGGT CATTCTTACC TTGTCACTTC ACCTGTCAAC 
    CAAGAAAAGC AGGGGACCCT GAGAAGAGAA TTCTCTGATA CTGACAATGA TCTTACAGAA 
    AGTGTCCGGA CAACAGAGGA TGGCAGACAG ACTTTTCTGC CCCCGCCACA CAGCATCGTA 
    GACGAAGTCA GTCAGAAACA GACTGTACTG GCCAGTAGAT GCAGCGCAGA GCTGCCCATA 
    ATGCAAGCTG GAGCTGGCTG TGAGTCATGG GATAAGAGAA AGAGTTCCTT TCATAATGTA 
    GACAGGCTTC AGGGCAGTAG AAAGACCTTT CCTGTCACCA ATGCTCTTCA ATCACAAACT 
    AGGAACAACT TGACAACCAG CAAGTCAGGA AGCTGCTCAC TGACAAATGT GAAAGCAAGC 
    ACTTCCAATG AAACTGAAAT TTTCCCACCA AGAATATCAG TTCCTCAAGA TCCTAAATCA 
    TCATACCTTA AAAATCAGAT GTTGAGCCAG TTAAAGTTGG TCCAGAGGAA GCATAGCCAA 
    CCTCAGAGCC ATTTCACTGA CATGTCTTTT GCCTTAGATA ACTTGAGTTC CAAGGACTTA 
    CTGACTAATT CCCAGGGCAT CTCGAGTGGG GACATGGGAA CTTCCCAGGT GGTGCATGTC 
    CACTTGGAGG ACAGCGGAAT CCGTGTGGCA CAGAAGCAGG AGCCCAGGGT CCCTACCTGT 
    GTCTTACAGA AGTGTCAAGT TACGAATTTC CCACCAGCTG TAAACAGAGT GAGTCCTGTG 
    AGACCCAAAG GAGGAGAGCT TGATGGAGGG GATGCAGGGC TGGGGACATC CCAACGCAGG 
    AGAAAGAGCC TCCCTGTTCA TAACAAGACA TCAGGGGAGG TGCTTGGGAG CAAATCTTCC 
    CCAACCTTGA AAACACAGCC TCCTCCTGAA AACCTTTTCA GAAAATGGAT GAAGACCTCT 
    TTGCAGTGGT TTAATAAACC CAGCATATCA TATGAAGAAC AAGAAAGTTC CTGGGAAAAG 
    GGTAGCTCCC TGTCATCATG TGTGCAGAAT ATTGGTCGAG TTATAAGAGC TGCCTTTACT 
    GGGACTACTG AAGCTCAGAA AATTAGGAAA GACACTAGGG AGTTCCTAGA AGAGAAGCTG 
    GGGCATAGGC ATGGGATAGA TATCACCTGT CCCCAAGAGC CCCTTTCCTT CCCAGTGGGG 
    CTTGGGAAAG CTCAGCACAA CCCAGAAGTG CATGTCAGAG CAGAGCCTGT CCAGGGCTGT 
    CCCTGCAACT ACAGGGCTCC CTCCTGCAAA GTGACACGTA CCAAATCTTG CAGCCAACAA 
    GCTATCTTTG TTGGCCAGAA TTATCCTACA AGGATTAGAC AGATCATAGA CAAGGACAGA 
    CAGCCCCAGA AAGTTGAGGC ATTTAAGGGG AAGATACTGT GTCAAAGCCA TCCCCAATCC 
    ATGCCCCACA GGAAGCCTGT GCCACATCCA AACCCCACTT GCCGGCGTCA GGTCAGCCTG 
    GTGTGTCCAG CCGTCCCAAC CAGTGCTAAA AGCCCTGTGT TTAGTGATGT GCCTTTCCTA 
    ACTGGACAGA AAATGCTTCC AAAGCATTTA CAGGGAGGAA AATTTCCCCC CACAAAATAA

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

    RefSeq XP_016870199.1
    CDS136..4755
    Translation

    Target ORF information:

    RefSeq Version XM_017014710.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017014710.2

    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
    ATGTGTATGT GTGTTTGTGT AGAGAGTATG TTCCAAAAGT GCTTGAACAG TTTAAACCTC 
    ACTAACTTCA GAAAACATCA GGGCAGAGCC AAGAGGAGAA GGAAAGGTGG GACATTCAAA 
    GGTTTCCCAG ACTGGAAAAG TTTCCAGAGA GAAGAGGAAG AGGAAAGGAA GCTGCTTTCT 
    CTTCTGAAAA GCTTTGGACC TCCTGTTTCC TGCAGTCCTC GGGGCCAGCA TCATGATACC 
    AACCACTTTC GTCGACTGTT ATGCCCAGAC CCCGTCTGTC GGGTGTGTAA GAGAGCAACT 
    GCTGATATCC AGCAACTGCT GTCTTGGGAG TCCCTGAAAG ATGCTGCTCC CTCTGTGTCC 
    CCTTTGGCTT CTTCGGCTTC TGCGACTGAG TCATCGTTCA CTCTGGCTTC CACCCCCTCA 
    GCAACCCCTC CAGAAGACCT AATACTGTCC CCTCGGCCTA AGGCCTCTCC ACCACCCCCC 
    TTAATTCTCT CACCTGACCT GATCACCACC TTAGCTGACT TATTTTCACC CTCACCACTG 
    AGGGACCCTC TGCCACCACA GCCTGTTTCT CCCTTGGATT CCAAGTTCCC CATAGACCAT 
    TCCCCACCCC AACAGCTTCC CTTTCCCCTT CTCCCACCAC ATCACATTGA GAGAGTGGAG 
    TCCAGCCTCC AACCTGAAGC CAGTTTGTCT CTGAACACCA TCTTTTCATT TGGCTCCACC 
    CTATGCCAAG ATATTTCGCA GGCCATGAAT CCCATTGATT CTTGTGCTCG TCATCACGGA 
    CCACCAATCC CATCTGCTTT ACCACCGGAA GATTGCACTG TGACTCAGTC TAAATCAAGT 
    CTCACCATCT TGAAGACTTT TCCGGAAATG TTATCTCTAG GTGGCTCTGG TGGGTCATCC 
    ACCTCTGCCC CAACAATCAA AGGCATTGAC CATTCACACC TTGCATCTTC AGAATTCACC 
    TGGTGGCAGC CTCATGCCAA GGACTCTTTT TCCTCTAATT TTGTGCCATC TGATTTCATG 
    GAGGAGCTTC TTACCCTTCA TTCTTCTGAG GCCTTTTTAG GGGGGCACTC TGTGGCCAAC 
    CTCATAGAGC CTGTTAACAT CTCATTTCTC AGCCATGACA TTCTGGCACT CCTGGAGAGA 
    CAAGTCAAAA AAAGGGGTGA TTTCCTGATG TGGAAAGAAA ATGGAAAGAA ACCAGGATCA 
    TTCCCAAAAC AACTTAGGCC AAACTACCAA CTAAATTCCT CACGGAATAT GTTAACCTCA 
    ATTGCTGTTA AGCATGACTT GGCAGAATCC TTTCCTTTTT GGGCCAGTAA AGGCAAACTA 
    GAATGGCAGC ACATCCATCA GCAGCCTCCA CACTCTAAAT GCTTTGAAGA CCATTTAGAG 
    CAAAAATATG TCCAGCTCTT CTGGGGTCTC CCATCTTTGC ACAGCGAGTC TCTGCATCCT 
    ACTGTTCTTG TCCAACGTGG CCATTCCTCC ATGTTTGTAT TCTTCAATGG CATTACAAAT 
    ACATCTATAT CCCATGAATC CCCAGTACTT CCCCCTCCCC AACCTCTGTC CTTGCCTAGT 
    ACCCAACCAC TACCCTTGCC TCAAACCCTG CCCCAAGGTC AGTCCCCACA TCTCACTCAG 
    GTGAAGTCCC TGGCTCAACC TCAATCTCCA TTCCGAGCCC TACTACCTAG TCCTCTATTC 
    CTGATTAGGA TCTGTGGAGT GTGTTTTCAT AGACCCCAGA ACGAGGCACG GTCTCTTTTG 
    CCATCTGAAA TTAACCATCT GGAGTGGAAC GTGTTGCAGA AAGTGCAGGA AAGTTTGTGG 
    GGCTTACCCT CTGTGGTTCA AAAATCCCAG GAAGACTTTT GTCCTCCAGC TCCCAATCCT 
    GAATTGGTCA GAAAGTCCTT CAAGGTCCAT GTTCCGATCT CCATCATTCC TGGAGATTTT 
    CCACTCAGCT CTGAGGTAAG GAAGAAACTA GAGCAACACA TTCGAAGGAG GCTCATCCAG 
    CGCAGATGGG GCCTGCCCCG CAGAATCCAT GAGTCTCTGT CATTGCTACG TCCTCAGAGC 
    AAAATTTCAG AGCTATCTGT GTCAGAGAGA ATTCATGGAC CGTTAAATAT CTCTTTGGTT 
    GAGGGTCAGA GGTGCAATGT TCTAAAGAAG TCCGCATCAA GCTTCCCTAG AAGCTTCCAC 
    GAGAGGAGCT CAAATATGCT TTCCATGGAG AATGTGGGGA ATTATCAGGG ATACAGCCAG 
    GAGACTGTCC CAAAAGATCA CCTGTTGCAT GGTCCGGAGA CTTCTTCAGA CAAGGATCTG 
    AGGTCTAACT CTGAGAGAGA CCTAGAAACT CATATGATGC ATCTGTCAGG GAATGACTCA 
    GGGGTGAGAC TAGGTCAGAA ACAACTTGAA AATGCCCTGA CAGTACGTTT GAGCAAGAAA 
    TTTGAGGAAA TCAATGAGGG TCGAATGCCT GGGACTGTGC ATAGTTCATG GCACTCAGTC 
    AAGCAGACAA TGTCTCTTCC TGAGAAATCC CACAGCCAAA TTAAACATCG AAATCTGGTA 
    ACATTGGTGA GTGAGGACCA CTGCGTTGAT ACTTCCCAGG AAATTTCCTT CCTTAGTTCC 
    AACAAACAAA AGATGTTGGA AGCCCATATT AAAACTTTCC GTATGAGGAT GCTGTGGGGC 
    CTTCCCCTCA AGGTCCTTGA ATCCATAGAA ATCTTCAAAT CGAAAGCGGA CCTTTCCACT 
    TCCTTTTCCC ATTTCGACCT TCCCTCCTCA GCCACCTTCA TCTCTCAGGG AGATTCCAAA 
    GATGGGGTCT CTAAGTCCCG TAGTCGAAGC ACTTTTCAAG GAGAAAAGTT GGGAACAACA 
    AGCTCAGTCC CCATCCTTGA TCGTCCTCAC CCTGTCTCCT CACCTGTCGT CCAAGAAGGG 
    CAGGGGACCC TGAGAAGACA ATTTTCTGAT ACTGACCATG ACCTTATAGA GACAGATTCC 
    AAAGACGGGG CCTCCACATC CCTTAGAAGA GGTACTACAG ATTTTCAAAG CGAAAAATTA 
    GATTCAACAA GCTCATTCCC CATCCTCGGT CATTCTTACC TTGTCACTTC ACCTGTCAAC 
    CAAGAAAAGC AGGGGACCCT GAGAAGAGAA TTCTCTGATA CTGACAATGA TCTTACAGAA 
    AGTGTCCGGA CAACAGAGGA TGGCAGACAG ACTTTTCTGC CCCCGCCACA CAGCATCGTA 
    GACGAAGTCA GTCAGAAACA GACTGTACTG GCCAGTAGAT GCAGCGCAGA GCTGCCCATA 
    ATGCAAGCTG GAGCTGGCTG TGAGTCATGG GATAAGAGAA AGAGTTCCTT TCATAATGTA 
    GACAGGCTTC AGGGCAGTAG AAAGACCTTT CCTGTCACCA ATGCTCTTCA ATCACAAACT 
    AGGAACAACT TGACAACCAG CAAGTCAGGA AGCTGCTCAC TGACAAATGT GAAAGCAAGC 
    ACTTCCAATG AAACTGAAAT TTTCCCACCA AGAATATCAG TTCCTCAAGA TCCTAAATCA 
    TCATACCTTA AAAATCAGAT GTTGAGCCAG TTAAAGTTGG TCCAGAGGAA GCATAGCCAA 
    CCTCAGAGCC ATTTCACTGA CATGTCTTTT GCCTTAGATA ACTTGAGTTC CAAGGACTTA 
    CTGACTAATT CCCAGGGCAT CTCGAGTGGG GACATGGGAA CTTCCCAGGT GGTGCATGTC 
    CACTTGGAGG ACAGCGGAAT CCGTGTGGCA CAGAAGCAGG AGCCCAGGGT CCCTACCTGT 
    GTCTTACAGA AGTGTCAAGT TACGAATTTC CCACCAGCTG TAAACAGAGT GAGTCCTGTG 
    AGACCCAAAG GAGGAGAGCT TGATGGAGGG GATGCAGGGC TGGGGACATC CCAACGCAGG 
    AGAAAGAGCC TCCCTGTTCA TAACAAGACA TCAGGGGAGG TGCTTGGGAG CAAATCTTCC 
    CCAACCTTGA AAACACAGCC TCCTCCTGAA AACCTTTTCA GAAAATGGAT GAAGACCTCT 
    TTGCAGTGGT TTAATAAACC CAGCATATCA TATGAAGAAC AAGAAAGTTC CTGGGAAAAG 
    GGTAGCTCCC TGTCATCATG TGTGCAGAAT ATTGGTCGAG TTATAAGAGC TGCCTTTACT 
    GGGACTACTG AAGCTCAGAA AATTAGGAAA GACACTAGGG AGTTCCTAGA AGAGAAGCTG 
    GGGCATAGGC ATGGGATAGA TATCACCTGT CCCCAAGAGC CCCTTTCCTT CCCAGTGGGG 
    CTTGGGAAAG CTCAGCACAA CCCAGAAGTG CATGTCAGAG CAGAGCCTGT CCAGGGCTGT 
    CCCTGCAACT ACAGGGCTCC CTCCTGCAAA GTGACACGTA CCAAATCTTG CAGCCAACAA 
    GCTATCTTTG TTGGCCAGAA TTATCCTACA AGGATTAGAC AGATCATAGA CAAGGACAGA 
    CAGCCCCAGA AAGTTGAGGC ATTTAAGGGG AAGATACTGT GTCAAAGCCA TCCCCAATCC 
    ATGCCCCACA GGAAGCCTGT GCCACATCCA AACCCCACTT GCCGGCGTCA GGTCAGCCTG 
    GTGTGTCCAG CCGTCCCAAC CAGTGCTAAA AGCCCTGTGT TTAGTGATGT GCCTTTCCTA 
    ACTGGACAGA AAATGCTTCC AAAGCATTTA CAGGGAGGAA AATTTCCCCC CACAAAATAA

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

    SPATA31D1 ( NM_001001670.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001001670.1 Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA.
    Price & Availability↑
    CloneID OHu12705
    Clone ID Related Accession (Same CDS sequence) NM_001001670.2 , NM_001001670.3
    Accession Version NM_001001670.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4731bp)
    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 2018-06-22
    Organism Homo sapiens(human)
    Product spermatogenesis-associated protein 31D1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK128831.1 and AL355985.18. On Feb 14, 2009 this sequence version replaced NM_001001670.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AK128831.1, DB093176.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTGACTCA 
    CATTGGTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTGGTATT GACCCTGTAT TCGTCACCCA CCGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAAGAGGAGA AGGAAAGGTG GGACATTCAA AGGTTTCCCA 
    GACTGGAAAA GTTTCCAGAG AGAAGAGGAA GAGGAAAGGA AGCTGCTTTC TCTTCTGAAA 
    AGCTTTGGAC CTCCTGTTTC CTGCAGTCCT CGGGGCCAGC ATCATGATAC CAACCACTTT 
    CGTCGACTGT TATGCCCAGA CCCCGTCTGT CGGGTGTGTA AGAGAGCAAC TGCTGATATC 
    CAGCAACTGC TGTCTTGGGA GTCCCTGAAA GATGCTGCTC CCTCTGTGTC CCCTTTGGCT 
    TCTTCGGCTT CTGCGACTGA GTCATCGTTC ACTCTGGCTT CCACCCCCTC AGCAACCCCT 
    CCAGAAGACC TAATACTGTC CCCTCGGCCT AAGGCCTCTC CACCACCCCC CTTAATTCTC 
    TCACCTGACC TGATCACCAC CTTAGCTGAC TTATTTTCAC CCTCACCACT GAGGGACCCT 
    CTGCCACCAC AGCCTGTTTC TCCCTTGGAT TCCAAGTTCC CCATAGACCA TTCCCCACCC 
    CAACAGCTTC CCTTTCCCCT TCTCCCACCA CATCACATTG AGAGAGTGGA GTCCAGCCTC 
    CAACCTGAAG CCAGTTTGTC TCTGAACACC ATCTTTTCAT TTGGCTCCAC CCTATGCCAA 
    GATATTTCGC AGGCCATGAA TCCCATTGAT TCTTGTGCTC GTCATCACGG ACCACCAATC 
    CCATCTGCTT TACCACCGGA AGATTGCACT GTGACTCAGT CTAAATCAAG TCTCACCATC 
    TTGAAGACTT TTCCGGAAAT GTTATCTCTA GGTGGCTCTG GTGGGTCATC CACCTCTGCC 
    CCAACAATCA AAGGCATTGA CCATTCACAC CTTGCATCTT CAGAATTCAC CTGGTGGCAG 
    CCTCATGCCA AGGACTCTTT TTCCTCTAAT TTTGTGCCAT CTGATTTCAT GGAGGAGCTT 
    CTTACCCTTC ATTCTTCTGA GGCCTTTTTA GGGGGGCACT CTGTGGCCAA CCTCATAGAG 
    CCTGTTAACA TCTCATTTCT CAGCCATGAC ATTCTGGCAC TCCTGGAGAG ACAAGTCAAA 
    AAAAGGGGTG ATTTCCTGAT GTGGAAAGAA AATGGAAAGA AACCAGGATC ATTCCCAAAA 
    CAACTTAGGC CAAACTACCA ACTAAATTCC TCACGGAATA TGTTAACCTC AATTGCTGTT 
    AAGCATGACT TGGCAGAATC CTTTCCTTTT TGGGCCAGTA AAGGCAAACT AGAATGGCAG 
    CACATCCATC AGCAGCCTCC ACACTCTAAA TGCTTTGAAG ACCATTTAGA GCAAAAATAT 
    GTCCAGCTCT TCTGGGGTCT CCCATCTTTG CACAGCGAGT CTCTGCATCC TACTGTTCTT 
    GTCCAACGTG GCCATTCCTC CATGTTTGTA TTCTTCAATG GCATTACAAA TACATCTATA 
    TCCCATGAAT CCCCAGTACT TCCCCCTCCC CAACCTCTGT CCTTGCCTAG TACCCAACCA 
    CTACCCTTGC CTCAAACCCT GCCCCAAGGT CAGTCCCCAC ATCTCACTCA GGTGAAGTCC 
    CTGGCTCAAC CTCAATCTCC ATTCCGAGCC CTACTACCTA GTCCTCTATT CCTGATTAGG 
    ATCTGTGGAG TGTGTTTTCA TAGACCCCAG AACGAGGCAC GGTCTCTTTT GCCATCTGAA 
    ATTAACCATC TGGAGTGGAA CGTGTTGCAG AAAGTGCAGG AAAGTTTGTG GGGCTTACCC 
    TCTGTGGTTC AAAAATCCCA GGAAGACTTT TGTCCTCCAG CTCCCAATCC TGAATTGGTC 
    AGAAAGTCCT TCAAGGTCCA TGTTCCGATC TCCATCATTC CTGGAGATTT TCCACTCAGC 
    TCTGAGGTAA GGAAGAAACT AGAGCAACAC ATTCGAAGGA GGCTCATCCA GCGCAGATGG 
    GGCCTGCCCC GCAGAATCCA TGAGTCTCTG TCATTGCTAC GTCCTCAGAG CAAAATTTCA 
    GAGCTATCTG TGTCAGAGAG AATTCATGGA CCGTTAAATA TCTCTTTGGT TGAGGGTCAG 
    AGGTGCAATG TTCTAAAGAA GTCCGCATCA AGCTTCCCTA GAAGCTTCCA CGAGAGGAGC 
    TCAAATATGC TTTCCATGGA GAATGTGGGG AATTATCAGG GATACAGCCA GGAGACTGTC 
    CCAAAAGATC ACCTGTTGCA TGGTCCGGAG ACTTCTTCAG ACAAGGATCT GAGGTCTAAC 
    TCTGAGAGAG ACCTAGAAAC TCATATGATG CATCTGTCAG GGAATGACTC AGGGGTGAGA 
    CTAGGTCAGA AACAACTTGA AAATGCCCTG ACAGTACGTT TGAGCAAGAA ATTTGAGGAA 
    ATCAATGAGG GTCGAATGCC TGGGACTGTG CATAGTTCAT GGCACTCAGT CAAGCAGACA 
    ATGTCTCTTC CTGAGAAATC CCACAGCCAA ATTAAACATC GAAATCTGGT AACATTGGTG 
    AGTGAGGACC ACTGCGTTGA TACTTCCCAG GAAATTTCCT TCCTTAGTTC CAACAAACAA 
    AAGATGTTGG AAGCCCATAT TAAAACTTTC CGTATGAGGA TGCTGTGGGG CCTTCCCCTC 
    AAGGTCCTTG AATCCATAGA AATCTTCAAA TCGAAAGCGG ACCTTTCCAC TTCCTTTTCC 
    CATTTCGACC TTCCCTCCTC AGCCACCTTC ATCTCTCAGG GAGATTCCAA AGATGGGGTC 
    TCTAAGTCCC GTAGTCGAAG CACTTTTCAA GGAGAAAAGT TGGGAACAAC AAGCTCAGTC 
    CCCATCCTTG ATCGTCCTCA CCCTGTCTCC TCACCTGTCG TCCAAGAAGG GCAGGGGACC 
    CTGAGAAGAC AATTTTCTGA TACTGACCAT GACCTTATAG AGACAGATTC CAAAGACGGG 
    GCCTCCACAT CCCTTAGAAG AGGTACTACA GATTTTCAAA GCGAAAAATT AGATTCAACA 
    AGCTCATTCC CCATCCTCGG TCATTCTTAC CTTGTCACTT CACCTGTCAA CCAAGAAAAG 
    CAGGGGACCC TGAGAAGAGA ATTCTCTGAT ACTGACAATG ATCTTACAGA AAGTGTCCGG 
    ACAACAGAGG ATGGCAGACA GACTTTTCTG CCCCCGCCAC ACAGCATCGT AGACGAAGTC 
    AGTCAGAAAC AGACTGTACT GGCCAGTAGA TGCAGCGCAG AGCTGCCCAT AATGCAAGCT 
    GGAGCTGGCT GTGAGTCATG GGATAAGAGA AAGAGTTCCT TTCATAATGT AGACAGGCTT 
    CAGGGCAGTA GAAAGACCTT TCCTGTCACC AATGCTCTTC AATCACAAAC TAGGAACAAC 
    TTGACAACCA GCAAGTCAGG AAGCTGCTCA CTGACAAATG TGAAAGCAAG CACTTCCAAT 
    GAAACTGAAA TTTTCCCACC AAGAATATCA GTTCCTCAAG ATCCTAAATC ATCATACCTT 
    AAAAATCAGA TGTTGAGCCA GTTAAAGTTG GTCCAGAGGA AGCATAGCCA ACCTCAGAGC 
    CATTTCACTG ACATGTCTTT TGCCTTAGAT AACTTGAGTT CCAAGGACTT ACTGACTAAT 
    TCCCAGGGCA TCTCGAGTGG GGACATGGGA ACTTCCCAGG TGGTGCATGT CCACTTGGAG 
    GACAGCGGAA TCCGTGTGGC ACAGAAGCAG GAGCCCAGGG TCCCTACCTG TGTCTTACAG 
    AAGTGTCAAG TTACGAATTT CCCACCAGCT GTAAACAGAG TGAGTCCTGT GAGACCCAAA 
    GGAGGAGAGC TTGATGGAGG GGATGCAGGG CTGGGGACAT CCCAACGCAG GAGAAAGAGC 
    CTCCCTGTTC ATAACAAGAC ATCAGGGGAG GTGCTTGGGA GCAAATCTTC CCCAACCTTG 
    AAAACACAGC CTCCTCCTGA AAACCTTTTC AGAAAATGGA TGAAGACCTC TTTGCAGTGG 
    TTTAATAAAC CCAGCATATC ATATGAAGAA CAAGAAAGTT CCTGGGAAAA GGGTAGCTCC 
    CTGTCATCAT GTGTGCAGAA TATTGGTCGA GTTATAAGAG CTGCCTTTAC TGGGACTACT 
    GAAGCTCAGA AAATTAGGAA AGACACTAGG GAGTTCCTAG AAGAGAAGCT GGGGCATAGG 
    CATGGGATAG ATATCACCTG TCCCCAAGAG CCCCTTTCCT TCCCAGTGGG GCTTGGGAAA 
    GCTCAGCACA ACCCAGAAGT GCATGTCAGA GCAGAGCCTG TCCAGGGCTG TCCCTGCAAC 
    TACAGGGCTC CCTCCTGCAA AGTGACACGT ACCAAATCTT GCAGCCAACA AGCTATCTTT 
    GTTGGCCAGA ATTATCCTAC AAGGATTAGA CAGATCATAG ACAAGGACAG ACAGCCCCAG 
    AAAGTTGAGG CATTTAAGGG GAAGATACTG TGTCAAAGCC ATCCCCAATC CATGCCCCAC 
    AGGAAGCCTG TGCCACATCC AAACCCCACT TGCCGGCGTC AGGTCAGCCT GGTGTGTCCA 
    GCCGTCCCAA CCAGTGCTAA AAGCCCTGTG TTTAGTGATG TGCCTTTCCT AACTGGACAG 
    AAAATGCTTC CAAAGCATTT ACAGGGAGGA AAATTTCCCC CCACAAAATA A

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

    RefSeq NP_001001670.1
    CDS48..4778
    Translation

    Target ORF information:

    RefSeq Version NM_001001670.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily D member 1 (SPATA31D1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001001670.2

    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
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTGACTCA 
    CATTGGTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTGGTATT GACCCTGTAT TCGTCACCCA CCGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAAGAGGAGA AGGAAAGGTG GGACATTCAA AGGTTTCCCA 
    GACTGGAAAA GTTTCCAGAG AGAAGAGGAA GAGGAAAGGA AGCTGCTTTC TCTTCTGAAA 
    AGCTTTGGAC CTCCTGTTTC CTGCAGTCCT CGGGGCCAGC ATCATGATAC CAACCACTTT 
    CGTCGACTGT TATGCCCAGA CCCCGTCTGT CGGGTGTGTA AGAGAGCAAC TGCTGATATC 
    CAGCAACTGC TGTCTTGGGA GTCCCTGAAA GATGCTGCTC CCTCTGTGTC CCCTTTGGCT 
    TCTTCGGCTT CTGCGACTGA GTCATCGTTC ACTCTGGCTT CCACCCCCTC AGCAACCCCT 
    CCAGAAGACC TAATACTGTC CCCTCGGCCT AAGGCCTCTC CACCACCCCC CTTAATTCTC 
    TCACCTGACC TGATCACCAC CTTAGCTGAC TTATTTTCAC CCTCACCACT GAGGGACCCT 
    CTGCCACCAC AGCCTGTTTC TCCCTTGGAT TCCAAGTTCC CCATAGACCA TTCCCCACCC 
    CAACAGCTTC CCTTTCCCCT TCTCCCACCA CATCACATTG AGAGAGTGGA GTCCAGCCTC 
    CAACCTGAAG CCAGTTTGTC TCTGAACACC ATCTTTTCAT TTGGCTCCAC CCTATGCCAA 
    GATATTTCGC AGGCCATGAA TCCCATTGAT TCTTGTGCTC GTCATCACGG ACCACCAATC 
    CCATCTGCTT TACCACCGGA AGATTGCACT GTGACTCAGT CTAAATCAAG TCTCACCATC 
    TTGAAGACTT TTCCGGAAAT GTTATCTCTA GGTGGCTCTG GTGGGTCATC CACCTCTGCC 
    CCAACAATCA AAGGCATTGA CCATTCACAC CTTGCATCTT CAGAATTCAC CTGGTGGCAG 
    CCTCATGCCA AGGACTCTTT TTCCTCTAAT TTTGTGCCAT CTGATTTCAT GGAGGAGCTT 
    CTTACCCTTC ATTCTTCTGA GGCCTTTTTA GGGGGGCACT CTGTGGCCAA CCTCATAGAG 
    CCTGTTAACA TCTCATTTCT CAGCCATGAC ATTCTGGCAC TCCTGGAGAG ACAAGTCAAA 
    AAAAGGGGTG ATTTCCTGAT GTGGAAAGAA AATGGAAAGA AACCAGGATC ATTCCCAAAA 
    CAACTTAGGC CAAACTACCA ACTAAATTCC TCACGGAATA TGTTAACCTC AATTGCTGTT 
    AAGCATGACT TGGCAGAATC CTTTCCTTTT TGGGCCAGTA AAGGCAAACT AGAATGGCAG 
    CACATCCATC AGCAGCCTCC ACACTCTAAA TGCTTTGAAG ACCATTTAGA GCAAAAATAT 
    GTCCAGCTCT TCTGGGGTCT CCCATCTTTG CACAGCGAGT CTCTGCATCC TACTGTTCTT 
    GTCCAACGTG GCCATTCCTC CATGTTTGTA TTCTTCAATG GCATTACAAA TACATCTATA 
    TCCCATGAAT CCCCAGTACT TCCCCCTCCC CAACCTCTGT CCTTGCCTAG TACCCAACCA 
    CTACCCTTGC CTCAAACCCT GCCCCAAGGT CAGTCCCCAC ATCTCACTCA GGTGAAGTCC 
    CTGGCTCAAC CTCAATCTCC ATTCCGAGCC CTACTACCTA GTCCTCTATT CCTGATTAGG 
    ATCTGTGGAG TGTGTTTTCA TAGACCCCAG AACGAGGCAC GGTCTCTTTT GCCATCTGAA 
    ATTAACCATC TGGAGTGGAA CGTGTTGCAG AAAGTGCAGG AAAGTTTGTG GGGCTTACCC 
    TCTGTGGTTC AAAAATCCCA GGAAGACTTT TGTCCTCCAG CTCCCAATCC TGAATTGGTC 
    AGAAAGTCCT TCAAGGTCCA TGTTCCGATC TCCATCATTC CTGGAGATTT TCCACTCAGC 
    TCTGAGGTAA GGAAGAAACT AGAGCAACAC ATTCGAAGGA GGCTCATCCA GCGCAGATGG 
    GGCCTGCCCC GCAGAATCCA TGAGTCTCTG TCATTGCTAC GTCCTCAGAG CAAAATTTCA 
    GAGCTATCTG TGTCAGAGAG AATTCATGGA CCGTTAAATA TCTCTTTGGT TGAGGGTCAG 
    AGGTGCAATG TTCTAAAGAA GTCCGCATCA AGCTTCCCTA GAAGCTTCCA CGAGAGGAGC 
    TCAAATATGC TTTCCATGGA GAATGTGGGG AATTATCAGG GATACAGCCA GGAGACTGTC 
    CCAAAAGATC ACCTGTTGCA TGGTCCGGAG ACTTCTTCAG ACAAGGATCT GAGGTCTAAC 
    TCTGAGAGAG ACCTAGAAAC TCATATGATG CATCTGTCAG GGAATGACTC AGGGGTGAGA 
    CTAGGTCAGA AACAACTTGA AAATGCCCTG ACAGTACGTT TGAGCAAGAA ATTTGAGGAA 
    ATCAATGAGG GTCGAATGCC TGGGACTGTG CATAGTTCAT GGCACTCAGT CAAGCAGACA 
    ATGTCTCTTC CTGAGAAATC CCACAGCCAA ATTAAACATC GAAATCTGGT AACATTGGTG 
    AGTGAGGACC ACTGCGTTGA TACTTCCCAG GAAATTTCCT TCCTTAGTTC CAACAAACAA 
    AAGATGTTGG AAGCCCATAT TAAAACTTTC CGTATGAGGA TGCTGTGGGG CCTTCCCCTC 
    AAGGTCCTTG AATCCATAGA AATCTTCAAA TCGAAAGCGG ACCTTTCCAC TTCCTTTTCC 
    CATTTCGACC TTCCCTCCTC AGCCACCTTC ATCTCTCAGG GAGATTCCAA AGATGGGGTC 
    TCTAAGTCCC GTAGTCGAAG CACTTTTCAA GGAGAAAAGT TGGGAACAAC AAGCTCAGTC 
    CCCATCCTTG ATCGTCCTCA CCCTGTCTCC TCACCTGTCG TCCAAGAAGG GCAGGGGACC 
    CTGAGAAGAC AATTTTCTGA TACTGACCAT GACCTTATAG AGACAGATTC CAAAGACGGG 
    GCCTCCACAT CCCTTAGAAG AGGTACTACA GATTTTCAAA GCGAAAAATT AGATTCAACA 
    AGCTCATTCC CCATCCTCGG TCATTCTTAC CTTGTCACTT CACCTGTCAA CCAAGAAAAG 
    CAGGGGACCC TGAGAAGAGA ATTCTCTGAT ACTGACAATG ATCTTACAGA AAGTGTCCGG 
    ACAACAGAGG ATGGCAGACA GACTTTTCTG CCCCCGCCAC ACAGCATCGT AGACGAAGTC 
    AGTCAGAAAC AGACTGTACT GGCCAGTAGA TGCAGCGCAG AGCTGCCCAT AATGCAAGCT 
    GGAGCTGGCT GTGAGTCATG GGATAAGAGA AAGAGTTCCT TTCATAATGT AGACAGGCTT 
    CAGGGCAGTA GAAAGACCTT TCCTGTCACC AATGCTCTTC AATCACAAAC TAGGAACAAC 
    TTGACAACCA GCAAGTCAGG AAGCTGCTCA CTGACAAATG TGAAAGCAAG CACTTCCAAT 
    GAAACTGAAA TTTTCCCACC AAGAATATCA GTTCCTCAAG ATCCTAAATC ATCATACCTT 
    AAAAATCAGA TGTTGAGCCA GTTAAAGTTG GTCCAGAGGA AGCATAGCCA ACCTCAGAGC 
    CATTTCACTG ACATGTCTTT TGCCTTAGAT AACTTGAGTT CCAAGGACTT ACTGACTAAT 
    TCCCAGGGCA TCTCGAGTGG GGACATGGGA ACTTCCCAGG TGGTGCATGT CCACTTGGAG 
    GACAGCGGAA TCCGTGTGGC ACAGAAGCAG GAGCCCAGGG TCCCTACCTG TGTCTTACAG 
    AAGTGTCAAG TTACGAATTT CCCACCAGCT GTAAACAGAG TGAGTCCTGT GAGACCCAAA 
    GGAGGAGAGC TTGATGGAGG GGATGCAGGG CTGGGGACAT CCCAACGCAG GAGAAAGAGC 
    CTCCCTGTTC ATAACAAGAC ATCAGGGGAG GTGCTTGGGA GCAAATCTTC CCCAACCTTG 
    AAAACACAGC CTCCTCCTGA AAACCTTTTC AGAAAATGGA TGAAGACCTC TTTGCAGTGG 
    TTTAATAAAC CCAGCATATC ATATGAAGAA CAAGAAAGTT CCTGGGAAAA GGGTAGCTCC 
    CTGTCATCAT GTGTGCAGAA TATTGGTCGA GTTATAAGAG CTGCCTTTAC TGGGACTACT 
    GAAGCTCAGA AAATTAGGAA AGACACTAGG GAGTTCCTAG AAGAGAAGCT GGGGCATAGG 
    CATGGGATAG ATATCACCTG TCCCCAAGAG CCCCTTTCCT TCCCAGTGGG GCTTGGGAAA 
    GCTCAGCACA ACCCAGAAGT GCATGTCAGA GCAGAGCCTG TCCAGGGCTG TCCCTGCAAC 
    TACAGGGCTC CCTCCTGCAA AGTGACACGT ACCAAATCTT GCAGCCAACA AGCTATCTTT 
    GTTGGCCAGA ATTATCCTAC AAGGATTAGA CAGATCATAG ACAAGGACAG ACAGCCCCAG 
    AAAGTTGAGG CATTTAAGGG GAAGATACTG TGTCAAAGCC ATCCCCAATC CATGCCCCAC 
    AGGAAGCCTG TGCCACATCC AAACCCCACT TGCCGGCGTC AGGTCAGCCT GGTGTGTCCA 
    GCCGTCCCAA CCAGTGCTAA AAGCCCTGTG TTTAGTGATG TGCCTTTCCT AACTGGACAG 
    AAAATGCTTC CAAAGCATTT ACAGGGAGGA AAATTTCCCC CCACAAAATA A

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

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