ORF » Species Summary » Homo sapiens » SPATA31A5 cDNA ORF clone

SPATA31A5 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following SPATA31A5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SPATA31A5 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
OHu00827 NM_001113541.2
Latest version!		 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$274.50-$384.30
$549.00
OHu80717 XM_011545671.3
Latest version!		 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu80717 XM_011545671.2 Homo sapiens SPATA31 subfamily A, member 5 (SPATA31A5), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu00827 NM_001113541.1 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$274.50-$384.30
$549.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    SPATA31A5 ( NM_001113541.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001107013.1 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA.
    Price & Availability↑
    CloneID OHu00827
    Clone ID Related Accession (Same CDS sequence) NM_001113541.1 , NM_001113541.2
    Accession Version NM_001113541.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4044bp)
    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 2019-04-30
    Organism Homo sapiens(human)
    Product spermatogenesis-associated protein 31A5
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL590491.13. On or before Mar 29, 2008 this sequence version replaced XM_001715076.1, XM_001715083.1, XM_001715093.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on expression ##RefSeq-Attributes-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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGT 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACTTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCGT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCGGAGAGGC CTGGAGGAGA CTTCGGACCT GCTTTCACAA 
    CTGCAGAGCC TCCTGGGGCC ACACCTTGAC AAAGGTGACT TTGGTCAGCT CTCCGGTCCA 
    GACCCCCCAG GTGAGGTGGG CGAAAGAGCA CCTGATGGAG CCTCCCAGTC CTCTCATGAG 
    CCTATGGAAG ATGCTGCTCC CATTCTCTCC CCGTTAGCTT CCCCGGATCC TCAAGCCAAG 
    CATCCTCAGG ATCTGGCCTC CACCCCATCA CCAGGCCCAA TGACCACCTC AGTCTCCTCC 
    CTAAGTGCCT CCCAGCCACC AGAACCTTCC CTTCCCCTAG AACACCCCTC ACCCGAGCCA 
    CCTGCACTTT TCCCTCACCC ACCACACACC CCTGATCCTC TGGCCTGCTC TCTGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CATTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CATCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCGAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGC GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GCTCTCAGAT 
    CCTAGGCTCT GGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC CGAGTGCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCTTCTTT CCCAGTCCTA TCTCCTGCTT TTCCATCCCT GATTCAGAAC 
    ACTGGAGTAG CTTGCCCTGC ATCGCAGAAT AAAGTGCAAG CTCTCTCCCT ACCTGAAACT 
    CAGCACCCTG AATGGCCTTT GTTGAGGAGA CAACTAGAAG GTAGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGT 
    TTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCCGGAG ACAACTGGAG 
    CAACACATAA AAAAGTGGAT CATCCAACAC TGGGGCAACC TGGGAAGGAT CCAAGAGTCT 
    CTGGATCTGA TGCAGCTTCG GGATGAATCA CCAGGGACAA GTCAGGCCAA GGGCAAACCC 
    AGTCCCTGGC AGTCCTCCAT GTCCACAGGT GAAGGCAGCA AGGAGGCACA GAAGGTGAAG 
    TTCCAGCTAG AGAGGGACCC GTGCCCACAT CTGGGGCAAA TTCTGGGTGA GACCCCACAA 
    AATCTATCCA GGGATATGAA AAGCTTCCCA CGGAAGGTTC TGGGGGTGAC TTCTGAGGAG 
    TTGGAAAGGA ACTTGAGGAA GCCCTTGAGG AGTGACTCGG GAAGTGATTT ATTAAGATGC 
    ACAGAGAGGA CTCATATAGA AAACATCCTG AAAGCCCACA TGGGCAGGAA CTTGGGCCAG 
    ACCAACGAGG GCTTGATCCC CGTGTGTGTG CGTCGATCCT GGCTTGCTGT CAACCAGGCT 
    CTTCCCGTGT CCAACACCCA TGTGAAAACC AGCAATCTAG CAGCCCCGAA AAGTGGGAAA 
    GCCTGTGTGA ACACAGCCCA GGTGCTTTCC TTCCTCGAGC CGTGTACTCA GCAGGGGTTG 
    GGAGCCCATA TTGTGAGGTT TTGGGCCAAA CACAGGTGGG GTCTACCCCT CAGGGTCCTC 
    AAGCCCATTC AGTGCTTTAA ACTGGAAAAG GTTTCATCCT TGTCCCTTAC ACAGCTTGCT 
    GGTCCCTCCT CAGCCACCTG TGAATCTGGG GCTGGCTCAG AAGTTGAGGT GGACATGTTC 
    CTTAGAAAGC CACCAATGGC AAGTCTGAGA AAGCAGGTGC TGACCAAAGC ATCTGATCAC 
    ATGCCAGAGA GTCTTCTGGC CTCCTCACCT GCATGGAAGC AGTTCCAGAG GGCACCGCGA 
    GGAATCCCAT CTTGGAATGA TCATGAACCC TTGAAGCCTC CTCCAGCTGG ACAGGAGGGC 
    AGGTGGCCAT CTAAGCCCCT CACGTACAGC CTCACAGGCA GCATCCAGCA GAGCAGGAGC 
    TTAGGAGCCC AATCTTCAAA GGCTGGAGAG ACAAGGGAGG CAGTGCCACA ATGCAGAGTC 
    CCCTTGGAAA CCTGTATGCT GGCAAACCTC CAAGCCACAA GTGAGGATGT GCATGGTTTC 
    GAGGCTCCAG GGACCAGCAA AAGCTCTCTA CACCCTAGAG TGTCTGTCTC CCAAGATCCA 
    AGAAAGCTGT GTCTTATGGA GGAGGTTGTT AATGAATTTG AGCCTGGAAT GGCCACAAAG 
    TCAGAGACCC AGCCTCAAGT TTGTGCCGCT GTTGTGCTCC TTCCAGATGG GCAAGCATCT 
    GTTGTGCCCC ACGCTTCAGA GAATTTGGTT TCTCAAGTGC CCCAGGGCCA TCTCCAGAGC 
    ATGCCTACTG GGAACATGCG GGCTTCCCAG GAGCTACATG ACCTCATGGC AGCCAGAAGG 
    AGCAAACTGG TGCACGAGGA GCCCAGAAAC CCAAACTGTC AAGGCTCATG CAAGAGCCAA 
    AGGCCAATGT TTCCCCCTAT TCACAAGAGT GAGAAGTCTA GGAAACCCAA CTTAGAAAAA 
    CATGAAGAAA GGCTTGAAGG ATTGAGGACT CCTCAACTTA CCCCAGTCAG GAAAACAGAA 
    GACACCCATC AGGATGAAGG CGTCCAGCTA CTGCCATCAA AGAAACAGCC TCCTTCAGTA 
    AGCCCCTTTG GAGAAAACAT CAAGCAAATT TTTCAGTGGA TTTTTTCAAA GAAAAAAAGC 
    AAGCCAGCAC CAGTCACTGC TGAGAGCCAA AAAACAGTAA AAAACAGATC ACGTGTGTAC 
    AGCAGCAGTG CTGAAGCTCA GGGTCTCATG ACGGCAGTTG GACAAATGCT GGACGAGAAA 
    ATGTCACTTT GCCATGCGCG CCATGCCTCG AAGGTAAATC AGCACAAACA GAAGTTTCAA 
    GCCCCAGTCT GTGGGTTTCC CTGCAACCAC AGGCACCTCT TCTACTCAGA ACACGGCAGA 
    ATACTGAGCT ATGCAGCCAG CAGTCAACAA GCCACTCTCA AGAGCCAGGG TTGTCCCAAC 
    AGAGACAGAC AAATCAGAAA TCAACAGCCC TTGAAAAGTG TGCGGTGCAA CAATGAGCAA 
    TGGGGCCTGC GACATCCCCA AATCTTGCAC CCCAAGAAAG CTGTATCCCC AGTCAGTCCC 
    CCTCAGCACT GGCCGAAGAC ATCCGGTGCC TCTAGCCACC ATCACCACTG TCCAAGGCAC 
    TGTCTTCTTT GGGAAGGTAT CTGA

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

    RefSeq NP_001107013.1
    CDS30..4073
    Translation

    Target ORF information:

    RefSeq Version NM_001113541.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001113541.1

    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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGT 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACTTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCGT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCGGAGAGGC CTGGAGGAGA CTTCGGACCT GCTTTCACAA 
    CTGCAGAGCC TCCTGGGGCC ACACCTTGAC AAAGGTGACT TTGGTCAGCT CTCCGGTCCA 
    GACCCCCCAG GTGAGGTGGG CGAAAGAGCA CCTGATGGAG CCTCCCAGTC CTCTCATGAG 
    CCTATGGAAG ATGCTGCTCC CATTCTCTCC CCGTTAGCTT CCCCGGATCC TCAAGCCAAG 
    CATCCTCAGG ATCTGGCCTC CACCCCATCA CCAGGCCCAA TGACCACCTC AGTCTCCTCC 
    CTAAGTGCCT CCCAGCCACC AGAACCTTCC CTTCCCCTAG AACACCCCTC ACCCGAGCCA 
    CCTGCACTTT TCCCTCACCC ACCACACACC CCTGATCCTC TGGCCTGCTC TCTGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CATTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CATCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCGAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGC GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GCTCTCAGAT 
    CCTAGGCTCT GGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC CGAGTGCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCTTCTTT CCCAGTCCTA TCTCCTGCTT TTCCATCCCT GATTCAGAAC 
    ACTGGAGTAG CTTGCCCTGC ATCGCAGAAT AAAGTGCAAG CTCTCTCCCT ACCTGAAACT 
    CAGCACCCTG AATGGCCTTT GTTGAGGAGA CAACTAGAAG GTAGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGT 
    TTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCCGGAG ACAACTGGAG 
    CAACACATAA AAAAGTGGAT CATCCAACAC TGGGGCAACC TGGGAAGGAT CCAAGAGTCT 
    CTGGATCTGA TGCAGCTTCG GGATGAATCA CCAGGGACAA GTCAGGCCAA GGGCAAACCC 
    AGTCCCTGGC AGTCCTCCAT GTCCACAGGT GAAGGCAGCA AGGAGGCACA GAAGGTGAAG 
    TTCCAGCTAG AGAGGGACCC GTGCCCACAT CTGGGGCAAA TTCTGGGTGA GACCCCACAA 
    AATCTATCCA GGGATATGAA AAGCTTCCCA CGGAAGGTTC TGGGGGTGAC TTCTGAGGAG 
    TTGGAAAGGA ACTTGAGGAA GCCCTTGAGG AGTGACTCGG GAAGTGATTT ATTAAGATGC 
    ACAGAGAGGA CTCATATAGA AAACATCCTG AAAGCCCACA TGGGCAGGAA CTTGGGCCAG 
    ACCAACGAGG GCTTGATCCC CGTGTGTGTG CGTCGATCCT GGCTTGCTGT CAACCAGGCT 
    CTTCCCGTGT CCAACACCCA TGTGAAAACC AGCAATCTAG CAGCCCCGAA AAGTGGGAAA 
    GCCTGTGTGA ACACAGCCCA GGTGCTTTCC TTCCTCGAGC CGTGTACTCA GCAGGGGTTG 
    GGAGCCCATA TTGTGAGGTT TTGGGCCAAA CACAGGTGGG GTCTACCCCT CAGGGTCCTC 
    AAGCCCATTC AGTGCTTTAA ACTGGAAAAG GTTTCATCCT TGTCCCTTAC ACAGCTTGCT 
    GGTCCCTCCT CAGCCACCTG TGAATCTGGG GCTGGCTCAG AAGTTGAGGT GGACATGTTC 
    CTTAGAAAGC CACCAATGGC AAGTCTGAGA AAGCAGGTGC TGACCAAAGC ATCTGATCAC 
    ATGCCAGAGA GTCTTCTGGC CTCCTCACCT GCATGGAAGC AGTTCCAGAG GGCACCGCGA 
    GGAATCCCAT CTTGGAATGA TCATGAACCC TTGAAGCCTC CTCCAGCTGG ACAGGAGGGC 
    AGGTGGCCAT CTAAGCCCCT CACGTACAGC CTCACAGGCA GCATCCAGCA GAGCAGGAGC 
    TTAGGAGCCC AATCTTCAAA GGCTGGAGAG ACAAGGGAGG CAGTGCCACA ATGCAGAGTC 
    CCCTTGGAAA CCTGTATGCT GGCAAACCTC CAAGCCACAA GTGAGGATGT GCATGGTTTC 
    GAGGCTCCAG GGACCAGCAA AAGCTCTCTA CACCCTAGAG TGTCTGTCTC CCAAGATCCA 
    AGAAAGCTGT GTCTTATGGA GGAGGTTGTT AATGAATTTG AGCCTGGAAT GGCCACAAAG 
    TCAGAGACCC AGCCTCAAGT TTGTGCCGCT GTTGTGCTCC TTCCAGATGG GCAAGCATCT 
    GTTGTGCCCC ACGCTTCAGA GAATTTGGTT TCTCAAGTGC CCCAGGGCCA TCTCCAGAGC 
    ATGCCTACTG GGAACATGCG GGCTTCCCAG GAGCTACATG ACCTCATGGC AGCCAGAAGG 
    AGCAAACTGG TGCACGAGGA GCCCAGAAAC CCAAACTGTC AAGGCTCATG CAAGAGCCAA 
    AGGCCAATGT TTCCCCCTAT TCACAAGAGT GAGAAGTCTA GGAAACCCAA CTTAGAAAAA 
    CATGAAGAAA GGCTTGAAGG ATTGAGGACT CCTCAACTTA CCCCAGTCAG GAAAACAGAA 
    GACACCCATC AGGATGAAGG CGTCCAGCTA CTGCCATCAA AGAAACAGCC TCCTTCAGTA 
    AGCCCCTTTG GAGAAAACAT CAAGCAAATT TTTCAGTGGA TTTTTTCAAA GAAAAAAAGC 
    AAGCCAGCAC CAGTCACTGC TGAGAGCCAA AAAACAGTAA AAAACAGATC ACGTGTGTAC 
    AGCAGCAGTG CTGAAGCTCA GGGTCTCATG ACGGCAGTTG GACAAATGCT GGACGAGAAA 
    ATGTCACTTT GCCATGCGCG CCATGCCTCG AAGGTAAATC AGCACAAACA GAAGTTTCAA 
    GCCCCAGTCT GTGGGTTTCC CTGCAACCAC AGGCACCTCT TCTACTCAGA ACACGGCAGA 
    ATACTGAGCT ATGCAGCCAG CAGTCAACAA GCCACTCTCA AGAGCCAGGG TTGTCCCAAC 
    AGAGACAGAC AAATCAGAAA TCAACAGCCC TTGAAAAGTG TGCGGTGCAA CAATGAGCAA 
    TGGGGCCTGC GACATCCCCA AATCTTGCAC CCCAAGAAAG CTGTATCCCC AGTCAGTCCC 
    CCTCAGCACT GGCCGAAGAC ATCCGGTGCC TCTAGCCACC ATCACCACTG TCCAAGGCAC 
    TGTCTTCTTT GGGAAGGTAT CTGA

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

    SPATA31A5 ( NM_001113541.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001107013.1 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA.
    Price & Availability↑
    CloneID OHu00827
    Clone ID Related Accession (Same CDS sequence) NM_001113541.1 , NM_001113541.2
    Accession Version NM_001113541.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4044bp)
    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 2019-12-02
    Organism Homo sapiens(human)
    Product spermatogenesis-associated protein 31A5
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL590491.13. On Nov 26, 2019 this sequence version replaced NM_001113541.1. ##RefSeq-Attributes-START## CDS uses downstream in-frame AUG :: upstream AUG and CDS extension is not conserved RefSeq Select criteria :: based on expression ##RefSeq-Attributes-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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGT 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACTTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCGT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCGGAGAGGC CTGGAGGAGA CTTCGGACCT GCTTTCACAA 
    CTGCAGAGCC TCCTGGGGCC ACACCTTGAC AAAGGTGACT TTGGTCAGCT CTCCGGTCCA 
    GACCCCCCAG GTGAGGTGGG CGAAAGAGCA CCTGATGGAG CCTCCCAGTC CTCTCATGAG 
    CCTATGGAAG ATGCTGCTCC CATTCTCTCC CCGTTAGCTT CCCCGGATCC TCAAGCCAAG 
    CATCCTCAGG ATCTGGCCTC CACCCCATCA CCAGGCCCAA TGACCACCTC AGTCTCCTCC 
    CTAAGTGCCT CCCAGCCACC AGAACCTTCC CTTCCCCTAG AACACCCCTC ACCCGAGCCA 
    CCTGCACTTT TCCCTCACCC ACCACACACC CCTGATCCTC TGGCCTGCTC TCTGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CATTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CATCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCGAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGC GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GCTCTCAGAT 
    CCTAGGCTCT GGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC CGAGTGCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCTTCTTT CCCAGTCCTA TCTCCTGCTT TTCCATCCCT GATTCAGAAC 
    ACTGGAGTAG CTTGCCCTGC ATCGCAGAAT AAAGTGCAAG CTCTCTCCCT ACCTGAAACT 
    CAGCACCCTG AATGGCCTTT GTTGAGGAGA CAACTAGAAG GTAGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGT 
    TTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCCGGAG ACAACTGGAG 
    CAACACATAA AAAAGTGGAT CATCCAACAC TGGGGCAACC TGGGAAGGAT CCAAGAGTCT 
    CTGGATCTGA TGCAGCTTCG GGATGAATCA CCAGGGACAA GTCAGGCCAA GGGCAAACCC 
    AGTCCCTGGC AGTCCTCCAT GTCCACAGGT GAAGGCAGCA AGGAGGCACA GAAGGTGAAG 
    TTCCAGCTAG AGAGGGACCC GTGCCCACAT CTGGGGCAAA TTCTGGGTGA GACCCCACAA 
    AATCTATCCA GGGATATGAA AAGCTTCCCA CGGAAGGTTC TGGGGGTGAC TTCTGAGGAG 
    TTGGAAAGGA ACTTGAGGAA GCCCTTGAGG AGTGACTCGG GAAGTGATTT ATTAAGATGC 
    ACAGAGAGGA CTCATATAGA AAACATCCTG AAAGCCCACA TGGGCAGGAA CTTGGGCCAG 
    ACCAACGAGG GCTTGATCCC CGTGTGTGTG CGTCGATCCT GGCTTGCTGT CAACCAGGCT 
    CTTCCCGTGT CCAACACCCA TGTGAAAACC AGCAATCTAG CAGCCCCGAA AAGTGGGAAA 
    GCCTGTGTGA ACACAGCCCA GGTGCTTTCC TTCCTCGAGC CGTGTACTCA GCAGGGGTTG 
    GGAGCCCATA TTGTGAGGTT TTGGGCCAAA CACAGGTGGG GTCTACCCCT CAGGGTCCTC 
    AAGCCCATTC AGTGCTTTAA ACTGGAAAAG GTTTCATCCT TGTCCCTTAC ACAGCTTGCT 
    GGTCCCTCCT CAGCCACCTG TGAATCTGGG GCTGGCTCAG AAGTTGAGGT GGACATGTTC 
    CTTAGAAAGC CACCAATGGC AAGTCTGAGA AAGCAGGTGC TGACCAAAGC ATCTGATCAC 
    ATGCCAGAGA GTCTTCTGGC CTCCTCACCT GCATGGAAGC AGTTCCAGAG GGCACCGCGA 
    GGAATCCCAT CTTGGAATGA TCATGAACCC TTGAAGCCTC CTCCAGCTGG ACAGGAGGGC 
    AGGTGGCCAT CTAAGCCCCT CACGTACAGC CTCACAGGCA GCATCCAGCA GAGCAGGAGC 
    TTAGGAGCCC AATCTTCAAA GGCTGGAGAG ACAAGGGAGG CAGTGCCACA ATGCAGAGTC 
    CCCTTGGAAA CCTGTATGCT GGCAAACCTC CAAGCCACAA GTGAGGATGT GCATGGTTTC 
    GAGGCTCCAG GGACCAGCAA AAGCTCTCTA CACCCTAGAG TGTCTGTCTC CCAAGATCCA 
    AGAAAGCTGT GTCTTATGGA GGAGGTTGTT AATGAATTTG AGCCTGGAAT GGCCACAAAG 
    TCAGAGACCC AGCCTCAAGT TTGTGCCGCT GTTGTGCTCC TTCCAGATGG GCAAGCATCT 
    GTTGTGCCCC ACGCTTCAGA GAATTTGGTT TCTCAAGTGC CCCAGGGCCA TCTCCAGAGC 
    ATGCCTACTG GGAACATGCG GGCTTCCCAG GAGCTACATG ACCTCATGGC AGCCAGAAGG 
    AGCAAACTGG TGCACGAGGA GCCCAGAAAC CCAAACTGTC AAGGCTCATG CAAGAGCCAA 
    AGGCCAATGT TTCCCCCTAT TCACAAGAGT GAGAAGTCTA GGAAACCCAA CTTAGAAAAA 
    CATGAAGAAA GGCTTGAAGG ATTGAGGACT CCTCAACTTA CCCCAGTCAG GAAAACAGAA 
    GACACCCATC AGGATGAAGG CGTCCAGCTA CTGCCATCAA AGAAACAGCC TCCTTCAGTA 
    AGCCCCTTTG GAGAAAACAT CAAGCAAATT TTTCAGTGGA TTTTTTCAAA GAAAAAAAGC 
    AAGCCAGCAC CAGTCACTGC TGAGAGCCAA AAAACAGTAA AAAACAGATC ACGTGTGTAC 
    AGCAGCAGTG CTGAAGCTCA GGGTCTCATG ACGGCAGTTG GACAAATGCT GGACGAGAAA 
    ATGTCACTTT GCCATGCGCG CCATGCCTCG AAGGTAAATC AGCACAAACA GAAGTTTCAA 
    GCCCCAGTCT GTGGGTTTCC CTGCAACCAC AGGCACCTCT TCTACTCAGA ACACGGCAGA 
    ATACTGAGCT ATGCAGCCAG CAGTCAACAA GCCACTCTCA AGAGCCAGGG TTGTCCCAAC 
    AGAGACAGAC AAATCAGAAA TCAACAGCCC TTGAAAAGTG TGCGGTGCAA CAATGAGCAA 
    TGGGGCCTGC GACATCCCCA AATCTTGCAC CCCAAGAAAG CTGTATCCCC AGTCAGTCCC 
    CCTCAGCACT GGCCGAAGAC ATCCGGTGCC TCTAGCCACC ATCACCACTG TCCAAGGCAC 
    TGTCTTCTTT GGGAAGGTAT CTGA

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

    RefSeq NP_001107013.1
    CDS229..4272
    Translation

    Target ORF information:

    RefSeq Version NM_001113541.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001113541.2

    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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGT 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACTTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCGT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCGGAGAGGC CTGGAGGAGA CTTCGGACCT GCTTTCACAA 
    CTGCAGAGCC TCCTGGGGCC ACACCTTGAC AAAGGTGACT TTGGTCAGCT CTCCGGTCCA 
    GACCCCCCAG GTGAGGTGGG CGAAAGAGCA CCTGATGGAG CCTCCCAGTC CTCTCATGAG 
    CCTATGGAAG ATGCTGCTCC CATTCTCTCC CCGTTAGCTT CCCCGGATCC TCAAGCCAAG 
    CATCCTCAGG ATCTGGCCTC CACCCCATCA CCAGGCCCAA TGACCACCTC AGTCTCCTCC 
    CTAAGTGCCT CCCAGCCACC AGAACCTTCC CTTCCCCTAG AACACCCCTC ACCCGAGCCA 
    CCTGCACTTT TCCCTCACCC ACCACACACC CCTGATCCTC TGGCCTGCTC TCTGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CATTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CATCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCGAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGC GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GCTCTCAGAT 
    CCTAGGCTCT GGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC CGAGTGCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCTTCTTT CCCAGTCCTA TCTCCTGCTT TTCCATCCCT GATTCAGAAC 
    ACTGGAGTAG CTTGCCCTGC ATCGCAGAAT AAAGTGCAAG CTCTCTCCCT ACCTGAAACT 
    CAGCACCCTG AATGGCCTTT GTTGAGGAGA CAACTAGAAG GTAGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGT 
    TTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCCGGAG ACAACTGGAG 
    CAACACATAA AAAAGTGGAT CATCCAACAC TGGGGCAACC TGGGAAGGAT CCAAGAGTCT 
    CTGGATCTGA TGCAGCTTCG GGATGAATCA CCAGGGACAA GTCAGGCCAA GGGCAAACCC 
    AGTCCCTGGC AGTCCTCCAT GTCCACAGGT GAAGGCAGCA AGGAGGCACA GAAGGTGAAG 
    TTCCAGCTAG AGAGGGACCC GTGCCCACAT CTGGGGCAAA TTCTGGGTGA GACCCCACAA 
    AATCTATCCA GGGATATGAA AAGCTTCCCA CGGAAGGTTC TGGGGGTGAC TTCTGAGGAG 
    TTGGAAAGGA ACTTGAGGAA GCCCTTGAGG AGTGACTCGG GAAGTGATTT ATTAAGATGC 
    ACAGAGAGGA CTCATATAGA AAACATCCTG AAAGCCCACA TGGGCAGGAA CTTGGGCCAG 
    ACCAACGAGG GCTTGATCCC CGTGTGTGTG CGTCGATCCT GGCTTGCTGT CAACCAGGCT 
    CTTCCCGTGT CCAACACCCA TGTGAAAACC AGCAATCTAG CAGCCCCGAA AAGTGGGAAA 
    GCCTGTGTGA ACACAGCCCA GGTGCTTTCC TTCCTCGAGC CGTGTACTCA GCAGGGGTTG 
    GGAGCCCATA TTGTGAGGTT TTGGGCCAAA CACAGGTGGG GTCTACCCCT CAGGGTCCTC 
    AAGCCCATTC AGTGCTTTAA ACTGGAAAAG GTTTCATCCT TGTCCCTTAC ACAGCTTGCT 
    GGTCCCTCCT CAGCCACCTG TGAATCTGGG GCTGGCTCAG AAGTTGAGGT GGACATGTTC 
    CTTAGAAAGC CACCAATGGC AAGTCTGAGA AAGCAGGTGC TGACCAAAGC ATCTGATCAC 
    ATGCCAGAGA GTCTTCTGGC CTCCTCACCT GCATGGAAGC AGTTCCAGAG GGCACCGCGA 
    GGAATCCCAT CTTGGAATGA TCATGAACCC TTGAAGCCTC CTCCAGCTGG ACAGGAGGGC 
    AGGTGGCCAT CTAAGCCCCT CACGTACAGC CTCACAGGCA GCATCCAGCA GAGCAGGAGC 
    TTAGGAGCCC AATCTTCAAA GGCTGGAGAG ACAAGGGAGG CAGTGCCACA ATGCAGAGTC 
    CCCTTGGAAA CCTGTATGCT GGCAAACCTC CAAGCCACAA GTGAGGATGT GCATGGTTTC 
    GAGGCTCCAG GGACCAGCAA AAGCTCTCTA CACCCTAGAG TGTCTGTCTC CCAAGATCCA 
    AGAAAGCTGT GTCTTATGGA GGAGGTTGTT AATGAATTTG AGCCTGGAAT GGCCACAAAG 
    TCAGAGACCC AGCCTCAAGT TTGTGCCGCT GTTGTGCTCC TTCCAGATGG GCAAGCATCT 
    GTTGTGCCCC ACGCTTCAGA GAATTTGGTT TCTCAAGTGC CCCAGGGCCA TCTCCAGAGC 
    ATGCCTACTG GGAACATGCG GGCTTCCCAG GAGCTACATG ACCTCATGGC AGCCAGAAGG 
    AGCAAACTGG TGCACGAGGA GCCCAGAAAC CCAAACTGTC AAGGCTCATG CAAGAGCCAA 
    AGGCCAATGT TTCCCCCTAT TCACAAGAGT GAGAAGTCTA GGAAACCCAA CTTAGAAAAA 
    CATGAAGAAA GGCTTGAAGG ATTGAGGACT CCTCAACTTA CCCCAGTCAG GAAAACAGAA 
    GACACCCATC AGGATGAAGG CGTCCAGCTA CTGCCATCAA AGAAACAGCC TCCTTCAGTA 
    AGCCCCTTTG GAGAAAACAT CAAGCAAATT TTTCAGTGGA TTTTTTCAAA GAAAAAAAGC 
    AAGCCAGCAC CAGTCACTGC TGAGAGCCAA AAAACAGTAA AAAACAGATC ACGTGTGTAC 
    AGCAGCAGTG CTGAAGCTCA GGGTCTCATG ACGGCAGTTG GACAAATGCT GGACGAGAAA 
    ATGTCACTTT GCCATGCGCG CCATGCCTCG AAGGTAAATC AGCACAAACA GAAGTTTCAA 
    GCCCCAGTCT GTGGGTTTCC CTGCAACCAC AGGCACCTCT TCTACTCAGA ACACGGCAGA 
    ATACTGAGCT ATGCAGCCAG CAGTCAACAA GCCACTCTCA AGAGCCAGGG TTGTCCCAAC 
    AGAGACAGAC AAATCAGAAA TCAACAGCCC TTGAAAAGTG TGCGGTGCAA CAATGAGCAA 
    TGGGGCCTGC GACATCCCCA AATCTTGCAC CCCAAGAAAG CTGTATCCCC AGTCAGTCCC 
    CCTCAGCACT GGCCGAAGAC ATCCGGTGCC TCTAGCCACC ATCACCACTG TCCAAGGCAC 
    TGTCTTCTTT GGGAAGGTAT CTGA

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

    SPATA31A5 ( XM_011545671.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011543973.1 Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80717
    Clone ID Related Accession (Same CDS sequence) XM_011545671.3 , XM_011545671.2
    Accession Version XM_011545671.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4122bp)
    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 31A5 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_011545671.2. ##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
    ATGCCCAGAG CTCAGTTGCT TGAAAGCAAC GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTTTAAAAT TACTTAGTGC CTCATCGCTA AACGCCCCCA GTTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACTTTGGT GTTTGCCCTG GGGTTCTTCT TCCTATTACT CCCCTACTTA 
    TCTTACTTCC GTTGTGATGA CCCACCCTCA CCATCGCCTG GGAAGAGAAA GCGTCATCTT 
    GTCTCCGTAC GTCATCGTGT CTCCCAGTGT CCAGTAGGGC GGAGGCGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTGGT AGAGAGTGCC GGAGAGGCCT GGAGGAGACT 
    TCGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGACAA AGGTGACTTT 
    GGTCAGCTCT CCGGTCCAGA CCCCCCAGGT GAGGTGGGCG AAAGAGCACC TGATGGAGCC 
    TCCCAGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTCTCTCCCC GTTAGCTTCC 
    CCGGATCCTC AAGCCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCATCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCCCCTAGAA 
    CACCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC TGCCTCCTCC AAAAGGCTTC ACTGCTCCTC CCCTGCGGGA CTCCACACTG 
    ATAACTCCAT CTCACTGTGA CTCAGTGGCA TTTCCACTGG GCACCGTCCC TCAAAGCTTG 
    TCTCCACATG AGGATTTGGT GGCTTCTGTC CCAGCCATCT CAGGCCTTGG TGGCTCAAAC 
    AGTCATGTTT CTGCCTCCTC CCGGTGGCAG GAGACTGCCA GAACCTCGTG CGCCTTTAAC 
    TCATCAGTCC AGCAAGATCA TCTTTCCCGC CACCCACCAG AGACCTGTCA GATGGAAGCT 
    GGTAGCCTGT TTTTGCTCAG CTCTGATGGC CAGAATGTCG TGGGGATACA AGTCACAGAA 
    ACAGCCAAGG TCAACATTTG GGAAGAAAAA GAAAATGTTG GATCATTTAC AAATCGAATG 
    ACCCCAGAAA AGCACTTAAA TTCTTTGCGG AATTTGGCTA AATCATTGGA TGCTGAGCAG 
    GACACCACAA ACCCAAAACC CTTCTGGAAC ATGGGAGAGA ACTCGAAACA GCTGCCCGGA 
    CCTCAGAAGC TCTCAGATCC TAGGCTCTGG CAGGAAAGTT TTTGGAAGAA TTATAGCCAG 
    CTTTTCTGGG GCCTCCCCTC TCTGCACAGC GAGTCCCTGG TGGCTAACGC CTGGGTAACT 
    GACAGGTCTT ATACTTTACA GTCTCCTCCT TTCTTGTTCA ATGAAATGTC CAATGTCTGC 
    CCAATTCAAA GGGAGACTAC AATGTCCCCA CTGCTTTTCC AGGCCCAGCC CCTGTCCCAT 
    CTGGGGCCCG AGTGCCAACC CTTTATTTCA TCCACACCCC AATTCCGGCC CACACCTATG 
    GCTCAGGCCG AGGCTCAGGC CCATCTTCAA TCTTCTTTCC CAGTCCTATC TCCTGCTTTT 
    CCATCCCTGA TTCAGAACAC TGGAGTAGCT TGCCCTGCAT CGCAGAATAA AGTGCAAGCT 
    CTCTCCCTAC CTGAAACTCA GCACCCTGAA TGGCCTTTGT TGAGGAGACA ACTAGAAGGT 
    AGGTTGGCTT TACCCTCTAG GGTCCAAAAA TCTCAGGACG TCTTTAGTGT CTCCACTCCT 
    AACCTTCCCC AGGAAAGTTT GACATCCATT CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA 
    CTCCGGAGAC AACTGGAGCA ACACATAAAA AAGTGGATCA TCCAACACTG GGGCAACCTG 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCGGG ATGAATCACC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG TCCCTGGCAG TCCTCCATGT CCACAGGTGA AGGCAGCAAG 
    GAGGCACAGA AGGTGAAGTT CCAGCTAGAG AGGGACCCGT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GATATGAAAA GCTTCCCACG GAAGGTTCTG 
    GGGGTGACTT CTGAGGAGTT GGAAAGGAAC TTGAGGAAGC CCTTGAGGAG TGACTCGGGA 
    AGTGATTTAT TAAGATGCAC AGAGAGGACT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGGAACT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGTGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTCT TCCCGTGTCC AACACCCATG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTGGGAAAGC CTGTGTGAAC ACAGCCCAGG TGCTTTCCTT CCTCGAGCCG 
    TGTACTCAGC AGGGGTTGGG AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTAAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTACAC AGCTTGCTGG TCCCTCCTCA GCCACCTGTG AATCTGGGGC TGGCTCAGAA 
    GTTGAGGTGG ACATGTTCCT TAGAAAGCCA CCAATGGCAA GTCTGAGAAA GCAGGTGCTG 
    ACCAAAGCAT CTGATCACAT GCCAGAGAGT CTTCTGGCCT CCTCACCTGC ATGGAAGCAG 
    TTCCAGAGGG CACCGCGAGG AATCCCATCT TGGAATGATC ATGAACCCTT GAAGCCTCCT 
    CCAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CGTACAGCCT CACAGGCAGC 
    ATCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA 
    GTGCCACAAT GCAGAGTCCC CTTGGAAACC TGTATGCTGG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC ATGGTTTCGA GGCTCCAGGG ACCAGCAAAA GCTCTCTACA CCCTAGAGTG 
    TCTGTCTCCC AAGATCCAAG AAAGCTGTGT CTTATGGAGG AGGTTGTTAA TGAATTTGAG 
    CCTGGAATGG CCACAAAGTC AGAGACCCAG CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAC GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAT GCCTACTGGG AACATGCGGG CTTCCCAGGA GCTACATGAC 
    CTCATGGCAG CCAGAAGGAG CAAACTGGTG CACGAGGAGC CCAGAAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG GCCAATGTTT CCCCCTATTC ACAAGAGTGA GAAGTCTAGG 
    AAACCCAACT TAGAAAAACA TGAAGAAAGG CTTGAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGTCAGGA AAACAGAAGA CACCCATCAG GATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAGTAAG CCCCTTTGGA GAAAACATCA AGCAAATTTT TCAGTGGATT 
    TTTTCAAAGA AAAAAAGCAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAC GTGTGTACAG CAGCAGTGCT GAAGCTCAGG GTCTCATGAC GGCAGTTGGA 
    CAAATGCTGG ACGAGAAAAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CACAAACAGA AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG GCACCTCTTC 
    TACTCAGAAC ACGGCAGAAT ACTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AGCCAGGGTT GTCCCAACAG AGACAGACAA ATCAGAAATC AACAGCCCTT GAAAAGTGTG 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAA TCTTGCACCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACTGG CCGAAGACAT CCGGTGCCTC TAGCCACCAT 
    CACCACTGTC CAAGGCACTG TCTTCTTTGG GAAGGTATCT GA

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

    RefSeq XP_011543973.1
    CDS23..4144
    Translation

    Target ORF information:

    RefSeq Version XM_011545671.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A member 5 (SPATA31A5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011545671.3

    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
    ATGCCCAGAG CTCAGTTGCT TGAAAGCAAC GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTTTAAAAT TACTTAGTGC CTCATCGCTA AACGCCCCCA GTTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACTTTGGT GTTTGCCCTG GGGTTCTTCT TCCTATTACT CCCCTACTTA 
    TCTTACTTCC GTTGTGATGA CCCACCCTCA CCATCGCCTG GGAAGAGAAA GCGTCATCTT 
    GTCTCCGTAC GTCATCGTGT CTCCCAGTGT CCAGTAGGGC GGAGGCGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTGGT AGAGAGTGCC GGAGAGGCCT GGAGGAGACT 
    TCGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGACAA AGGTGACTTT 
    GGTCAGCTCT CCGGTCCAGA CCCCCCAGGT GAGGTGGGCG AAAGAGCACC TGATGGAGCC 
    TCCCAGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTCTCTCCCC GTTAGCTTCC 
    CCGGATCCTC AAGCCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCATCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCCCCTAGAA 
    CACCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC TGCCTCCTCC AAAAGGCTTC ACTGCTCCTC CCCTGCGGGA CTCCACACTG 
    ATAACTCCAT CTCACTGTGA CTCAGTGGCA TTTCCACTGG GCACCGTCCC TCAAAGCTTG 
    TCTCCACATG AGGATTTGGT GGCTTCTGTC CCAGCCATCT CAGGCCTTGG TGGCTCAAAC 
    AGTCATGTTT CTGCCTCCTC CCGGTGGCAG GAGACTGCCA GAACCTCGTG CGCCTTTAAC 
    TCATCAGTCC AGCAAGATCA TCTTTCCCGC CACCCACCAG AGACCTGTCA GATGGAAGCT 
    GGTAGCCTGT TTTTGCTCAG CTCTGATGGC CAGAATGTCG TGGGGATACA AGTCACAGAA 
    ACAGCCAAGG TCAACATTTG GGAAGAAAAA GAAAATGTTG GATCATTTAC AAATCGAATG 
    ACCCCAGAAA AGCACTTAAA TTCTTTGCGG AATTTGGCTA AATCATTGGA TGCTGAGCAG 
    GACACCACAA ACCCAAAACC CTTCTGGAAC ATGGGAGAGA ACTCGAAACA GCTGCCCGGA 
    CCTCAGAAGC TCTCAGATCC TAGGCTCTGG CAGGAAAGTT TTTGGAAGAA TTATAGCCAG 
    CTTTTCTGGG GCCTCCCCTC TCTGCACAGC GAGTCCCTGG TGGCTAACGC CTGGGTAACT 
    GACAGGTCTT ATACTTTACA GTCTCCTCCT TTCTTGTTCA ATGAAATGTC CAATGTCTGC 
    CCAATTCAAA GGGAGACTAC AATGTCCCCA CTGCTTTTCC AGGCCCAGCC CCTGTCCCAT 
    CTGGGGCCCG AGTGCCAACC CTTTATTTCA TCCACACCCC AATTCCGGCC CACACCTATG 
    GCTCAGGCCG AGGCTCAGGC CCATCTTCAA TCTTCTTTCC CAGTCCTATC TCCTGCTTTT 
    CCATCCCTGA TTCAGAACAC TGGAGTAGCT TGCCCTGCAT CGCAGAATAA AGTGCAAGCT 
    CTCTCCCTAC CTGAAACTCA GCACCCTGAA TGGCCTTTGT TGAGGAGACA ACTAGAAGGT 
    AGGTTGGCTT TACCCTCTAG GGTCCAAAAA TCTCAGGACG TCTTTAGTGT CTCCACTCCT 
    AACCTTCCCC AGGAAAGTTT GACATCCATT CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA 
    CTCCGGAGAC AACTGGAGCA ACACATAAAA AAGTGGATCA TCCAACACTG GGGCAACCTG 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCGGG ATGAATCACC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG TCCCTGGCAG TCCTCCATGT CCACAGGTGA AGGCAGCAAG 
    GAGGCACAGA AGGTGAAGTT CCAGCTAGAG AGGGACCCGT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GATATGAAAA GCTTCCCACG GAAGGTTCTG 
    GGGGTGACTT CTGAGGAGTT GGAAAGGAAC TTGAGGAAGC CCTTGAGGAG TGACTCGGGA 
    AGTGATTTAT TAAGATGCAC AGAGAGGACT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGGAACT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGTGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTCT TCCCGTGTCC AACACCCATG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTGGGAAAGC CTGTGTGAAC ACAGCCCAGG TGCTTTCCTT CCTCGAGCCG 
    TGTACTCAGC AGGGGTTGGG AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTAAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTACAC AGCTTGCTGG TCCCTCCTCA GCCACCTGTG AATCTGGGGC TGGCTCAGAA 
    GTTGAGGTGG ACATGTTCCT TAGAAAGCCA CCAATGGCAA GTCTGAGAAA GCAGGTGCTG 
    ACCAAAGCAT CTGATCACAT GCCAGAGAGT CTTCTGGCCT CCTCACCTGC ATGGAAGCAG 
    TTCCAGAGGG CACCGCGAGG AATCCCATCT TGGAATGATC ATGAACCCTT GAAGCCTCCT 
    CCAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CGTACAGCCT CACAGGCAGC 
    ATCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA 
    GTGCCACAAT GCAGAGTCCC CTTGGAAACC TGTATGCTGG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC ATGGTTTCGA GGCTCCAGGG ACCAGCAAAA GCTCTCTACA CCCTAGAGTG 
    TCTGTCTCCC AAGATCCAAG AAAGCTGTGT CTTATGGAGG AGGTTGTTAA TGAATTTGAG 
    CCTGGAATGG CCACAAAGTC AGAGACCCAG CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAC GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAT GCCTACTGGG AACATGCGGG CTTCCCAGGA GCTACATGAC 
    CTCATGGCAG CCAGAAGGAG CAAACTGGTG CACGAGGAGC CCAGAAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG GCCAATGTTT CCCCCTATTC ACAAGAGTGA GAAGTCTAGG 
    AAACCCAACT TAGAAAAACA TGAAGAAAGG CTTGAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGTCAGGA AAACAGAAGA CACCCATCAG GATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAGTAAG CCCCTTTGGA GAAAACATCA AGCAAATTTT TCAGTGGATT 
    TTTTCAAAGA AAAAAAGCAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAC GTGTGTACAG CAGCAGTGCT GAAGCTCAGG GTCTCATGAC GGCAGTTGGA 
    CAAATGCTGG ACGAGAAAAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CACAAACAGA AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG GCACCTCTTC 
    TACTCAGAAC ACGGCAGAAT ACTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AGCCAGGGTT GTCCCAACAG AGACAGACAA ATCAGAAATC AACAGCCCTT GAAAAGTGTG 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAA TCTTGCACCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACTGG CCGAAGACAT CCGGTGCCTC TAGCCACCAT 
    CACCACTGTC CAAGGCACTG TCTTCTTTGG GAAGGTATCT GA

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

    SPATA31A5 ( XM_011545671.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011543973.1 Homo sapiens SPATA31 subfamily A, member 5 (SPATA31A5), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80717
    Clone ID Related Accession (Same CDS sequence) XM_011545671.3 , XM_011545671.2
    Accession Version XM_011545671.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4122bp)
    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 31A5 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 Jun 6, 2016 this sequence version replaced XM_011545671.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGCCCAGAG CTCAGTTGCT TGAAAGCAAC GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTTTAAAAT TACTTAGTGC CTCATCGCTA AACGCCCCCA GTTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACTTTGGT GTTTGCCCTG GGGTTCTTCT TCCTATTACT CCCCTACTTA 
    TCTTACTTCC GTTGTGATGA CCCACCCTCA CCATCGCCTG GGAAGAGAAA GCGTCATCTT 
    GTCTCCGTAC GTCATCGTGT CTCCCAGTGT CCAGTAGGGC GGAGGCGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTGGT AGAGAGTGCC GGAGAGGCCT GGAGGAGACT 
    TCGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGACAA AGGTGACTTT 
    GGTCAGCTCT CCGGTCCAGA CCCCCCAGGT GAGGTGGGCG AAAGAGCACC TGATGGAGCC 
    TCCCAGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTCTCTCCCC GTTAGCTTCC 
    CCGGATCCTC AAGCCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCATCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCCCCTAGAA 
    CACCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC TGCCTCCTCC AAAAGGCTTC ACTGCTCCTC CCCTGCGGGA CTCCACACTG 
    ATAACTCCAT CTCACTGTGA CTCAGTGGCA TTTCCACTGG GCACCGTCCC TCAAAGCTTG 
    TCTCCACATG AGGATTTGGT GGCTTCTGTC CCAGCCATCT CAGGCCTTGG TGGCTCAAAC 
    AGTCATGTTT CTGCCTCCTC CCGGTGGCAG GAGACTGCCA GAACCTCGTG CGCCTTTAAC 
    TCATCAGTCC AGCAAGATCA TCTTTCCCGC CACCCACCAG AGACCTGTCA GATGGAAGCT 
    GGTAGCCTGT TTTTGCTCAG CTCTGATGGC CAGAATGTCG TGGGGATACA AGTCACAGAA 
    ACAGCCAAGG TCAACATTTG GGAAGAAAAA GAAAATGTTG GATCATTTAC AAATCGAATG 
    ACCCCAGAAA AGCACTTAAA TTCTTTGCGG AATTTGGCTA AATCATTGGA TGCTGAGCAG 
    GACACCACAA ACCCAAAACC CTTCTGGAAC ATGGGAGAGA ACTCGAAACA GCTGCCCGGA 
    CCTCAGAAGC TCTCAGATCC TAGGCTCTGG CAGGAAAGTT TTTGGAAGAA TTATAGCCAG 
    CTTTTCTGGG GCCTCCCCTC TCTGCACAGC GAGTCCCTGG TGGCTAACGC CTGGGTAACT 
    GACAGGTCTT ATACTTTACA GTCTCCTCCT TTCTTGTTCA ATGAAATGTC CAATGTCTGC 
    CCAATTCAAA GGGAGACTAC AATGTCCCCA CTGCTTTTCC AGGCCCAGCC CCTGTCCCAT 
    CTGGGGCCCG AGTGCCAACC CTTTATTTCA TCCACACCCC AATTCCGGCC CACACCTATG 
    GCTCAGGCCG AGGCTCAGGC CCATCTTCAA TCTTCTTTCC CAGTCCTATC TCCTGCTTTT 
    CCATCCCTGA TTCAGAACAC TGGAGTAGCT TGCCCTGCAT CGCAGAATAA AGTGCAAGCT 
    CTCTCCCTAC CTGAAACTCA GCACCCTGAA TGGCCTTTGT TGAGGAGACA ACTAGAAGGT 
    AGGTTGGCTT TACCCTCTAG GGTCCAAAAA TCTCAGGACG TCTTTAGTGT CTCCACTCCT 
    AACCTTCCCC AGGAAAGTTT GACATCCATT CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA 
    CTCCGGAGAC AACTGGAGCA ACACATAAAA AAGTGGATCA TCCAACACTG GGGCAACCTG 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCGGG ATGAATCACC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG TCCCTGGCAG TCCTCCATGT CCACAGGTGA AGGCAGCAAG 
    GAGGCACAGA AGGTGAAGTT CCAGCTAGAG AGGGACCCGT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GATATGAAAA GCTTCCCACG GAAGGTTCTG 
    GGGGTGACTT CTGAGGAGTT GGAAAGGAAC TTGAGGAAGC CCTTGAGGAG TGACTCGGGA 
    AGTGATTTAT TAAGATGCAC AGAGAGGACT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGGAACT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGTGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTCT TCCCGTGTCC AACACCCATG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTGGGAAAGC CTGTGTGAAC ACAGCCCAGG TGCTTTCCTT CCTCGAGCCG 
    TGTACTCAGC AGGGGTTGGG AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTAAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTACAC AGCTTGCTGG TCCCTCCTCA GCCACCTGTG AATCTGGGGC TGGCTCAGAA 
    GTTGAGGTGG ACATGTTCCT TAGAAAGCCA CCAATGGCAA GTCTGAGAAA GCAGGTGCTG 
    ACCAAAGCAT CTGATCACAT GCCAGAGAGT CTTCTGGCCT CCTCACCTGC ATGGAAGCAG 
    TTCCAGAGGG CACCGCGAGG AATCCCATCT TGGAATGATC ATGAACCCTT GAAGCCTCCT 
    CCAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CGTACAGCCT CACAGGCAGC 
    ATCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA 
    GTGCCACAAT GCAGAGTCCC CTTGGAAACC TGTATGCTGG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC ATGGTTTCGA GGCTCCAGGG ACCAGCAAAA GCTCTCTACA CCCTAGAGTG 
    TCTGTCTCCC AAGATCCAAG AAAGCTGTGT CTTATGGAGG AGGTTGTTAA TGAATTTGAG 
    CCTGGAATGG CCACAAAGTC AGAGACCCAG CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAC GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAT GCCTACTGGG AACATGCGGG CTTCCCAGGA GCTACATGAC 
    CTCATGGCAG CCAGAAGGAG CAAACTGGTG CACGAGGAGC CCAGAAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG GCCAATGTTT CCCCCTATTC ACAAGAGTGA GAAGTCTAGG 
    AAACCCAACT TAGAAAAACA TGAAGAAAGG CTTGAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGTCAGGA AAACAGAAGA CACCCATCAG GATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAGTAAG CCCCTTTGGA GAAAACATCA AGCAAATTTT TCAGTGGATT 
    TTTTCAAAGA AAAAAAGCAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAC GTGTGTACAG CAGCAGTGCT GAAGCTCAGG GTCTCATGAC GGCAGTTGGA 
    CAAATGCTGG ACGAGAAAAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CACAAACAGA AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG GCACCTCTTC 
    TACTCAGAAC ACGGCAGAAT ACTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AGCCAGGGTT GTCCCAACAG AGACAGACAA ATCAGAAATC AACAGCCCTT GAAAAGTGTG 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAA TCTTGCACCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACTGG CCGAAGACAT CCGGTGCCTC TAGCCACCAT 
    CACCACTGTC CAAGGCACTG TCTTCTTTGG GAAGGTATCT GA

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

    RefSeq XP_011543973.1
    CDS23..4144
    Translation

    Target ORF information:

    RefSeq Version XM_011545671.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A, member 5 (SPATA31A5), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011545671.2

    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
    ATGCCCAGAG CTCAGTTGCT TGAAAGCAAC GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTTTAAAAT TACTTAGTGC CTCATCGCTA AACGCCCCCA GTTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACTTTGGT GTTTGCCCTG GGGTTCTTCT TCCTATTACT CCCCTACTTA 
    TCTTACTTCC GTTGTGATGA CCCACCCTCA CCATCGCCTG GGAAGAGAAA GCGTCATCTT 
    GTCTCCGTAC GTCATCGTGT CTCCCAGTGT CCAGTAGGGC GGAGGCGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTGGT AGAGAGTGCC GGAGAGGCCT GGAGGAGACT 
    TCGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGACAA AGGTGACTTT 
    GGTCAGCTCT CCGGTCCAGA CCCCCCAGGT GAGGTGGGCG AAAGAGCACC TGATGGAGCC 
    TCCCAGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTCTCTCCCC GTTAGCTTCC 
    CCGGATCCTC AAGCCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCATCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCCCCTAGAA 
    CACCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC TGCCTCCTCC AAAAGGCTTC ACTGCTCCTC CCCTGCGGGA CTCCACACTG 
    ATAACTCCAT CTCACTGTGA CTCAGTGGCA TTTCCACTGG GCACCGTCCC TCAAAGCTTG 
    TCTCCACATG AGGATTTGGT GGCTTCTGTC CCAGCCATCT CAGGCCTTGG TGGCTCAAAC 
    AGTCATGTTT CTGCCTCCTC CCGGTGGCAG GAGACTGCCA GAACCTCGTG CGCCTTTAAC 
    TCATCAGTCC AGCAAGATCA TCTTTCCCGC CACCCACCAG AGACCTGTCA GATGGAAGCT 
    GGTAGCCTGT TTTTGCTCAG CTCTGATGGC CAGAATGTCG TGGGGATACA AGTCACAGAA 
    ACAGCCAAGG TCAACATTTG GGAAGAAAAA GAAAATGTTG GATCATTTAC AAATCGAATG 
    ACCCCAGAAA AGCACTTAAA TTCTTTGCGG AATTTGGCTA AATCATTGGA TGCTGAGCAG 
    GACACCACAA ACCCAAAACC CTTCTGGAAC ATGGGAGAGA ACTCGAAACA GCTGCCCGGA 
    CCTCAGAAGC TCTCAGATCC TAGGCTCTGG CAGGAAAGTT TTTGGAAGAA TTATAGCCAG 
    CTTTTCTGGG GCCTCCCCTC TCTGCACAGC GAGTCCCTGG TGGCTAACGC CTGGGTAACT 
    GACAGGTCTT ATACTTTACA GTCTCCTCCT TTCTTGTTCA ATGAAATGTC CAATGTCTGC 
    CCAATTCAAA GGGAGACTAC AATGTCCCCA CTGCTTTTCC AGGCCCAGCC CCTGTCCCAT 
    CTGGGGCCCG AGTGCCAACC CTTTATTTCA TCCACACCCC AATTCCGGCC CACACCTATG 
    GCTCAGGCCG AGGCTCAGGC CCATCTTCAA TCTTCTTTCC CAGTCCTATC TCCTGCTTTT 
    CCATCCCTGA TTCAGAACAC TGGAGTAGCT TGCCCTGCAT CGCAGAATAA AGTGCAAGCT 
    CTCTCCCTAC CTGAAACTCA GCACCCTGAA TGGCCTTTGT TGAGGAGACA ACTAGAAGGT 
    AGGTTGGCTT TACCCTCTAG GGTCCAAAAA TCTCAGGACG TCTTTAGTGT CTCCACTCCT 
    AACCTTCCCC AGGAAAGTTT GACATCCATT CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA 
    CTCCGGAGAC AACTGGAGCA ACACATAAAA AAGTGGATCA TCCAACACTG GGGCAACCTG 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCGGG ATGAATCACC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG TCCCTGGCAG TCCTCCATGT CCACAGGTGA AGGCAGCAAG 
    GAGGCACAGA AGGTGAAGTT CCAGCTAGAG AGGGACCCGT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GATATGAAAA GCTTCCCACG GAAGGTTCTG 
    GGGGTGACTT CTGAGGAGTT GGAAAGGAAC TTGAGGAAGC CCTTGAGGAG TGACTCGGGA 
    AGTGATTTAT TAAGATGCAC AGAGAGGACT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGGAACT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGTGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTCT TCCCGTGTCC AACACCCATG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTGGGAAAGC CTGTGTGAAC ACAGCCCAGG TGCTTTCCTT CCTCGAGCCG 
    TGTACTCAGC AGGGGTTGGG AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTAAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTACAC AGCTTGCTGG TCCCTCCTCA GCCACCTGTG AATCTGGGGC TGGCTCAGAA 
    GTTGAGGTGG ACATGTTCCT TAGAAAGCCA CCAATGGCAA GTCTGAGAAA GCAGGTGCTG 
    ACCAAAGCAT CTGATCACAT GCCAGAGAGT CTTCTGGCCT CCTCACCTGC ATGGAAGCAG 
    TTCCAGAGGG CACCGCGAGG AATCCCATCT TGGAATGATC ATGAACCCTT GAAGCCTCCT 
    CCAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CGTACAGCCT CACAGGCAGC 
    ATCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA 
    GTGCCACAAT GCAGAGTCCC CTTGGAAACC TGTATGCTGG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC ATGGTTTCGA GGCTCCAGGG ACCAGCAAAA GCTCTCTACA CCCTAGAGTG 
    TCTGTCTCCC AAGATCCAAG AAAGCTGTGT CTTATGGAGG AGGTTGTTAA TGAATTTGAG 
    CCTGGAATGG CCACAAAGTC AGAGACCCAG CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAC GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAT GCCTACTGGG AACATGCGGG CTTCCCAGGA GCTACATGAC 
    CTCATGGCAG CCAGAAGGAG CAAACTGGTG CACGAGGAGC CCAGAAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG GCCAATGTTT CCCCCTATTC ACAAGAGTGA GAAGTCTAGG 
    AAACCCAACT TAGAAAAACA TGAAGAAAGG CTTGAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGTCAGGA AAACAGAAGA CACCCATCAG GATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAGTAAG CCCCTTTGGA GAAAACATCA AGCAAATTTT TCAGTGGATT 
    TTTTCAAAGA AAAAAAGCAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAC GTGTGTACAG CAGCAGTGCT GAAGCTCAGG GTCTCATGAC GGCAGTTGGA 
    CAAATGCTGG ACGAGAAAAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CACAAACAGA AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG GCACCTCTTC 
    TACTCAGAAC ACGGCAGAAT ACTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AGCCAGGGTT GTCCCAACAG AGACAGACAA ATCAGAAATC AACAGCCCTT GAAAAGTGTG 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAA TCTTGCACCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACTGG CCGAAGACAT CCGGTGCCTC TAGCCACCAT 
    CACCACTGTC CAAGGCACTG TCTTCTTTGG GAAGGTATCT GA

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

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