ORF » Species Summary » Homo sapiens » SPATA31A6 cDNA ORF clone

SPATA31A6 cDNA ORF clone, Homo sapiens(human)

The following SPATA31A6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SPATA31A6 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
OHu31556 NM_001145196.1
Latest version!		 Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$519.50-$727.30
$1039.00
OHu80019 XM_011517871.3
Latest version!		 Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu80019 XM_011517871.2 Homo sapiens SPATA31 subfamily A, member 6 (SPATA31A6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
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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)
    SPATA31A6 ( NM_001145196.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001138668.1 Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), mRNA.
    Price & Availability↑
    CloneID OHu31556
    Clone ID Related Accession (Same CDS sequence) NM_001145196.1
    Accession Version NM_001145196.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4032bp)
    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 2019-10-20
    Organism Homo sapiens(human)
    Product spermatogenesis-associated protein 31A6
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL445584.16. On or before Feb 15, 2009 this sequence version replaced XR_041505.1, XR_041506.1, XR_041507.1, XR_041504.1. 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, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000332857.7/ ENSP00000329825.6 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 CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCCGAGAGGC CTGGAGGAGA CTTCGGACCT TCTTTCACAA 
    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 TCCGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CACTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CCTCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCAAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGG GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GTGCTCAGAT 
    CCTAGGCTCT TGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ACCGCCAACC CTTTATTTCA 
    TCCACACCCC AATTCCTGCC CACACCTATG GCTCAGGCCG AGGCTCAGGC CCATCTTCAG 
    TCTTCTTTCC CAGTCCTATC TCCTGCTTTT CCATCCCTGA TTAAGAACAC TGGAGTAGCT 
    TGCCCTGCAT CGCAGAATAA AGTGCAAGCT CTCTCCCTAC CTGAAACTCA GCACCCTGAA 
    TGGCCTTTGT TGAGGAAACA ACTAGAAGGT AGGTTGGCTT TACCCTCTAG GGTCCAAAAA 
    TCTCAGGACG TCTTTAGTGT CTCCACTCCT AACCTTCCCC AGGAAAGTTT GACATCCATT 
    CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA CTCCGGAGAC AACTGGAGCA ACACATAAAA 
    AAGTGGATCA TCCAACACTG GGGCAACCTG GGAAGGATCC AAGAGTCTCT GGATCTGATG 
    CAGCTTCGGG ACGAATCACC AGGGACAAGT CAGGCCAAGG GCAAACCCAG TCCCTGGCAG 
    TCCTCCACGT CCACAGGTGA AAGCAGCAAG GAGGCACAGA AGGTGAAGTT CCAGCTAGAG 
    AGGGACCTGT GCCCACATCT GGGGCAAATT CTGGGTGAGA CCCCACAAAA TCTATCCAGG 
    GACATGAAAA GCTTCCCACG GAAGGTTCTG GGGGTGACTT CTGAGGAGTC GGAAAGGAAC 
    TTGAGGAAGC CCTTGAGGAG TGACTCGGGA AGTGATTTAT TAAGATGCAC AGAGAGGACT 
    CATATAGAAA ACATCCTGAA AGCCCACATG GGCAGGAACT TGGGCCAGAC CAACGAGGGC 
    TTGATCCCCG TGCGTGTGCG 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 TCCCTTACGC AGCTTGCTGG TCCCTCCTCA 
    GCCACCTGTG AATCTGGGGC TGGCTCAGAA GTTGAGGTGG ACATGTTCCT TAGAAAGCCA 
    CCAATGGCAA GTCTGAGAAA GCAGGTGCTG ACCAAAGCAT CTGATCACAT GCCAGAGAGT 
    CTTCTGGCCT CCTCACCTGC ATGGAAGCAG TTCCAGAGGG CACCGCGAGG AATCCCATCT 
    TGGAATGATC ATGGGCCCTT GAAGCCTCCT CCAGCTGGAC AGGAGGGCAG GTGGCCATCT 
    AAGCCCCTCA CGTACAGCCT CACAGGCAGC ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA 
    TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA GTGCCACAAT GCAGAGTCCC CTTGGAAACC 
    TGTATGCTGG CAAACCTCCA AGCCACAAGT GAGGATGTGC ATGGTTTCGA GGCTCCAGGG 
    ACCAGCAAAA GCTCTCTACA CCCTAGAGTG TCTGTCTCCC AAGATCCAAG AAAGCTGTGT 
    CTTATGGAGG AGGTTGTTAG TGAATTTGAG CCTGGAATGG CCACAAAGTC AGAGACCCAG 
    CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT CCAGATGGGC AAGCATCTGT TGTGCCCCAC 
    GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC CAGGGCCATC TCCAGAGCAT GCCTACTGGG 
    AACATGCGGG CTTCCCAGGA GCTACATGAC CTCATGGCAG CCAGAAGGAG CAAACTGGTG 
    CAAGAGGAGC CCAGAAACCC AAACTGTCAA GGCTCATGCA AGAGCCAAAG GCCAATGTTT 
    CCCCCTATTC ACAAGAGTGA GAAGTCTAGG AAGCCCAACT TAGAAAAACA TGAAGAAAGG 
    CTTGAAGGAT TGAGGACTCC TCAACTTACC CCAGTCAGGA AAACAGAAGA CACCCATCAG 
    GATGAAGGCG TCCAGCTACT GCCATCAAAG AAACAGCCTC CTTCAGTAAG CCACTTTGGA 
    GAAAACATCA AGCAATTTTT TCAGTGGATT TTTTCAAAGA AAAAAAGCAA GCCAGCACCA 
    GTCACTGCTG AGAGCCAAAA AACAGTAAAA AACAGATCAT GTGTGTACAG CAGCAGTGCT 
    GAAGCTCAGG GTCTCATGAC GGCAGTTGGA CAAATGCTGG ACAAGAAAAT GTCACTTTGC 
    CATGCGCACC ATGCCTCGAA GGTAAATCAG CACAAACAGA AGTTTCAAGC CCCAGTCTGT 
    GGGTTTCCCT GCAACCACAG GCACCTCTTC TACTCAGAAC ATGGCAGAAT ACTGAGCTAT 
    GCAGCCAGCA GTCAACAAGC CACTCTCAAG AGCCAGGGTT GTCCCAACAG AGACAGGCAA 
    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 NP_001138668.1
    CDS30..4061
    Translation

    Target ORF information:

    RefSeq Version NM_001145196.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001145196.1

    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 CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGT GTCCAGTAGG GCGGAGGCGG AGGCCCAGAG GCAGGATGAA AAACCACAGT 
    CTGAGAGCTG GTAGAGAGTG CCCGAGAGGC CTGGAGGAGA CTTCGGACCT TCTTTCACAA 
    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 TCCGCCTCCT 
    CCAAAAGGCT TCACTGCTCC TCCCCTGCGG GACTCCACAC TGATAACTCC ATCTCACTGT 
    GACTCAGTGG CACTTCCACT GGGCACCGTC CCTCAAAGCT TGTCTCCACA TGAGGATTTG 
    GTGGCTTCTG TCCCAGCCAT CTCAGGCCTT GGTGGCTCAA ACAGTCATGT TTCTGCCTCC 
    TCCCGGTGGC AGGAGACTGC CAGAACCTCG TGCGCCTTTA ACTCATCAGT CCAGCAAGAT 
    CCTCTTTCCC GCCACCCACC AGAGACCTGT CAGATGGAAG CTGGTAGCCT GTTTTTGCTC 
    AGCTCTGATG GCCAGAATGT CGTGGGGATA CAAGTCACAG AAACAGCCAA GGTCAACATT 
    TGGGAAGAAA AAGAAAATGT TGGATCATTT ACAAATCAAA TGACCCCAGA AAAGCACTTA 
    AATTCTTTGG GGAATTTGGC TAAATCATTG GATGCTGAGC AGGACACCAC AAACCCAAAA 
    CCCTTCTGGA ACATGGGAGA GAACTCGAAA CAGCTGCCCG GACCTCAGAA GTGCTCAGAT 
    CCTAGGCTCT TGCAGGAAAG TTTTTGGAAG AATTATAGCC AGCTTTTCTG GGGCCTCCCC 
    TCTCTGCACA GCGAGTCCCT GGTGGCTAAC GCCTGGGTAA CTGACAGGTC TTATACTTTA 
    CAGTCTCCTC CTTTCTTGTT CAATGAAATG TCCAATGTCT GCCCAATTCA AAGGGAGACT 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ACCGCCAACC CTTTATTTCA 
    TCCACACCCC AATTCCTGCC CACACCTATG GCTCAGGCCG AGGCTCAGGC CCATCTTCAG 
    TCTTCTTTCC CAGTCCTATC TCCTGCTTTT CCATCCCTGA TTAAGAACAC TGGAGTAGCT 
    TGCCCTGCAT CGCAGAATAA AGTGCAAGCT CTCTCCCTAC CTGAAACTCA GCACCCTGAA 
    TGGCCTTTGT TGAGGAAACA ACTAGAAGGT AGGTTGGCTT TACCCTCTAG GGTCCAAAAA 
    TCTCAGGACG TCTTTAGTGT CTCCACTCCT AACCTTCCCC AGGAAAGTTT GACATCCATT 
    CTGCCTGAGA ACTTTCCAGT CAGTCCTGAA CTCCGGAGAC AACTGGAGCA ACACATAAAA 
    AAGTGGATCA TCCAACACTG GGGCAACCTG GGAAGGATCC AAGAGTCTCT GGATCTGATG 
    CAGCTTCGGG ACGAATCACC AGGGACAAGT CAGGCCAAGG GCAAACCCAG TCCCTGGCAG 
    TCCTCCACGT CCACAGGTGA AAGCAGCAAG GAGGCACAGA AGGTGAAGTT CCAGCTAGAG 
    AGGGACCTGT GCCCACATCT GGGGCAAATT CTGGGTGAGA CCCCACAAAA TCTATCCAGG 
    GACATGAAAA GCTTCCCACG GAAGGTTCTG GGGGTGACTT CTGAGGAGTC GGAAAGGAAC 
    TTGAGGAAGC CCTTGAGGAG TGACTCGGGA AGTGATTTAT TAAGATGCAC AGAGAGGACT 
    CATATAGAAA ACATCCTGAA AGCCCACATG GGCAGGAACT TGGGCCAGAC CAACGAGGGC 
    TTGATCCCCG TGCGTGTGCG 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 TCCCTTACGC AGCTTGCTGG TCCCTCCTCA 
    GCCACCTGTG AATCTGGGGC TGGCTCAGAA GTTGAGGTGG ACATGTTCCT TAGAAAGCCA 
    CCAATGGCAA GTCTGAGAAA GCAGGTGCTG ACCAAAGCAT CTGATCACAT GCCAGAGAGT 
    CTTCTGGCCT CCTCACCTGC ATGGAAGCAG TTCCAGAGGG CACCGCGAGG AATCCCATCT 
    TGGAATGATC ATGGGCCCTT GAAGCCTCCT CCAGCTGGAC AGGAGGGCAG GTGGCCATCT 
    AAGCCCCTCA CGTACAGCCT CACAGGCAGC ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA 
    TCTTCAAAGG CTGGAGAGAC AAGGGAGGCA GTGCCACAAT GCAGAGTCCC CTTGGAAACC 
    TGTATGCTGG CAAACCTCCA AGCCACAAGT GAGGATGTGC ATGGTTTCGA GGCTCCAGGG 
    ACCAGCAAAA GCTCTCTACA CCCTAGAGTG TCTGTCTCCC AAGATCCAAG AAAGCTGTGT 
    CTTATGGAGG AGGTTGTTAG TGAATTTGAG CCTGGAATGG CCACAAAGTC AGAGACCCAG 
    CCTCAAGTTT GTGCCGCTGT TGTGCTCCTT CCAGATGGGC AAGCATCTGT TGTGCCCCAC 
    GCTTCAGAGA ATTTGGTTTC TCAAGTGCCC CAGGGCCATC TCCAGAGCAT GCCTACTGGG 
    AACATGCGGG CTTCCCAGGA GCTACATGAC CTCATGGCAG CCAGAAGGAG CAAACTGGTG 
    CAAGAGGAGC CCAGAAACCC AAACTGTCAA GGCTCATGCA AGAGCCAAAG GCCAATGTTT 
    CCCCCTATTC ACAAGAGTGA GAAGTCTAGG AAGCCCAACT TAGAAAAACA TGAAGAAAGG 
    CTTGAAGGAT TGAGGACTCC TCAACTTACC CCAGTCAGGA AAACAGAAGA CACCCATCAG 
    GATGAAGGCG TCCAGCTACT GCCATCAAAG AAACAGCCTC CTTCAGTAAG CCACTTTGGA 
    GAAAACATCA AGCAATTTTT TCAGTGGATT TTTTCAAAGA AAAAAAGCAA GCCAGCACCA 
    GTCACTGCTG AGAGCCAAAA AACAGTAAAA AACAGATCAT GTGTGTACAG CAGCAGTGCT 
    GAAGCTCAGG GTCTCATGAC GGCAGTTGGA CAAATGCTGG ACAAGAAAAT GTCACTTTGC 
    CATGCGCACC ATGCCTCGAA GGTAAATCAG CACAAACAGA AGTTTCAAGC CCCAGTCTGT 
    GGGTTTCCCT GCAACCACAG GCACCTCTTC TACTCAGAAC ATGGCAGAAT ACTGAGCTAT 
    GCAGCCAGCA GTCAACAAGC CACTCTCAAG AGCCAGGGTT GTCCCAACAG AGACAGGCAA 
    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.

    SPATA31A6 ( XM_011517871.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516173.1 Homo sapiens SPATA31 subfamily A, member 6 (SPATA31A6), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80019
    Clone ID Related Accession (Same CDS sequence) XM_011517871.2 , XM_011517871.3
    Accession Version XM_011517871.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 31A6 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_011517871.1. ##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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGC GTCATCTTGT CTCCGTACGT CATCATGTCT CCCAGTGTCC AGTAGGGCGG 
    AGGCGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTGGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTC GGACCTTCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGACAAAG GTGACTTTGG TCAGCTCTCC GGTCCAGACC CCCCAGGTGA GGTGGGCGAA 
    AGAGCACCTG ATGGAGCCTC CCAGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    CTCTCCCCGT TAGCTTCCCC GGATCCTCAA GCCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCATCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC CCCTAGAACA CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCG CCTCCTCCAA AAGGCTTCAC TGCTCCTCCC 
    CTGCGGGACT CCACACTGAT AACTCCATCT CACTGTGACT CAGTGGCACT TCCACTGGGC 
    ACCGTCCCTC AAAGCTTGTC TCCACATGAG GATTTGGTGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGTG GCTCAAACAG TCATGTTTCT GCCTCCTCCC GGTGGCAGGA GACTGCCAGA 
    ACCTCGTGCG CCTTTAACTC ATCAGTCCAG CAAGATCCTC TTTCCCGCCA CCCACCAGAG 
    ACCTGTCAGA TGGAAGCTGG TAGCCTGTTT TTGCTCAGCT CTGATGGCCA GAATGTCGTG 
    GGGATACAAG TCACAGAAAC AGCCAAGGTC AACATTTGGG AAGAAAAAGA AAATGTTGGA 
    TCATTTACAA ATCAAATGAC CCCAGAAAAG CACTTAAATT CTTTGGGGAA TTTGGCTAAA 
    TCATTGGATG CTGAGCAGGA CACCACAAAC CCAAAACCCT TCTGGAACAT GGGAGAGAAC 
    TCGAAACAGC TGCCCGGACC TCAGAAGTGC TCAGATCCTA GGCTCTTGCA GGAAAGTTTT 
    TGGAAGAATT ATAGCCAGCT TTTCTGGGGC CTCCCCTCTC TGCACAGCGA GTCCCTGGTG 
    GCTAACGCCT GGGTAACTGA CAGGTCTTAT ACTTTACAGT CTCCTCCTTT CTTGTTCAAT 
    GAAATGTCCA ATGTCTGCCC AATTCAAAGG GAGACTACAA TGTCCCCACT GCTTTTCCAG 
    GCCCAGCCCC TGTCCCACCG CCAACCCTTT ATTTCATCCA CACCCCAATT CCTGCCCACA 
    CCTATGGCTC AGGCCGAGGC TCAGGCCCAT CTTCAGTCTT CTTTCCCAGT CCTATCTCCT 
    GCTTTTCCAT CCCTGATTAA GAACACTGGA GTAGCTTGCC CTGCATCGCA GAATAAAGTG 
    CAAGCTCTCT CCCTACCTGA AACTCAGCAC CCTGAATGGC CTTTGTTGAG GAAACAACTA 
    GAAGGTAGGT TGGCTTTACC CTCTAGGGTC CAAAAATCTC AGGACGTCTT TAGTGTCTCC 
    ACTCCTAACC TTCCCCAGGA AAGTTTGACA TCCATTCTGC CTGAGAACTT TCCAGTCAGT 
    CCTGAACTCC GGAGACAACT GGAGCAACAC ATAAAAAAGT GGATCATCCA ACACTGGGGC 
    AACCTGGGAA GGATCCAAGA GTCTCTGGAT CTGATGCAGC TTCGGGACGA ATCACCAGGG 
    ACAAGTCAGG CCAAGGGCAA ACCCAGTCCC TGGCAGTCCT CCACGTCCAC AGGTGAAAGC 
    AGCAAGGAGG CACAGAAGGT GAAGTTCCAG CTAGAGAGGG ACCTGTGCCC ACATCTGGGG 
    CAAATTCTGG GTGAGACCCC ACAAAATCTA TCCAGGGACA TGAAAAGCTT CCCACGGAAG 
    GTTCTGGGGG TGACTTCTGA GGAGTCGGAA AGGAACTTGA GGAAGCCCTT GAGGAGTGAC 
    TCGGGAAGTG ATTTATTAAG ATGCACAGAG AGGACTCATA TAGAAAACAT CCTGAAAGCC 
    CACATGGGCA GGAACTTGGG CCAGACCAAC GAGGGCTTGA TCCCCGTGCG TGTGCGTCGA 
    TCCTGGCTTG CTGTCAACCA GGCTCTTCCC GTGTCCAACA CCCATGTGAA AACCAGCAAT 
    CTAGCAGCCC CGAAAAGTGG GAAAGCCTGT GTGAACACAG CCCAGGTGCT TTCCTTCCTC 
    GAGCCGTGTA CTCAGCAGGG GTTGGGAGCC CATATTGTGA GGTTTTGGGC CAAACACAGG 
    TGGGGTCTAC CCCTCAGGGT CCTCAAGCCC ATTCAGTGCT TTAAACTGGA AAAGGTTTCA 
    TCCTTGTCCC TTACGCAGCT TGCTGGTCCC TCCTCAGCCA CCTGTGAATC TGGGGCTGGC 
    TCAGAAGTTG AGGTGGACAT GTTCCTTAGA AAGCCACCAA TGGCAAGTCT GAGAAAGCAG 
    GTGCTGACCA AAGCATCTGA TCACATGCCA GAGAGTCTTC TGGCCTCCTC ACCTGCATGG 
    AAGCAGTTCC AGAGGGCACC GCGAGGAATC CCATCTTGGA ATGATCATGG GCCCTTGAAG 
    CCTCCTCCAG CTGGACAGGA GGGCAGGTGG CCATCTAAGC CCCTCACGTA CAGCCTCACA 
    GGCAGCACCC AGCAGAGCAG GAGCTTAGGA GCCCAATCTT CAAAGGCTGG AGAGACAAGG 
    GAGGCAGTGC CACAATGCAG AGTCCCCTTG GAAACCTGTA TGCTGGCAAA CCTCCAAGCC 
    ACAAGTGAGG ATGTGCATGG TTTCGAGGCT CCAGGGACCA GCAAAAGCTC TCTACACCCT 
    AGAGTGTCTG TCTCCCAAGA TCCAAGAAAG CTGTGTCTTA TGGAGGAGGT TGTTAGTGAA 
    TTTGAGCCTG GAATGGCCAC AAAGTCAGAG ACCCAGCCTC AAGTTTGTGC CGCTGTTGTG 
    CTCCTTCCAG ATGGGCAAGC ATCTGTTGTG CCCCACGCTT CAGAGAATTT GGTTTCTCAA 
    GTGCCCCAGG GCCATCTCCA GAGCATGCCT ACTGGGAACA TGCGGGCTTC CCAGGAGCTA 
    CATGACCTCA TGGCAGCCAG AAGGAGCAAA CTGGTGCAAG AGGAGCCCAG AAACCCAAAC 
    TGTCAAGGCT CATGCAAGAG CCAAAGGCCA ATGTTTCCCC CTATTCACAA GAGTGAGAAG 
    TCTAGGAAGC CCAACTTAGA AAAACATGAA GAAAGGCTTG AAGGATTGAG GACTCCTCAA 
    CTTACCCCAG TCAGGAAAAC AGAAGACACC CATCAGGATG AAGGCGTCCA GCTACTGCCA 
    TCAAAGAAAC AGCCTCCTTC AGTAAGCCAC TTTGGAGAAA ACATCAAGCA ATTTTTTCAG 
    TGGATTTTTT CAAAGAAAAA AAGCAAGCCA GCACCAGTCA CTGCTGAGAG CCAAAAAACA 
    GTAAAAAACA GATCATGTGT GTACAGCAGC AGTGCTGAAG CTCAGGGTCT CATGACGGCA 
    GTTGGACAAA TGCTGGACAA GAAAATGTCA CTTTGCCATG CGCACCATGC CTCGAAGGTA 
    AATCAGCACA AACAGAAGTT TCAAGCCCCA GTCTGTGGGT TTCCCTGCAA CCACAGGCAC 
    CTCTTCTACT CAGAACATGG CAGAATACTG AGCTATGCAG CCAGCAGTCA ACAAGCCACT 
    CTCAAGAGCC AGGGTTGTCC CAACAGAGAC AGGCAAATCA GAAATCAACA GCCCTTGAAA 
    AGTGTGCGGT GCAACAATGA GCAATGGGGC CTGCGACATC CCCAAATCTT GCACCCCAAG 
    AAAGCTGTAT CCCCAGTCAG TCCCCCTCAG CACTGGCCGA AGACATCCGG TGCCTCTAGC 
    CACCATCACC ACTGTCCAAG GCACTGTCTT CTTTGGGAAG GTATCTGA

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

    RefSeq XP_011516173.1
    CDS1..4068
    Translation

    Target ORF information:

    RefSeq Version XM_011517871.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A, member 6 (SPATA31A6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011517871.2

    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 CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGC GTCATCTTGT CTCCGTACGT CATCATGTCT CCCAGTGTCC AGTAGGGCGG 
    AGGCGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTGGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTC GGACCTTCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGACAAAG GTGACTTTGG TCAGCTCTCC GGTCCAGACC CCCCAGGTGA GGTGGGCGAA 
    AGAGCACCTG ATGGAGCCTC CCAGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    CTCTCCCCGT TAGCTTCCCC GGATCCTCAA GCCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCATCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC CCCTAGAACA CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCG CCTCCTCCAA AAGGCTTCAC TGCTCCTCCC 
    CTGCGGGACT CCACACTGAT AACTCCATCT CACTGTGACT CAGTGGCACT TCCACTGGGC 
    ACCGTCCCTC AAAGCTTGTC TCCACATGAG GATTTGGTGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGTG GCTCAAACAG TCATGTTTCT GCCTCCTCCC GGTGGCAGGA GACTGCCAGA 
    ACCTCGTGCG CCTTTAACTC ATCAGTCCAG CAAGATCCTC TTTCCCGCCA CCCACCAGAG 
    ACCTGTCAGA TGGAAGCTGG TAGCCTGTTT TTGCTCAGCT CTGATGGCCA GAATGTCGTG 
    GGGATACAAG TCACAGAAAC AGCCAAGGTC AACATTTGGG AAGAAAAAGA AAATGTTGGA 
    TCATTTACAA ATCAAATGAC CCCAGAAAAG CACTTAAATT CTTTGGGGAA TTTGGCTAAA 
    TCATTGGATG CTGAGCAGGA CACCACAAAC CCAAAACCCT TCTGGAACAT GGGAGAGAAC 
    TCGAAACAGC TGCCCGGACC TCAGAAGTGC TCAGATCCTA GGCTCTTGCA GGAAAGTTTT 
    TGGAAGAATT ATAGCCAGCT TTTCTGGGGC CTCCCCTCTC TGCACAGCGA GTCCCTGGTG 
    GCTAACGCCT GGGTAACTGA CAGGTCTTAT ACTTTACAGT CTCCTCCTTT CTTGTTCAAT 
    GAAATGTCCA ATGTCTGCCC AATTCAAAGG GAGACTACAA TGTCCCCACT GCTTTTCCAG 
    GCCCAGCCCC TGTCCCACCG CCAACCCTTT ATTTCATCCA CACCCCAATT CCTGCCCACA 
    CCTATGGCTC AGGCCGAGGC TCAGGCCCAT CTTCAGTCTT CTTTCCCAGT CCTATCTCCT 
    GCTTTTCCAT CCCTGATTAA GAACACTGGA GTAGCTTGCC CTGCATCGCA GAATAAAGTG 
    CAAGCTCTCT CCCTACCTGA AACTCAGCAC CCTGAATGGC CTTTGTTGAG GAAACAACTA 
    GAAGGTAGGT TGGCTTTACC CTCTAGGGTC CAAAAATCTC AGGACGTCTT TAGTGTCTCC 
    ACTCCTAACC TTCCCCAGGA AAGTTTGACA TCCATTCTGC CTGAGAACTT TCCAGTCAGT 
    CCTGAACTCC GGAGACAACT GGAGCAACAC ATAAAAAAGT GGATCATCCA ACACTGGGGC 
    AACCTGGGAA GGATCCAAGA GTCTCTGGAT CTGATGCAGC TTCGGGACGA ATCACCAGGG 
    ACAAGTCAGG CCAAGGGCAA ACCCAGTCCC TGGCAGTCCT CCACGTCCAC AGGTGAAAGC 
    AGCAAGGAGG CACAGAAGGT GAAGTTCCAG CTAGAGAGGG ACCTGTGCCC ACATCTGGGG 
    CAAATTCTGG GTGAGACCCC ACAAAATCTA TCCAGGGACA TGAAAAGCTT CCCACGGAAG 
    GTTCTGGGGG TGACTTCTGA GGAGTCGGAA AGGAACTTGA GGAAGCCCTT GAGGAGTGAC 
    TCGGGAAGTG ATTTATTAAG ATGCACAGAG AGGACTCATA TAGAAAACAT CCTGAAAGCC 
    CACATGGGCA GGAACTTGGG CCAGACCAAC GAGGGCTTGA TCCCCGTGCG TGTGCGTCGA 
    TCCTGGCTTG CTGTCAACCA GGCTCTTCCC GTGTCCAACA CCCATGTGAA AACCAGCAAT 
    CTAGCAGCCC CGAAAAGTGG GAAAGCCTGT GTGAACACAG CCCAGGTGCT TTCCTTCCTC 
    GAGCCGTGTA CTCAGCAGGG GTTGGGAGCC CATATTGTGA GGTTTTGGGC CAAACACAGG 
    TGGGGTCTAC CCCTCAGGGT CCTCAAGCCC ATTCAGTGCT TTAAACTGGA AAAGGTTTCA 
    TCCTTGTCCC TTACGCAGCT TGCTGGTCCC TCCTCAGCCA CCTGTGAATC TGGGGCTGGC 
    TCAGAAGTTG AGGTGGACAT GTTCCTTAGA AAGCCACCAA TGGCAAGTCT GAGAAAGCAG 
    GTGCTGACCA AAGCATCTGA TCACATGCCA GAGAGTCTTC TGGCCTCCTC ACCTGCATGG 
    AAGCAGTTCC AGAGGGCACC GCGAGGAATC CCATCTTGGA ATGATCATGG GCCCTTGAAG 
    CCTCCTCCAG CTGGACAGGA GGGCAGGTGG CCATCTAAGC CCCTCACGTA CAGCCTCACA 
    GGCAGCACCC AGCAGAGCAG GAGCTTAGGA GCCCAATCTT CAAAGGCTGG AGAGACAAGG 
    GAGGCAGTGC CACAATGCAG AGTCCCCTTG GAAACCTGTA TGCTGGCAAA CCTCCAAGCC 
    ACAAGTGAGG ATGTGCATGG TTTCGAGGCT CCAGGGACCA GCAAAAGCTC TCTACACCCT 
    AGAGTGTCTG TCTCCCAAGA TCCAAGAAAG CTGTGTCTTA TGGAGGAGGT TGTTAGTGAA 
    TTTGAGCCTG GAATGGCCAC AAAGTCAGAG ACCCAGCCTC AAGTTTGTGC CGCTGTTGTG 
    CTCCTTCCAG ATGGGCAAGC ATCTGTTGTG CCCCACGCTT CAGAGAATTT GGTTTCTCAA 
    GTGCCCCAGG GCCATCTCCA GAGCATGCCT ACTGGGAACA TGCGGGCTTC CCAGGAGCTA 
    CATGACCTCA TGGCAGCCAG AAGGAGCAAA CTGGTGCAAG AGGAGCCCAG AAACCCAAAC 
    TGTCAAGGCT CATGCAAGAG CCAAAGGCCA ATGTTTCCCC CTATTCACAA GAGTGAGAAG 
    TCTAGGAAGC CCAACTTAGA AAAACATGAA GAAAGGCTTG AAGGATTGAG GACTCCTCAA 
    CTTACCCCAG TCAGGAAAAC AGAAGACACC CATCAGGATG AAGGCGTCCA GCTACTGCCA 
    TCAAAGAAAC AGCCTCCTTC AGTAAGCCAC TTTGGAGAAA ACATCAAGCA ATTTTTTCAG 
    TGGATTTTTT CAAAGAAAAA AAGCAAGCCA GCACCAGTCA CTGCTGAGAG CCAAAAAACA 
    GTAAAAAACA GATCATGTGT GTACAGCAGC AGTGCTGAAG CTCAGGGTCT CATGACGGCA 
    GTTGGACAAA TGCTGGACAA GAAAATGTCA CTTTGCCATG CGCACCATGC CTCGAAGGTA 
    AATCAGCACA AACAGAAGTT TCAAGCCCCA GTCTGTGGGT TTCCCTGCAA CCACAGGCAC 
    CTCTTCTACT CAGAACATGG CAGAATACTG AGCTATGCAG CCAGCAGTCA ACAAGCCACT 
    CTCAAGAGCC AGGGTTGTCC CAACAGAGAC AGGCAAATCA GAAATCAACA GCCCTTGAAA 
    AGTGTGCGGT GCAACAATGA GCAATGGGGC CTGCGACATC CCCAAATCTT GCACCCCAAG 
    AAAGCTGTAT CCCCAGTCAG TCCCCCTCAG CACTGGCCGA AGACATCCGG TGCCTCTAGC 
    CACCATCACC ACTGTCCAAG GCACTGTCTT CTTTGGGAAG GTATCTGA

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

    SPATA31A6 ( XM_011517871.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011516173.1 Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80019
    Clone ID Related Accession (Same CDS sequence) XM_011517871.2 , XM_011517871.3
    Accession Version XM_011517871.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 31A6 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_011517871.2. ##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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGC GTCATCTTGT CTCCGTACGT CATCATGTCT CCCAGTGTCC AGTAGGGCGG 
    AGGCGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTGGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTC GGACCTTCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGACAAAG GTGACTTTGG TCAGCTCTCC GGTCCAGACC CCCCAGGTGA GGTGGGCGAA 
    AGAGCACCTG ATGGAGCCTC CCAGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    CTCTCCCCGT TAGCTTCCCC GGATCCTCAA GCCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCATCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC CCCTAGAACA CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCG CCTCCTCCAA AAGGCTTCAC TGCTCCTCCC 
    CTGCGGGACT CCACACTGAT AACTCCATCT CACTGTGACT CAGTGGCACT TCCACTGGGC 
    ACCGTCCCTC AAAGCTTGTC TCCACATGAG GATTTGGTGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGTG GCTCAAACAG TCATGTTTCT GCCTCCTCCC GGTGGCAGGA GACTGCCAGA 
    ACCTCGTGCG CCTTTAACTC ATCAGTCCAG CAAGATCCTC TTTCCCGCCA CCCACCAGAG 
    ACCTGTCAGA TGGAAGCTGG TAGCCTGTTT TTGCTCAGCT CTGATGGCCA GAATGTCGTG 
    GGGATACAAG TCACAGAAAC AGCCAAGGTC AACATTTGGG AAGAAAAAGA AAATGTTGGA 
    TCATTTACAA ATCAAATGAC CCCAGAAAAG CACTTAAATT CTTTGGGGAA TTTGGCTAAA 
    TCATTGGATG CTGAGCAGGA CACCACAAAC CCAAAACCCT TCTGGAACAT GGGAGAGAAC 
    TCGAAACAGC TGCCCGGACC TCAGAAGTGC TCAGATCCTA GGCTCTTGCA GGAAAGTTTT 
    TGGAAGAATT ATAGCCAGCT TTTCTGGGGC CTCCCCTCTC TGCACAGCGA GTCCCTGGTG 
    GCTAACGCCT GGGTAACTGA CAGGTCTTAT ACTTTACAGT CTCCTCCTTT CTTGTTCAAT 
    GAAATGTCCA ATGTCTGCCC AATTCAAAGG GAGACTACAA TGTCCCCACT GCTTTTCCAG 
    GCCCAGCCCC TGTCCCACCG CCAACCCTTT ATTTCATCCA CACCCCAATT CCTGCCCACA 
    CCTATGGCTC AGGCCGAGGC TCAGGCCCAT CTTCAGTCTT CTTTCCCAGT CCTATCTCCT 
    GCTTTTCCAT CCCTGATTAA GAACACTGGA GTAGCTTGCC CTGCATCGCA GAATAAAGTG 
    CAAGCTCTCT CCCTACCTGA AACTCAGCAC CCTGAATGGC CTTTGTTGAG GAAACAACTA 
    GAAGGTAGGT TGGCTTTACC CTCTAGGGTC CAAAAATCTC AGGACGTCTT TAGTGTCTCC 
    ACTCCTAACC TTCCCCAGGA AAGTTTGACA TCCATTCTGC CTGAGAACTT TCCAGTCAGT 
    CCTGAACTCC GGAGACAACT GGAGCAACAC ATAAAAAAGT GGATCATCCA ACACTGGGGC 
    AACCTGGGAA GGATCCAAGA GTCTCTGGAT CTGATGCAGC TTCGGGACGA ATCACCAGGG 
    ACAAGTCAGG CCAAGGGCAA ACCCAGTCCC TGGCAGTCCT CCACGTCCAC AGGTGAAAGC 
    AGCAAGGAGG CACAGAAGGT GAAGTTCCAG CTAGAGAGGG ACCTGTGCCC ACATCTGGGG 
    CAAATTCTGG GTGAGACCCC ACAAAATCTA TCCAGGGACA TGAAAAGCTT CCCACGGAAG 
    GTTCTGGGGG TGACTTCTGA GGAGTCGGAA AGGAACTTGA GGAAGCCCTT GAGGAGTGAC 
    TCGGGAAGTG ATTTATTAAG ATGCACAGAG AGGACTCATA TAGAAAACAT CCTGAAAGCC 
    CACATGGGCA GGAACTTGGG CCAGACCAAC GAGGGCTTGA TCCCCGTGCG TGTGCGTCGA 
    TCCTGGCTTG CTGTCAACCA GGCTCTTCCC GTGTCCAACA CCCATGTGAA AACCAGCAAT 
    CTAGCAGCCC CGAAAAGTGG GAAAGCCTGT GTGAACACAG CCCAGGTGCT TTCCTTCCTC 
    GAGCCGTGTA CTCAGCAGGG GTTGGGAGCC CATATTGTGA GGTTTTGGGC CAAACACAGG 
    TGGGGTCTAC CCCTCAGGGT CCTCAAGCCC ATTCAGTGCT TTAAACTGGA AAAGGTTTCA 
    TCCTTGTCCC TTACGCAGCT TGCTGGTCCC TCCTCAGCCA CCTGTGAATC TGGGGCTGGC 
    TCAGAAGTTG AGGTGGACAT GTTCCTTAGA AAGCCACCAA TGGCAAGTCT GAGAAAGCAG 
    GTGCTGACCA AAGCATCTGA TCACATGCCA GAGAGTCTTC TGGCCTCCTC ACCTGCATGG 
    AAGCAGTTCC AGAGGGCACC GCGAGGAATC CCATCTTGGA ATGATCATGG GCCCTTGAAG 
    CCTCCTCCAG CTGGACAGGA GGGCAGGTGG CCATCTAAGC CCCTCACGTA CAGCCTCACA 
    GGCAGCACCC AGCAGAGCAG GAGCTTAGGA GCCCAATCTT CAAAGGCTGG AGAGACAAGG 
    GAGGCAGTGC CACAATGCAG AGTCCCCTTG GAAACCTGTA TGCTGGCAAA CCTCCAAGCC 
    ACAAGTGAGG ATGTGCATGG TTTCGAGGCT CCAGGGACCA GCAAAAGCTC TCTACACCCT 
    AGAGTGTCTG TCTCCCAAGA TCCAAGAAAG CTGTGTCTTA TGGAGGAGGT TGTTAGTGAA 
    TTTGAGCCTG GAATGGCCAC AAAGTCAGAG ACCCAGCCTC AAGTTTGTGC CGCTGTTGTG 
    CTCCTTCCAG ATGGGCAAGC ATCTGTTGTG CCCCACGCTT CAGAGAATTT GGTTTCTCAA 
    GTGCCCCAGG GCCATCTCCA GAGCATGCCT ACTGGGAACA TGCGGGCTTC CCAGGAGCTA 
    CATGACCTCA TGGCAGCCAG AAGGAGCAAA CTGGTGCAAG AGGAGCCCAG AAACCCAAAC 
    TGTCAAGGCT CATGCAAGAG CCAAAGGCCA ATGTTTCCCC CTATTCACAA GAGTGAGAAG 
    TCTAGGAAGC CCAACTTAGA AAAACATGAA GAAAGGCTTG AAGGATTGAG GACTCCTCAA 
    CTTACCCCAG TCAGGAAAAC AGAAGACACC CATCAGGATG AAGGCGTCCA GCTACTGCCA 
    TCAAAGAAAC AGCCTCCTTC AGTAAGCCAC TTTGGAGAAA ACATCAAGCA ATTTTTTCAG 
    TGGATTTTTT CAAAGAAAAA AAGCAAGCCA GCACCAGTCA CTGCTGAGAG CCAAAAAACA 
    GTAAAAAACA GATCATGTGT GTACAGCAGC AGTGCTGAAG CTCAGGGTCT CATGACGGCA 
    GTTGGACAAA TGCTGGACAA GAAAATGTCA CTTTGCCATG CGCACCATGC CTCGAAGGTA 
    AATCAGCACA AACAGAAGTT TCAAGCCCCA GTCTGTGGGT TTCCCTGCAA CCACAGGCAC 
    CTCTTCTACT CAGAACATGG CAGAATACTG AGCTATGCAG CCAGCAGTCA ACAAGCCACT 
    CTCAAGAGCC AGGGTTGTCC CAACAGAGAC AGGCAAATCA GAAATCAACA GCCCTTGAAA 
    AGTGTGCGGT GCAACAATGA GCAATGGGGC CTGCGACATC CCCAAATCTT GCACCCCAAG 
    AAAGCTGTAT CCCCAGTCAG TCCCCCTCAG CACTGGCCGA AGACATCCGG TGCCTCTAGC 
    CACCATCACC ACTGTCCAAG GCACTGTCTT CTTTGGGAAG GTATCTGA

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

    RefSeq XP_011516173.1
    CDS1..4068
    Translation

    Target ORF information:

    RefSeq Version XM_011517871.3
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily A member 6 (SPATA31A6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011517871.3

    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
    ATGGAGAATC TTCCCTTTCC TTTAAAATTA CTTAGTGCCT CATCGCTAAA CGCCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GTTCTTCTTC 
    CTATTACTCC CCTACTTATC TTACTTCCAT TGTGATGACC CACCCTCACC ATCGCCTGGG 
    AAGAGAAAGC GTCATCTTGT CTCCGTACGT CATCATGTCT CCCAGTGTCC AGTAGGGCGG 
    AGGCGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTGGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTC GGACCTTCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGACAAAG GTGACTTTGG TCAGCTCTCC GGTCCAGACC CCCCAGGTGA GGTGGGCGAA 
    AGAGCACCTG ATGGAGCCTC CCAGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    CTCTCCCCGT TAGCTTCCCC GGATCCTCAA GCCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCATCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC CCCTAGAACA CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCG CCTCCTCCAA AAGGCTTCAC TGCTCCTCCC 
    CTGCGGGACT CCACACTGAT AACTCCATCT CACTGTGACT CAGTGGCACT TCCACTGGGC 
    ACCGTCCCTC AAAGCTTGTC TCCACATGAG GATTTGGTGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGTG GCTCAAACAG TCATGTTTCT GCCTCCTCCC GGTGGCAGGA GACTGCCAGA 
    ACCTCGTGCG CCTTTAACTC ATCAGTCCAG CAAGATCCTC TTTCCCGCCA CCCACCAGAG 
    ACCTGTCAGA TGGAAGCTGG TAGCCTGTTT TTGCTCAGCT CTGATGGCCA GAATGTCGTG 
    GGGATACAAG TCACAGAAAC AGCCAAGGTC AACATTTGGG AAGAAAAAGA AAATGTTGGA 
    TCATTTACAA ATCAAATGAC CCCAGAAAAG CACTTAAATT CTTTGGGGAA TTTGGCTAAA 
    TCATTGGATG CTGAGCAGGA CACCACAAAC CCAAAACCCT TCTGGAACAT GGGAGAGAAC 
    TCGAAACAGC TGCCCGGACC TCAGAAGTGC TCAGATCCTA GGCTCTTGCA GGAAAGTTTT 
    TGGAAGAATT ATAGCCAGCT TTTCTGGGGC CTCCCCTCTC TGCACAGCGA GTCCCTGGTG 
    GCTAACGCCT GGGTAACTGA CAGGTCTTAT ACTTTACAGT CTCCTCCTTT CTTGTTCAAT 
    GAAATGTCCA ATGTCTGCCC AATTCAAAGG GAGACTACAA TGTCCCCACT GCTTTTCCAG 
    GCCCAGCCCC TGTCCCACCG CCAACCCTTT ATTTCATCCA CACCCCAATT CCTGCCCACA 
    CCTATGGCTC AGGCCGAGGC TCAGGCCCAT CTTCAGTCTT CTTTCCCAGT CCTATCTCCT 
    GCTTTTCCAT CCCTGATTAA GAACACTGGA GTAGCTTGCC CTGCATCGCA GAATAAAGTG 
    CAAGCTCTCT CCCTACCTGA AACTCAGCAC CCTGAATGGC CTTTGTTGAG GAAACAACTA 
    GAAGGTAGGT TGGCTTTACC CTCTAGGGTC CAAAAATCTC AGGACGTCTT TAGTGTCTCC 
    ACTCCTAACC TTCCCCAGGA AAGTTTGACA TCCATTCTGC CTGAGAACTT TCCAGTCAGT 
    CCTGAACTCC GGAGACAACT GGAGCAACAC ATAAAAAAGT GGATCATCCA ACACTGGGGC 
    AACCTGGGAA GGATCCAAGA GTCTCTGGAT CTGATGCAGC TTCGGGACGA ATCACCAGGG 
    ACAAGTCAGG CCAAGGGCAA ACCCAGTCCC TGGCAGTCCT CCACGTCCAC AGGTGAAAGC 
    AGCAAGGAGG CACAGAAGGT GAAGTTCCAG CTAGAGAGGG ACCTGTGCCC ACATCTGGGG 
    CAAATTCTGG GTGAGACCCC ACAAAATCTA TCCAGGGACA TGAAAAGCTT CCCACGGAAG 
    GTTCTGGGGG TGACTTCTGA GGAGTCGGAA AGGAACTTGA GGAAGCCCTT GAGGAGTGAC 
    TCGGGAAGTG ATTTATTAAG ATGCACAGAG AGGACTCATA TAGAAAACAT CCTGAAAGCC 
    CACATGGGCA GGAACTTGGG CCAGACCAAC GAGGGCTTGA TCCCCGTGCG TGTGCGTCGA 
    TCCTGGCTTG CTGTCAACCA GGCTCTTCCC GTGTCCAACA CCCATGTGAA AACCAGCAAT 
    CTAGCAGCCC CGAAAAGTGG GAAAGCCTGT GTGAACACAG CCCAGGTGCT TTCCTTCCTC 
    GAGCCGTGTA CTCAGCAGGG GTTGGGAGCC CATATTGTGA GGTTTTGGGC CAAACACAGG 
    TGGGGTCTAC CCCTCAGGGT CCTCAAGCCC ATTCAGTGCT TTAAACTGGA AAAGGTTTCA 
    TCCTTGTCCC TTACGCAGCT TGCTGGTCCC TCCTCAGCCA CCTGTGAATC TGGGGCTGGC 
    TCAGAAGTTG AGGTGGACAT GTTCCTTAGA AAGCCACCAA TGGCAAGTCT GAGAAAGCAG 
    GTGCTGACCA AAGCATCTGA TCACATGCCA GAGAGTCTTC TGGCCTCCTC ACCTGCATGG 
    AAGCAGTTCC AGAGGGCACC GCGAGGAATC CCATCTTGGA ATGATCATGG GCCCTTGAAG 
    CCTCCTCCAG CTGGACAGGA GGGCAGGTGG CCATCTAAGC CCCTCACGTA CAGCCTCACA 
    GGCAGCACCC AGCAGAGCAG GAGCTTAGGA GCCCAATCTT CAAAGGCTGG AGAGACAAGG 
    GAGGCAGTGC CACAATGCAG AGTCCCCTTG GAAACCTGTA TGCTGGCAAA CCTCCAAGCC 
    ACAAGTGAGG ATGTGCATGG TTTCGAGGCT CCAGGGACCA GCAAAAGCTC TCTACACCCT 
    AGAGTGTCTG TCTCCCAAGA TCCAAGAAAG CTGTGTCTTA TGGAGGAGGT TGTTAGTGAA 
    TTTGAGCCTG GAATGGCCAC AAAGTCAGAG ACCCAGCCTC AAGTTTGTGC CGCTGTTGTG 
    CTCCTTCCAG ATGGGCAAGC ATCTGTTGTG CCCCACGCTT CAGAGAATTT GGTTTCTCAA 
    GTGCCCCAGG GCCATCTCCA GAGCATGCCT ACTGGGAACA TGCGGGCTTC CCAGGAGCTA 
    CATGACCTCA TGGCAGCCAG AAGGAGCAAA CTGGTGCAAG AGGAGCCCAG AAACCCAAAC 
    TGTCAAGGCT CATGCAAGAG CCAAAGGCCA ATGTTTCCCC CTATTCACAA GAGTGAGAAG 
    TCTAGGAAGC CCAACTTAGA AAAACATGAA GAAAGGCTTG AAGGATTGAG GACTCCTCAA 
    CTTACCCCAG TCAGGAAAAC AGAAGACACC CATCAGGATG AAGGCGTCCA GCTACTGCCA 
    TCAAAGAAAC AGCCTCCTTC AGTAAGCCAC TTTGGAGAAA ACATCAAGCA ATTTTTTCAG 
    TGGATTTTTT CAAAGAAAAA AAGCAAGCCA GCACCAGTCA CTGCTGAGAG CCAAAAAACA 
    GTAAAAAACA GATCATGTGT GTACAGCAGC AGTGCTGAAG CTCAGGGTCT CATGACGGCA 
    GTTGGACAAA TGCTGGACAA GAAAATGTCA CTTTGCCATG CGCACCATGC CTCGAAGGTA 
    AATCAGCACA AACAGAAGTT TCAAGCCCCA GTCTGTGGGT TTCCCTGCAA CCACAGGCAC 
    CTCTTCTACT CAGAACATGG CAGAATACTG AGCTATGCAG CCAGCAGTCA ACAAGCCACT 
    CTCAAGAGCC AGGGTTGTCC CAACAGAGAC AGGCAAATCA GAAATCAACA GCCCTTGAAA 
    AGTGTGCGGT GCAACAATGA GCAATGGGGC CTGCGACATC CCCAAATCTT GCACCCCAAG 
    AAAGCTGTAT CCCCAGTCAG TCCCCCTCAG CACTGGCCGA AGACATCCGG TGCCTCTAGC 
    CACCATCACC ACTGTCCAAG GCACTGTCTT CTTTGGGAAG GTATCTGA

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

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