ORF » Species Summary » Homo sapiens » SPATA31C1 cDNA ORF clone

SPATA31C1 cDNA ORF clone, Homo sapiens(human)

The following SPATA31C1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SPATA31C1 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
OHu31813 NM_001145124.1
Latest version!		 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$459.50-$643.30
$919.00
OHu80342 XM_011518702.1
Latest version!		 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$459.50-$643.30
$919.00
OHu80342 XM_011518701.2
Latest version!		 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$459.50-$643.30
$919.00
OHu80343 XM_011518703.1
Latest version!		 Homo sapiens SPATA31 subfamily C, member 1 (SPATA31C1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $643.30
$919.00

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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)
    SPATA31C1 ( NM_001145124.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001138596.1 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), mRNA.
    Price & Availability↑
    CloneID OHu31813
    Clone ID Related Accession (Same CDS sequence) NM_001145124.1
    Accession Version NM_001145124.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3567bp)
    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 putative spermatogenesis-associated protein 31C1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB065037.1, AK310310.1 and AL353572.13. On or before Feb 13, 2009 this sequence version replaced XR_041345.1, XR_041344.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data because no single transcript was available for the full length of the gene. The extent of this transcript is supported by transcript alignments. ##Evidence-Data-START## Transcript exon combination :: DC400053.1, DC398610.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## 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
    ATGGAGAATC TTCCCTTTCC TCTAAAATTA CTTAGTGCCT CATCACTAAA CACCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GCTCTTCTTC 
    CTATTACTCC CCTACTTCTC TTACCTCCGT TGTGACAACC CACCCTCACC ATCGCCTAGG 
    AAGAGAAAGC GTCATCTTGT CTCCCAGCGT CATCTTGTCT CCCAGTGTCC AACAGGGCGG 
    AGGGGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTTGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTG GGACCTGCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGAAAAAG GTGACTTTGG TCAGCTCTCT GGTCCAGACC CGCCAGGTGA GGTGGGCAAA 
    AGAACACCTG ATGGAGCCTC CCGGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    GTCTCCCCGT TAGCTTCCCC GGATCCTCGA ACCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCACCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC TCCTAGAACG CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCA CCTCCTCCGA AAGGCTTCAC TCCTCCTCCC 
    CTGCGGGACT CCACTCTGTT AACACCATCT CACTGTGACT CAGTGGCACT TCCACTGGAC 
    ACCGTCCCTC AAAGCTTGTC TCCACGTGAG GATTTGGCGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGCG GCTCAAACAG TCAAGTTTCT GCCCTCTCCT GGTCGCAGGA GACTACCAAA 
    ACCTGGTGCA TCTTCAACTC GTCAGTCCAG CAAGATCATC TTTCCCGCCA AAGGGACACC 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC TGAGTCCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCCTCTTT CCCAGTCCTA TCTCCTGCTT TTCTATCCCC GATGAAGAAC 
    ACTGGAGTAG CTTGCCCTGC GTCGCAGAAT AAAGTGCAAG CTCTCTCCTT ACCTGAAACT 
    CAGCACCCTG AAAGGCCTTT GTTGAGGAAA CAACTAGAAG GTGGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGA 
    CTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCTGGAG ACAACTGGAG 
    CAATACATGG GGCAACGTGG AAGGATCCAA GAGTCTCTGG ATCTGATGCA GCTTCAGGAT 
    GAATTGCCAG GGACAAGTCA GGCCAAGGGC AAACCCAGGC CCTGGCAGTC CTCCACGTCC 
    ACAGGTGAAA GCAGCAAGGA GGCACAGACG GTGAAGTTCC AGCTAGAGAG GGACCCATGC 
    CCACATCTGG GGCAAATTCT GGGTGAGACC CCACAAAATC TATCCAGGGG CATGGAAAGC 
    TTCCCAGGGA AGGTTCTGGG GGCGACCTCT GAGGAGTCAG AAAGGAACCT GAGGAAGCCC 
    TTGAGGAGTG ACTCAGGAAG TGATTTATTA AGACGCACAG AGAGGAATCA TATAGAAAAC 
    ATCCTGAAAG CCCACATGGG CAGAAAGTTG GGCCAGACCA ACGAGGGCTT GATCCCCGTG 
    AGTGTGCGTC GATCCTGGCT TGCTGTCAAC CAGGCTTTTC CCGTATCCAA CACCCACGTG 
    AAAACCAGCA ATCTAGCAGC CCCGAAAAGT AGGAAAGCCT GTGTAAACAC AGCCCAGGTG 
    CTTTCCTTCC TTGAGCTGTG TACTCAGCAG GTGCTGGAAG CCCATATTGT GAGGTTTTGG 
    GCCAAACACA GGTGGGGTCT ACCCCTCAGG GTCCTCAAGC CCATTCAGTG CTTTCAACTG 
    GAAAAGGTTT CATCCTTGTC CCTTATACAG CTTGCTGGTC CCTCCTCAGA CACCTGCGAA 
    TCTGGGGCTG GCTCAAAAGT TGAGGTGGCC ACGCTCCTTG GAGAGCCACC AATGGCAAGT 
    CTGAGAAAGC AAGTGCTGAC CAAACCATCT GTTCACATGC CAGAGAGGCT TCAGGCCTCC 
    TCACCTGCAT GTAAGCAGTT CCAGAGGGCC CCGCGAGGGA TCCCATCTTC AAATGATCAT 
    GGGTCCTTGA AGGCTCCTAC AGCTGGACAG GAGGGCAGGT GGCCATCTAA GCCCCTCACA 
    TACAGCCTCA AAGGCAGCAC CCAGCAGAGC AGGAGCTTAG GAGCCCAATC TTCAAGGGCT 
    GGAGAGACCA GGGAGGCAGT GCCACAACCC ACAGTCCCCT TGGGAACCTG TATGAGAGCA 
    AACCTCCAAG CCACAAGTGA GGATGTGCGT GGTTTCAAGG CTCCAGGCGC CAGCAAAAGC 
    TCTCTACTCC CTAGAATGTC TGTCTCCCAA GACCCAAGAA AGCTGTGTCT CATGGAGGAG 
    GCTGTTAGTG AATTTGAGCC TGGAATGGCC ACGAAGTCAG AGACCCAGCC TCAAGTTTCT 
    GCCGCTGTTG TGCTCCTTCC AGATGGGCAA GCATCTGTTG TGCCCCATGC TTCAGAGAAT 
    TTGGCTTCTC AAGTGCCCCA GGGCCATCTC CAGAGCACGC CTACTGGGAA CATGCAGGCT 
    TCCCAGGAGC TATGTGACCT CATGTCAGCC AGAAGGAGTA ACATGGGGCA CAAGGAGCCC 
    AGGAACCCAA ACTGTCAAGG CTCATGCAAG AGCCAAAGCC CAATGTTTCC CCCTACTCAC 
    AAGAGGGAGA ACTCTAGGAA GCCCAACTTA GAAAAACATG AAGAAATGTT TCAAGGATTG 
    AGGACTCCTC AACTTACCCC AGGCAGAAAA ACAGAAGACA CCCGTCAGAA TGAAGGCGTC 
    CAGCTACTGC CATCAAAGAA ACAGCCTCCT TCAATAAGCC ACTTTGGAGA AAACATCAAG 
    CAATTTTTTG AGACGATTTT TTCAAAGAAA GAAAGGAAGC CAGCACCAGT CACTGCTGAG 
    AGCCAAAAAA CAGTAAAAAA CAGATCATGC GTGTACGGCA GCAGTGCTGA AGCTGAGAGG 
    CTCATGACAG CAGTTGGACA GATACCGGAG GAGAACATGT CACTTTGCCA TGCGCGCCAT 
    GCCTCGAAGG TAAATCAGCA AAGACAGCAG TTTCAAGCCC CAGTCTGTGG GTTTCCCTGC 
    AACCACAGAC ACCCGTTCTA CTCAGACCAC AGCAGAATGC TGAGCTATGC AGCCAGCAGT 
    CAACAAGCCA CTCTCAAGAA CCAGAGTCGT CCCAACAGAG ACAGACAAAT CAGAGATCAG 
    CAGCCCTTGA AAAGTGTCCG GTGCAACAAT GAGCAATGGG GCCTGCGACA TCCCCAACTC 
    TTGCTCCCCA AGAAAGCTGT ATCCCCAGTC AGTCCCCCTC AGCACCGGCC GAAGACACCC 
    AGTGCCTCCA GCCACCATCA CCACTGA

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

    RefSeq NP_001138596.1
    CDS30..3596
    Translation

    Target ORF information:

    RefSeq Version NM_001145124.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001145124.1

    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
    ATGGAGAATC TTCCCTTTCC TCTAAAATTA CTTAGTGCCT CATCACTAAA CACCCCCAGC 
    TCCACACCAT GGGTGTTGGA TATCTTCCTC ACCTTGGTGT TTGCCCTGGG GCTCTTCTTC 
    CTATTACTCC CCTACTTCTC TTACCTCCGT TGTGACAACC CACCCTCACC ATCGCCTAGG 
    AAGAGAAAGC GTCATCTTGT CTCCCAGCGT CATCTTGTCT CCCAGTGTCC AACAGGGCGG 
    AGGGGGAGGC CCAGAGGCAG GATGAAAAAC CACAGTCTGA GAGCTTGTAG AGAGTGCCCG 
    AGAGGCCTGG AGGAGACTTG GGACCTGCTT TCACAACTGC AGAGCCTCCT GGGGCCACAC 
    CTTGAAAAAG GTGACTTTGG TCAGCTCTCT GGTCCAGACC CGCCAGGTGA GGTGGGCAAA 
    AGAACACCTG ATGGAGCCTC CCGGTCCTCT CATGAGCCTA TGGAAGATGC TGCTCCCATT 
    GTCTCCCCGT TAGCTTCCCC GGATCCTCGA ACCAAGCATC CTCAGGATCT GGCCTCCACC 
    CCACCACCAG GCCCAATGAC CACCTCAGTC TCCTCCCTAA GTGCCTCCCA GCCACCAGAA 
    CCTTCCCTTC TCCTAGAACG CCCCTCACCC GAGCCACCTG CACTTTTCCC TCACCCACCA 
    CACACCCCTG ATCCTCTGGC CTGCTCTCCA CCTCCTCCGA AAGGCTTCAC TCCTCCTCCC 
    CTGCGGGACT CCACTCTGTT AACACCATCT CACTGTGACT CAGTGGCACT TCCACTGGAC 
    ACCGTCCCTC AAAGCTTGTC TCCACGTGAG GATTTGGCGG CTTCTGTCCC AGCCATCTCA 
    GGCCTTGGCG GCTCAAACAG TCAAGTTTCT GCCCTCTCCT GGTCGCAGGA GACTACCAAA 
    ACCTGGTGCA TCTTCAACTC GTCAGTCCAG CAAGATCATC TTTCCCGCCA AAGGGACACC 
    ACAATGTCCC CACTGCTTTT CCAGGCCCAG CCCCTGTCCC ATCTGGGGCC TGAGTCCCAA 
    CCCTTTATTT CATCCACACC CCAATTCCGG CCCACACCTA TGGCTCAGGC CGAGGCTCAG 
    GCCCATCTTC AATCCTCTTT CCCAGTCCTA TCTCCTGCTT TTCTATCCCC GATGAAGAAC 
    ACTGGAGTAG CTTGCCCTGC GTCGCAGAAT AAAGTGCAAG CTCTCTCCTT ACCTGAAACT 
    CAGCACCCTG AAAGGCCTTT GTTGAGGAAA CAACTAGAAG GTGGGTTGGC TTTACCCTCT 
    AGGGTCCAAA AATCTCAGGA CGTCTTTAGT GTCTCCACTC CTAACCTTCC CCAGGAAAGA 
    CTGACATCCA TTCTGCCTGA GAACTTTCCA GTCAGTCCTG AACTCTGGAG ACAACTGGAG 
    CAATACATGG GGCAACGTGG AAGGATCCAA GAGTCTCTGG ATCTGATGCA GCTTCAGGAT 
    GAATTGCCAG GGACAAGTCA GGCCAAGGGC AAACCCAGGC CCTGGCAGTC CTCCACGTCC 
    ACAGGTGAAA GCAGCAAGGA GGCACAGACG GTGAAGTTCC AGCTAGAGAG GGACCCATGC 
    CCACATCTGG GGCAAATTCT GGGTGAGACC CCACAAAATC TATCCAGGGG CATGGAAAGC 
    TTCCCAGGGA AGGTTCTGGG GGCGACCTCT GAGGAGTCAG AAAGGAACCT GAGGAAGCCC 
    TTGAGGAGTG ACTCAGGAAG TGATTTATTA AGACGCACAG AGAGGAATCA TATAGAAAAC 
    ATCCTGAAAG CCCACATGGG CAGAAAGTTG GGCCAGACCA ACGAGGGCTT GATCCCCGTG 
    AGTGTGCGTC GATCCTGGCT TGCTGTCAAC CAGGCTTTTC CCGTATCCAA CACCCACGTG 
    AAAACCAGCA ATCTAGCAGC CCCGAAAAGT AGGAAAGCCT GTGTAAACAC AGCCCAGGTG 
    CTTTCCTTCC TTGAGCTGTG TACTCAGCAG GTGCTGGAAG CCCATATTGT GAGGTTTTGG 
    GCCAAACACA GGTGGGGTCT ACCCCTCAGG GTCCTCAAGC CCATTCAGTG CTTTCAACTG 
    GAAAAGGTTT CATCCTTGTC CCTTATACAG CTTGCTGGTC CCTCCTCAGA CACCTGCGAA 
    TCTGGGGCTG GCTCAAAAGT TGAGGTGGCC ACGCTCCTTG GAGAGCCACC AATGGCAAGT 
    CTGAGAAAGC AAGTGCTGAC CAAACCATCT GTTCACATGC CAGAGAGGCT TCAGGCCTCC 
    TCACCTGCAT GTAAGCAGTT CCAGAGGGCC CCGCGAGGGA TCCCATCTTC AAATGATCAT 
    GGGTCCTTGA AGGCTCCTAC AGCTGGACAG GAGGGCAGGT GGCCATCTAA GCCCCTCACA 
    TACAGCCTCA AAGGCAGCAC CCAGCAGAGC AGGAGCTTAG GAGCCCAATC TTCAAGGGCT 
    GGAGAGACCA GGGAGGCAGT GCCACAACCC ACAGTCCCCT TGGGAACCTG TATGAGAGCA 
    AACCTCCAAG CCACAAGTGA GGATGTGCGT GGTTTCAAGG CTCCAGGCGC CAGCAAAAGC 
    TCTCTACTCC CTAGAATGTC TGTCTCCCAA GACCCAAGAA AGCTGTGTCT CATGGAGGAG 
    GCTGTTAGTG AATTTGAGCC TGGAATGGCC ACGAAGTCAG AGACCCAGCC TCAAGTTTCT 
    GCCGCTGTTG TGCTCCTTCC AGATGGGCAA GCATCTGTTG TGCCCCATGC TTCAGAGAAT 
    TTGGCTTCTC AAGTGCCCCA GGGCCATCTC CAGAGCACGC CTACTGGGAA CATGCAGGCT 
    TCCCAGGAGC TATGTGACCT CATGTCAGCC AGAAGGAGTA ACATGGGGCA CAAGGAGCCC 
    AGGAACCCAA ACTGTCAAGG CTCATGCAAG AGCCAAAGCC CAATGTTTCC CCCTACTCAC 
    AAGAGGGAGA ACTCTAGGAA GCCCAACTTA GAAAAACATG AAGAAATGTT TCAAGGATTG 
    AGGACTCCTC AACTTACCCC AGGCAGAAAA ACAGAAGACA CCCGTCAGAA TGAAGGCGTC 
    CAGCTACTGC CATCAAAGAA ACAGCCTCCT TCAATAAGCC ACTTTGGAGA AAACATCAAG 
    CAATTTTTTG AGACGATTTT TTCAAAGAAA GAAAGGAAGC CAGCACCAGT CACTGCTGAG 
    AGCCAAAAAA CAGTAAAAAA CAGATCATGC GTGTACGGCA GCAGTGCTGA AGCTGAGAGG 
    CTCATGACAG CAGTTGGACA GATACCGGAG GAGAACATGT CACTTTGCCA TGCGCGCCAT 
    GCCTCGAAGG TAAATCAGCA AAGACAGCAG TTTCAAGCCC CAGTCTGTGG GTTTCCCTGC 
    AACCACAGAC ACCCGTTCTA CTCAGACCAC AGCAGAATGC TGAGCTATGC AGCCAGCAGT 
    CAACAAGCCA CTCTCAAGAA CCAGAGTCGT CCCAACAGAG ACAGACAAAT CAGAGATCAG 
    CAGCCCTTGA AAAGTGTCCG GTGCAACAAT GAGCAATGGG GCCTGCGACA TCCCCAACTC 
    TTGCTCCCCA AGAAAGCTGT ATCCCCAGTC AGTCCCCCTC AGCACCGGCC GAAGACACCC 
    AGTGCCTCCA GCCACCATCA CCACTGA

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

    SPATA31C1 ( XM_011518702.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517004.1 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu80342
    Clone ID Related Accession (Same CDS sequence) XM_011518702.1 , XM_011518701.2
    Accession Version XM_011518702.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 putative spermatogenesis-associated protein 31C1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGCCCAGAG CTCAGTTGCT AGAAAGCAAT GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTCTAAAAT TACTTAGTGC CTCATCACTA AACACCCCCA GCTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACCTTGGT GTTTGCCCTG GGGCTCTTCT TCCTATTACT CCCCTACTTC 
    TCTTACCTCC GTTGTGACAA CCCACCCTCA CCATCGCCTA GGAAGAGAAA GCGTCATCTT 
    GTCTCCCAGC GTCATCTTGT CTCCCAGTGT CCAACAGGGC GGAGGGGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTTGT AGAGAGTGCC CGAGAGGCCT GGAGGAGACT 
    TGGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGAAAA AGGTGACTTT 
    GGTCAGCTCT CTGGTCCAGA CCCGCCAGGT GAGGTGGGCA AAAGAACACC TGATGGAGCC 
    TCCCGGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTGTCTCCCC GTTAGCTTCC 
    CCGGATCCTC GAACCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCACCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCTCCTAGAA 
    CGCCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC CACCTCCTCC GAAAGGCTTC ACTCCTCCTC CCCTGCGGGA CTCCACTCTG 
    TTAACACCAT CTCACTGTGA CTCAGTGGCA CTTCCACTGG ACACCGTCCC TCAAAGCTTG 
    TCTCCACGTG AGGATTTGGC GGCTTCTGTC CCAGCCATCT CAGGCCTTGG CGGCTCAAAC 
    AGTCAAGTTT CTGCCCTCTC CTGGTCGCAG GAGACTACCA AAACCTGGTG CATCTTCAAC 
    TCGTCAGTCC AGCAAGATCA TCTTTCCCGC CAAAGGGACA CCACAATGTC CCCACTGCTT 
    TTCCAGGCCC AGCCCCTGTC CCATCTGGGG CCTGAGTCCC AACCCTTTAT TTCATCCACA 
    CCCCAATTCC GGCCCACACC TATGGCTCAG GCCGAGGCTC AGGCCCATCT TCAATCCTCT 
    TTCCCAGTCC TATCTCCTGC TTTTCTATCC CCGATGAAGA ACACTGGAGT AGCTTGCCCT 
    GCGTCGCAGA ATAAAGTGCA AGCTCTCTCC TTACCTGAAA CTCAGCACCC TGAAAGGCCT 
    TTGTTGAGGA AACAACTAGA AGGTGGGTTG GCTTTACCCT CTAGGGTCCA AAAATCTCAG 
    GACGTCTTTA GTGTCTCCAC TCCTAACCTT CCCCAGGAAA GACTGACATC CATTCTGCCT 
    GAGAACTTTC CAGTCAGTCC TGAACTCTGG AGACAACTGG AGCAATACAT GGGGCAACGT 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCAGG ATGAATTGCC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG GCCCTGGCAG TCCTCCACGT CCACAGGTGA AAGCAGCAAG 
    GAGGCACAGA CGGTGAAGTT CCAGCTAGAG AGGGACCCAT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GGCATGGAAA GCTTCCCAGG GAAGGTTCTG 
    GGGGCGACCT CTGAGGAGTC AGAAAGGAAC CTGAGGAAGC CCTTGAGGAG TGACTCAGGA 
    AGTGATTTAT TAAGACGCAC AGAGAGGAAT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGAAAGT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGAGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTTT TCCCGTATCC AACACCCACG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTAGGAAAGC CTGTGTAAAC ACAGCCCAGG TGCTTTCCTT CCTTGAGCTG 
    TGTACTCAGC AGGTGCTGGA AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTCAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTATAC AGCTTGCTGG TCCCTCCTCA GACACCTGCG AATCTGGGGC TGGCTCAAAA 
    GTTGAGGTGG CCACGCTCCT TGGAGAGCCA CCAATGGCAA GTCTGAGAAA GCAAGTGCTG 
    ACCAAACCAT CTGTTCACAT GCCAGAGAGG CTTCAGGCCT CCTCACCTGC ATGTAAGCAG 
    TTCCAGAGGG CCCCGCGAGG GATCCCATCT TCAAATGATC ATGGGTCCTT GAAGGCTCCT 
    ACAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CATACAGCCT CAAAGGCAGC 
    ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAGGG CTGGAGAGAC CAGGGAGGCA 
    GTGCCACAAC CCACAGTCCC CTTGGGAACC TGTATGAGAG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC GTGGTTTCAA GGCTCCAGGC GCCAGCAAAA GCTCTCTACT CCCTAGAATG 
    TCTGTCTCCC AAGACCCAAG AAAGCTGTGT CTCATGGAGG AGGCTGTTAG TGAATTTGAG 
    CCTGGAATGG CCACGAAGTC AGAGACCCAG CCTCAAGTTT CTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAT GCTTCAGAGA ATTTGGCTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAC GCCTACTGGG AACATGCAGG CTTCCCAGGA GCTATGTGAC 
    CTCATGTCAG CCAGAAGGAG TAACATGGGG CACAAGGAGC CCAGGAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG CCCAATGTTT CCCCCTACTC ACAAGAGGGA GAACTCTAGG 
    AAGCCCAACT TAGAAAAACA TGAAGAAATG TTTCAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGGCAGAA AAACAGAAGA CACCCGTCAG AATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAATAAG CCACTTTGGA GAAAACATCA AGCAATTTTT TGAGACGATT 
    TTTTCAAAGA AAGAAAGGAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAT GCGTGTACGG CAGCAGTGCT GAAGCTGAGA GGCTCATGAC AGCAGTTGGA 
    CAGATACCGG AGGAGAACAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CAAAGACAGC AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG ACACCCGTTC 
    TACTCAGACC ACAGCAGAAT GCTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AACCAGAGTC GTCCCAACAG AGACAGACAA ATCAGAGATC AGCAGCCCTT GAAAAGTGTC 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAC TCTTGCTCCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACCGG CCGAAGACAC CCAGTGCCTC CAGCCACCAT 
    CACCACTGA

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

    RefSeq XP_011517004.1
    CDS545..4153
    Translation

    Target ORF information:

    RefSeq Version XM_011518702.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518702.1

    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
    ATGCCCAGAG CTCAGTTGCT AGAAAGCAAT GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTCTAAAAT TACTTAGTGC CTCATCACTA AACACCCCCA GCTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACCTTGGT GTTTGCCCTG GGGCTCTTCT TCCTATTACT CCCCTACTTC 
    TCTTACCTCC GTTGTGACAA CCCACCCTCA CCATCGCCTA GGAAGAGAAA GCGTCATCTT 
    GTCTCCCAGC GTCATCTTGT CTCCCAGTGT CCAACAGGGC GGAGGGGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTTGT AGAGAGTGCC CGAGAGGCCT GGAGGAGACT 
    TGGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGAAAA AGGTGACTTT 
    GGTCAGCTCT CTGGTCCAGA CCCGCCAGGT GAGGTGGGCA AAAGAACACC TGATGGAGCC 
    TCCCGGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTGTCTCCCC GTTAGCTTCC 
    CCGGATCCTC GAACCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCACCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCTCCTAGAA 
    CGCCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC CACCTCCTCC GAAAGGCTTC ACTCCTCCTC CCCTGCGGGA CTCCACTCTG 
    TTAACACCAT CTCACTGTGA CTCAGTGGCA CTTCCACTGG ACACCGTCCC TCAAAGCTTG 
    TCTCCACGTG AGGATTTGGC GGCTTCTGTC CCAGCCATCT CAGGCCTTGG CGGCTCAAAC 
    AGTCAAGTTT CTGCCCTCTC CTGGTCGCAG GAGACTACCA AAACCTGGTG CATCTTCAAC 
    TCGTCAGTCC AGCAAGATCA TCTTTCCCGC CAAAGGGACA CCACAATGTC CCCACTGCTT 
    TTCCAGGCCC AGCCCCTGTC CCATCTGGGG CCTGAGTCCC AACCCTTTAT TTCATCCACA 
    CCCCAATTCC GGCCCACACC TATGGCTCAG GCCGAGGCTC AGGCCCATCT TCAATCCTCT 
    TTCCCAGTCC TATCTCCTGC TTTTCTATCC CCGATGAAGA ACACTGGAGT AGCTTGCCCT 
    GCGTCGCAGA ATAAAGTGCA AGCTCTCTCC TTACCTGAAA CTCAGCACCC TGAAAGGCCT 
    TTGTTGAGGA AACAACTAGA AGGTGGGTTG GCTTTACCCT CTAGGGTCCA AAAATCTCAG 
    GACGTCTTTA GTGTCTCCAC TCCTAACCTT CCCCAGGAAA GACTGACATC CATTCTGCCT 
    GAGAACTTTC CAGTCAGTCC TGAACTCTGG AGACAACTGG AGCAATACAT GGGGCAACGT 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCAGG ATGAATTGCC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG GCCCTGGCAG TCCTCCACGT CCACAGGTGA AAGCAGCAAG 
    GAGGCACAGA CGGTGAAGTT CCAGCTAGAG AGGGACCCAT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GGCATGGAAA GCTTCCCAGG GAAGGTTCTG 
    GGGGCGACCT CTGAGGAGTC AGAAAGGAAC CTGAGGAAGC CCTTGAGGAG TGACTCAGGA 
    AGTGATTTAT TAAGACGCAC AGAGAGGAAT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGAAAGT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGAGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTTT TCCCGTATCC AACACCCACG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTAGGAAAGC CTGTGTAAAC ACAGCCCAGG TGCTTTCCTT CCTTGAGCTG 
    TGTACTCAGC AGGTGCTGGA AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTCAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTATAC AGCTTGCTGG TCCCTCCTCA GACACCTGCG AATCTGGGGC TGGCTCAAAA 
    GTTGAGGTGG CCACGCTCCT TGGAGAGCCA CCAATGGCAA GTCTGAGAAA GCAAGTGCTG 
    ACCAAACCAT CTGTTCACAT GCCAGAGAGG CTTCAGGCCT CCTCACCTGC ATGTAAGCAG 
    TTCCAGAGGG CCCCGCGAGG GATCCCATCT TCAAATGATC ATGGGTCCTT GAAGGCTCCT 
    ACAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CATACAGCCT CAAAGGCAGC 
    ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAGGG CTGGAGAGAC CAGGGAGGCA 
    GTGCCACAAC CCACAGTCCC CTTGGGAACC TGTATGAGAG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC GTGGTTTCAA GGCTCCAGGC GCCAGCAAAA GCTCTCTACT CCCTAGAATG 
    TCTGTCTCCC AAGACCCAAG AAAGCTGTGT CTCATGGAGG AGGCTGTTAG TGAATTTGAG 
    CCTGGAATGG CCACGAAGTC AGAGACCCAG CCTCAAGTTT CTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAT GCTTCAGAGA ATTTGGCTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAC GCCTACTGGG AACATGCAGG CTTCCCAGGA GCTATGTGAC 
    CTCATGTCAG CCAGAAGGAG TAACATGGGG CACAAGGAGC CCAGGAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG CCCAATGTTT CCCCCTACTC ACAAGAGGGA GAACTCTAGG 
    AAGCCCAACT TAGAAAAACA TGAAGAAATG TTTCAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGGCAGAA AAACAGAAGA CACCCGTCAG AATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAATAAG CCACTTTGGA GAAAACATCA AGCAATTTTT TGAGACGATT 
    TTTTCAAAGA AAGAAAGGAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAT GCGTGTACGG CAGCAGTGCT GAAGCTGAGA GGCTCATGAC AGCAGTTGGA 
    CAGATACCGG AGGAGAACAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CAAAGACAGC AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG ACACCCGTTC 
    TACTCAGACC ACAGCAGAAT GCTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AACCAGAGTC GTCCCAACAG AGACAGACAA ATCAGAGATC AGCAGCCCTT GAAAAGTGTC 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAC TCTTGCTCCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACCGG CCGAAGACAC CCAGTGCCTC CAGCCACCAT 
    CACCACTGA

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

    SPATA31C1 ( XM_011518701.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517003.1 Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80342
    Clone ID Related Accession (Same CDS sequence) XM_011518702.1 , XM_011518701.2
    Accession Version XM_011518701.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 putative spermatogenesis-associated protein 31C1 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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011518701.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCCCAGAG CTCAGTTGCT AGAAAGCAAT GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTCTAAAAT TACTTAGTGC CTCATCACTA AACACCCCCA GCTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACCTTGGT GTTTGCCCTG GGGCTCTTCT TCCTATTACT CCCCTACTTC 
    TCTTACCTCC GTTGTGACAA CCCACCCTCA CCATCGCCTA GGAAGAGAAA GCGTCATCTT 
    GTCTCCCAGC GTCATCTTGT CTCCCAGTGT CCAACAGGGC GGAGGGGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTTGT AGAGAGTGCC CGAGAGGCCT GGAGGAGACT 
    TGGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGAAAA AGGTGACTTT 
    GGTCAGCTCT CTGGTCCAGA CCCGCCAGGT GAGGTGGGCA AAAGAACACC TGATGGAGCC 
    TCCCGGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTGTCTCCCC GTTAGCTTCC 
    CCGGATCCTC GAACCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCACCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCTCCTAGAA 
    CGCCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC CACCTCCTCC GAAAGGCTTC ACTCCTCCTC CCCTGCGGGA CTCCACTCTG 
    TTAACACCAT CTCACTGTGA CTCAGTGGCA CTTCCACTGG ACACCGTCCC TCAAAGCTTG 
    TCTCCACGTG AGGATTTGGC GGCTTCTGTC CCAGCCATCT CAGGCCTTGG CGGCTCAAAC 
    AGTCAAGTTT CTGCCCTCTC CTGGTCGCAG GAGACTACCA AAACCTGGTG CATCTTCAAC 
    TCGTCAGTCC AGCAAGATCA TCTTTCCCGC CAAAGGGACA CCACAATGTC CCCACTGCTT 
    TTCCAGGCCC AGCCCCTGTC CCATCTGGGG CCTGAGTCCC AACCCTTTAT TTCATCCACA 
    CCCCAATTCC GGCCCACACC TATGGCTCAG GCCGAGGCTC AGGCCCATCT TCAATCCTCT 
    TTCCCAGTCC TATCTCCTGC TTTTCTATCC CCGATGAAGA ACACTGGAGT AGCTTGCCCT 
    GCGTCGCAGA ATAAAGTGCA AGCTCTCTCC TTACCTGAAA CTCAGCACCC TGAAAGGCCT 
    TTGTTGAGGA AACAACTAGA AGGTGGGTTG GCTTTACCCT CTAGGGTCCA AAAATCTCAG 
    GACGTCTTTA GTGTCTCCAC TCCTAACCTT CCCCAGGAAA GACTGACATC CATTCTGCCT 
    GAGAACTTTC CAGTCAGTCC TGAACTCTGG AGACAACTGG AGCAATACAT GGGGCAACGT 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCAGG ATGAATTGCC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG GCCCTGGCAG TCCTCCACGT CCACAGGTGA AAGCAGCAAG 
    GAGGCACAGA CGGTGAAGTT CCAGCTAGAG AGGGACCCAT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GGCATGGAAA GCTTCCCAGG GAAGGTTCTG 
    GGGGCGACCT CTGAGGAGTC AGAAAGGAAC CTGAGGAAGC CCTTGAGGAG TGACTCAGGA 
    AGTGATTTAT TAAGACGCAC AGAGAGGAAT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGAAAGT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGAGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTTT TCCCGTATCC AACACCCACG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTAGGAAAGC CTGTGTAAAC ACAGCCCAGG TGCTTTCCTT CCTTGAGCTG 
    TGTACTCAGC AGGTGCTGGA AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTCAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTATAC AGCTTGCTGG TCCCTCCTCA GACACCTGCG AATCTGGGGC TGGCTCAAAA 
    GTTGAGGTGG CCACGCTCCT TGGAGAGCCA CCAATGGCAA GTCTGAGAAA GCAAGTGCTG 
    ACCAAACCAT CTGTTCACAT GCCAGAGAGG CTTCAGGCCT CCTCACCTGC ATGTAAGCAG 
    TTCCAGAGGG CCCCGCGAGG GATCCCATCT TCAAATGATC ATGGGTCCTT GAAGGCTCCT 
    ACAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CATACAGCCT CAAAGGCAGC 
    ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAGGG CTGGAGAGAC CAGGGAGGCA 
    GTGCCACAAC CCACAGTCCC CTTGGGAACC TGTATGAGAG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC GTGGTTTCAA GGCTCCAGGC GCCAGCAAAA GCTCTCTACT CCCTAGAATG 
    TCTGTCTCCC AAGACCCAAG AAAGCTGTGT CTCATGGAGG AGGCTGTTAG TGAATTTGAG 
    CCTGGAATGG CCACGAAGTC AGAGACCCAG CCTCAAGTTT CTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAT GCTTCAGAGA ATTTGGCTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAC GCCTACTGGG AACATGCAGG CTTCCCAGGA GCTATGTGAC 
    CTCATGTCAG CCAGAAGGAG TAACATGGGG CACAAGGAGC CCAGGAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG CCCAATGTTT CCCCCTACTC ACAAGAGGGA GAACTCTAGG 
    AAGCCCAACT TAGAAAAACA TGAAGAAATG TTTCAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGGCAGAA AAACAGAAGA CACCCGTCAG AATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAATAAG CCACTTTGGA GAAAACATCA AGCAATTTTT TGAGACGATT 
    TTTTCAAAGA AAGAAAGGAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAT GCGTGTACGG CAGCAGTGCT GAAGCTGAGA GGCTCATGAC AGCAGTTGGA 
    CAGATACCGG AGGAGAACAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CAAAGACAGC AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG ACACCCGTTC 
    TACTCAGACC ACAGCAGAAT GCTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AACCAGAGTC GTCCCAACAG AGACAGACAA ATCAGAGATC AGCAGCCCTT GAAAAGTGTC 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAC TCTTGCTCCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACCGG CCGAAGACAC CCAGTGCCTC CAGCCACCAT 
    CACCACTGA

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

    RefSeq XP_011517003.1
    CDS626..4234
    Translation

    Target ORF information:

    RefSeq Version XM_011518701.2
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily C member 1 (SPATA31C1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518701.2

    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
    ATGCCCAGAG CTCAGTTGCT AGAAAGCAAT GCGCCTATTC ACATGGAGAA TCTTCCCTTT 
    CCTCTAAAAT TACTTAGTGC CTCATCACTA AACACCCCCA GCTCCACACC ATGGGTGTTG 
    GATATCTTCC TCACCTTGGT GTTTGCCCTG GGGCTCTTCT TCCTATTACT CCCCTACTTC 
    TCTTACCTCC GTTGTGACAA CCCACCCTCA CCATCGCCTA GGAAGAGAAA GCGTCATCTT 
    GTCTCCCAGC GTCATCTTGT CTCCCAGTGT CCAACAGGGC GGAGGGGGAG GCCCAGAGGC 
    AGGATGAAAA ACCACAGTCT GAGAGCTTGT AGAGAGTGCC CGAGAGGCCT GGAGGAGACT 
    TGGGACCTGC TTTCACAACT GCAGAGCCTC CTGGGGCCAC ACCTTGAAAA AGGTGACTTT 
    GGTCAGCTCT CTGGTCCAGA CCCGCCAGGT GAGGTGGGCA AAAGAACACC TGATGGAGCC 
    TCCCGGTCCT CTCATGAGCC TATGGAAGAT GCTGCTCCCA TTGTCTCCCC GTTAGCTTCC 
    CCGGATCCTC GAACCAAGCA TCCTCAGGAT CTGGCCTCCA CCCCACCACC AGGCCCAATG 
    ACCACCTCAG TCTCCTCCCT AAGTGCCTCC CAGCCACCAG AACCTTCCCT TCTCCTAGAA 
    CGCCCCTCAC CCGAGCCACC TGCACTTTTC CCTCACCCAC CACACACCCC TGATCCTCTG 
    GCCTGCTCTC CACCTCCTCC GAAAGGCTTC ACTCCTCCTC CCCTGCGGGA CTCCACTCTG 
    TTAACACCAT CTCACTGTGA CTCAGTGGCA CTTCCACTGG ACACCGTCCC TCAAAGCTTG 
    TCTCCACGTG AGGATTTGGC GGCTTCTGTC CCAGCCATCT CAGGCCTTGG CGGCTCAAAC 
    AGTCAAGTTT CTGCCCTCTC CTGGTCGCAG GAGACTACCA AAACCTGGTG CATCTTCAAC 
    TCGTCAGTCC AGCAAGATCA TCTTTCCCGC CAAAGGGACA CCACAATGTC CCCACTGCTT 
    TTCCAGGCCC AGCCCCTGTC CCATCTGGGG CCTGAGTCCC AACCCTTTAT TTCATCCACA 
    CCCCAATTCC GGCCCACACC TATGGCTCAG GCCGAGGCTC AGGCCCATCT TCAATCCTCT 
    TTCCCAGTCC TATCTCCTGC TTTTCTATCC CCGATGAAGA ACACTGGAGT AGCTTGCCCT 
    GCGTCGCAGA ATAAAGTGCA AGCTCTCTCC TTACCTGAAA CTCAGCACCC TGAAAGGCCT 
    TTGTTGAGGA AACAACTAGA AGGTGGGTTG GCTTTACCCT CTAGGGTCCA AAAATCTCAG 
    GACGTCTTTA GTGTCTCCAC TCCTAACCTT CCCCAGGAAA GACTGACATC CATTCTGCCT 
    GAGAACTTTC CAGTCAGTCC TGAACTCTGG AGACAACTGG AGCAATACAT GGGGCAACGT 
    GGAAGGATCC AAGAGTCTCT GGATCTGATG CAGCTTCAGG ATGAATTGCC AGGGACAAGT 
    CAGGCCAAGG GCAAACCCAG GCCCTGGCAG TCCTCCACGT CCACAGGTGA AAGCAGCAAG 
    GAGGCACAGA CGGTGAAGTT CCAGCTAGAG AGGGACCCAT GCCCACATCT GGGGCAAATT 
    CTGGGTGAGA CCCCACAAAA TCTATCCAGG GGCATGGAAA GCTTCCCAGG GAAGGTTCTG 
    GGGGCGACCT CTGAGGAGTC AGAAAGGAAC CTGAGGAAGC CCTTGAGGAG TGACTCAGGA 
    AGTGATTTAT TAAGACGCAC AGAGAGGAAT CATATAGAAA ACATCCTGAA AGCCCACATG 
    GGCAGAAAGT TGGGCCAGAC CAACGAGGGC TTGATCCCCG TGAGTGTGCG TCGATCCTGG 
    CTTGCTGTCA ACCAGGCTTT TCCCGTATCC AACACCCACG TGAAAACCAG CAATCTAGCA 
    GCCCCGAAAA GTAGGAAAGC CTGTGTAAAC ACAGCCCAGG TGCTTTCCTT CCTTGAGCTG 
    TGTACTCAGC AGGTGCTGGA AGCCCATATT GTGAGGTTTT GGGCCAAACA CAGGTGGGGT 
    CTACCCCTCA GGGTCCTCAA GCCCATTCAG TGCTTTCAAC TGGAAAAGGT TTCATCCTTG 
    TCCCTTATAC AGCTTGCTGG TCCCTCCTCA GACACCTGCG AATCTGGGGC TGGCTCAAAA 
    GTTGAGGTGG CCACGCTCCT TGGAGAGCCA CCAATGGCAA GTCTGAGAAA GCAAGTGCTG 
    ACCAAACCAT CTGTTCACAT GCCAGAGAGG CTTCAGGCCT CCTCACCTGC ATGTAAGCAG 
    TTCCAGAGGG CCCCGCGAGG GATCCCATCT TCAAATGATC ATGGGTCCTT GAAGGCTCCT 
    ACAGCTGGAC AGGAGGGCAG GTGGCCATCT AAGCCCCTCA CATACAGCCT CAAAGGCAGC 
    ACCCAGCAGA GCAGGAGCTT AGGAGCCCAA TCTTCAAGGG CTGGAGAGAC CAGGGAGGCA 
    GTGCCACAAC CCACAGTCCC CTTGGGAACC TGTATGAGAG CAAACCTCCA AGCCACAAGT 
    GAGGATGTGC GTGGTTTCAA GGCTCCAGGC GCCAGCAAAA GCTCTCTACT CCCTAGAATG 
    TCTGTCTCCC AAGACCCAAG AAAGCTGTGT CTCATGGAGG AGGCTGTTAG TGAATTTGAG 
    CCTGGAATGG CCACGAAGTC AGAGACCCAG CCTCAAGTTT CTGCCGCTGT TGTGCTCCTT 
    CCAGATGGGC AAGCATCTGT TGTGCCCCAT GCTTCAGAGA ATTTGGCTTC TCAAGTGCCC 
    CAGGGCCATC TCCAGAGCAC GCCTACTGGG AACATGCAGG CTTCCCAGGA GCTATGTGAC 
    CTCATGTCAG CCAGAAGGAG TAACATGGGG CACAAGGAGC CCAGGAACCC AAACTGTCAA 
    GGCTCATGCA AGAGCCAAAG CCCAATGTTT CCCCCTACTC ACAAGAGGGA GAACTCTAGG 
    AAGCCCAACT TAGAAAAACA TGAAGAAATG TTTCAAGGAT TGAGGACTCC TCAACTTACC 
    CCAGGCAGAA AAACAGAAGA CACCCGTCAG AATGAAGGCG TCCAGCTACT GCCATCAAAG 
    AAACAGCCTC CTTCAATAAG CCACTTTGGA GAAAACATCA AGCAATTTTT TGAGACGATT 
    TTTTCAAAGA AAGAAAGGAA GCCAGCACCA GTCACTGCTG AGAGCCAAAA AACAGTAAAA 
    AACAGATCAT GCGTGTACGG CAGCAGTGCT GAAGCTGAGA GGCTCATGAC AGCAGTTGGA 
    CAGATACCGG AGGAGAACAT GTCACTTTGC CATGCGCGCC ATGCCTCGAA GGTAAATCAG 
    CAAAGACAGC AGTTTCAAGC CCCAGTCTGT GGGTTTCCCT GCAACCACAG ACACCCGTTC 
    TACTCAGACC ACAGCAGAAT GCTGAGCTAT GCAGCCAGCA GTCAACAAGC CACTCTCAAG 
    AACCAGAGTC GTCCCAACAG AGACAGACAA ATCAGAGATC AGCAGCCCTT GAAAAGTGTC 
    CGGTGCAACA ATGAGCAATG GGGCCTGCGA CATCCCCAAC TCTTGCTCCC CAAGAAAGCT 
    GTATCCCCAG TCAGTCCCCC TCAGCACCGG CCGAAGACAC CCAGTGCCTC CAGCCACCAT 
    CACCACTGA

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

    SPATA31C1 ( XM_011518703.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011517005.1 Homo sapiens SPATA31 subfamily C, member 1 (SPATA31C1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu80343
    Clone ID Related Accession (Same CDS sequence) XM_011518703.1
    Accession Version XM_011518703.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3516bp)
    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 31C1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGAGTGGGA GGGGAGAAAG CACACAGAGC TCCCTGAGCA AGACAGACAG AGCCATGCGG 
    TTCATGAGTG CAGCGTGCTG CGGCTGGGGG CAGAGAGGGA GAGCCGGTCC TAGCTCCTCG 
    CCATTTCTTG TCTCCCAGCG TCATCTTGTC TCCCAGCGTC ATCTTGTCTC CCAGTGTCCA 
    ACAGGGCGGA GGGGGAGGCC CAGAGGCAGG ATGAAAAACC ACAGTCTGAG AGCTTGTAGA 
    GAGTGCCCGA GAGGCCTGGA GGAGACTTGG GACCTGCTTT CACAACTGCA GAGCCTCCTG 
    GGGCCACACC TTGAAAAAGG TGACTTTGGT CAGCTCTCTG GTCCAGACCC GCCAGGTGAG 
    GTGGGCAAAA GAACACCTGA TGGAGCCTCC CGGTCCTCTC ATGAGCCTAT GGAAGATGCT 
    GCTCCCATTG TCTCCCCGTT AGCTTCCCCG GATCCTCGAA CCAAGCATCC TCAGGATCTG 
    GCCTCCACCC CACCACCAGG CCCAATGACC ACCTCAGTCT CCTCCCTAAG TGCCTCCCAG 
    CCACCAGAAC CTTCCCTTCT CCTAGAACGC CCCTCACCCG AGCCACCTGC ACTTTTCCCT 
    CACCCACCAC ACACCCCTGA TCCTCTGGCC TGCTCTCCAC CTCCTCCGAA AGGCTTCACT 
    CCTCCTCCCC TGCGGGACTC CACTCTGTTA ACACCATCTC ACTGTGACTC AGTGGCACTT 
    CCACTGGACA CCGTCCCTCA AAGCTTGTCT CCACGTGAGG ATTTGGCGGC TTCTGTCCCA 
    GCCATCTCAG GCCTTGGCGG CTCAAACAGT CAAGTTTCTG CCCTCTCCTG GTCGCAGGAG 
    ACTACCAAAA CCTGGTGCAT CTTCAACTCG TCAGTCCAGC AAGATCATCT TTCCCGCCAA 
    AGGGACACCA CAATGTCCCC ACTGCTTTTC CAGGCCCAGC CCCTGTCCCA TCTGGGGCCT 
    GAGTCCCAAC CCTTTATTTC ATCCACACCC CAATTCCGGC CCACACCTAT GGCTCAGGCC 
    GAGGCTCAGG CCCATCTTCA ATCCTCTTTC CCAGTCCTAT CTCCTGCTTT TCTATCCCCG 
    ATGAAGAACA CTGGAGTAGC TTGCCCTGCG TCGCAGAATA AAGTGCAAGC TCTCTCCTTA 
    CCTGAAACTC AGCACCCTGA AAGGCCTTTG TTGAGGAAAC AACTAGAAGG TGGGTTGGCT 
    TTACCCTCTA GGGTCCAAAA ATCTCAGGAC GTCTTTAGTG TCTCCACTCC TAACCTTCCC 
    CAGGAAAGAC TGACATCCAT TCTGCCTGAG AACTTTCCAG TCAGTCCTGA ACTCTGGAGA 
    CAACTGGAGC AATACATGGG GCAACGTGGA AGGATCCAAG AGTCTCTGGA TCTGATGCAG 
    CTTCAGGATG AATTGCCAGG GACAAGTCAG GCCAAGGGCA AACCCAGGCC CTGGCAGTCC 
    TCCACGTCCA CAGGTGAAAG CAGCAAGGAG GCACAGACGG TGAAGTTCCA GCTAGAGAGG 
    GACCCATGCC CACATCTGGG GCAAATTCTG GGTGAGACCC CACAAAATCT ATCCAGGGGC 
    ATGGAAAGCT TCCCAGGGAA GGTTCTGGGG GCGACCTCTG AGGAGTCAGA AAGGAACCTG 
    AGGAAGCCCT TGAGGAGTGA CTCAGGAAGT GATTTATTAA GACGCACAGA GAGGAATCAT 
    ATAGAAAACA TCCTGAAAGC CCACATGGGC AGAAAGTTGG GCCAGACCAA CGAGGGCTTG 
    ATCCCCGTGA GTGTGCGTCG ATCCTGGCTT GCTGTCAACC AGGCTTTTCC CGTATCCAAC 
    ACCCACGTGA AAACCAGCAA TCTAGCAGCC CCGAAAAGTA GGAAAGCCTG TGTAAACACA 
    GCCCAGGTGC TTTCCTTCCT TGAGCTGTGT ACTCAGCAGG TGCTGGAAGC CCATATTGTG 
    AGGTTTTGGG CCAAACACAG GTGGGGTCTA CCCCTCAGGG TCCTCAAGCC CATTCAGTGC 
    TTTCAACTGG AAAAGGTTTC ATCCTTGTCC CTTATACAGC TTGCTGGTCC CTCCTCAGAC 
    ACCTGCGAAT CTGGGGCTGG CTCAAAAGTT GAGGTGGCCA CGCTCCTTGG AGAGCCACCA 
    ATGGCAAGTC TGAGAAAGCA AGTGCTGACC AAACCATCTG TTCACATGCC AGAGAGGCTT 
    CAGGCCTCCT CACCTGCATG TAAGCAGTTC CAGAGGGCCC CGCGAGGGAT CCCATCTTCA 
    AATGATCATG GGTCCTTGAA GGCTCCTACA GCTGGACAGG AGGGCAGGTG GCCATCTAAG 
    CCCCTCACAT ACAGCCTCAA AGGCAGCACC CAGCAGAGCA GGAGCTTAGG AGCCCAATCT 
    TCAAGGGCTG GAGAGACCAG GGAGGCAGTG CCACAACCCA CAGTCCCCTT GGGAACCTGT 
    ATGAGAGCAA ACCTCCAAGC CACAAGTGAG GATGTGCGTG GTTTCAAGGC TCCAGGCGCC 
    AGCAAAAGCT CTCTACTCCC TAGAATGTCT GTCTCCCAAG ACCCAAGAAA GCTGTGTCTC 
    ATGGAGGAGG CTGTTAGTGA ATTTGAGCCT GGAATGGCCA CGAAGTCAGA GACCCAGCCT 
    CAAGTTTCTG CCGCTGTTGT GCTCCTTCCA GATGGGCAAG CATCTGTTGT GCCCCATGCT 
    TCAGAGAATT TGGCTTCTCA AGTGCCCCAG GGCCATCTCC AGAGCACGCC TACTGGGAAC 
    ATGCAGGCTT CCCAGGAGCT ATGTGACCTC ATGTCAGCCA GAAGGAGTAA CATGGGGCAC 
    AAGGAGCCCA GGAACCCAAA CTGTCAAGGC TCATGCAAGA GCCAAAGCCC AATGTTTCCC 
    CCTACTCACA AGAGGGAGAA CTCTAGGAAG CCCAACTTAG AAAAACATGA AGAAATGTTT 
    CAAGGATTGA GGACTCCTCA ACTTACCCCA GGCAGAAAAA CAGAAGACAC CCGTCAGAAT 
    GAAGGCGTCC AGCTACTGCC ATCAAAGAAA CAGCCTCCTT CAATAAGCCA CTTTGGAGAA 
    AACATCAAGC AATTTTTTGA GACGATTTTT TCAAAGAAAG AAAGGAAGCC AGCACCAGTC 
    ACTGCTGAGA GCCAAAAAAC AGTAAAAAAC AGATCATGCG TGTACGGCAG CAGTGCTGAA 
    GCTGAGAGGC TCATGACAGC AGTTGGACAG ATACCGGAGG AGAACATGTC ACTTTGCCAT 
    GCGCGCCATG CCTCGAAGGT AAATCAGCAA AGACAGCAGT TTCAAGCCCC AGTCTGTGGG 
    TTTCCCTGCA ACCACAGACA CCCGTTCTAC TCAGACCACA GCAGAATGCT GAGCTATGCA 
    GCCAGCAGTC AACAAGCCAC TCTCAAGAAC CAGAGTCGTC CCAACAGAGA CAGACAAATC 
    AGAGATCAGC AGCCCTTGAA AAGTGTCCGG TGCAACAATG AGCAATGGGG CCTGCGACAT 
    CCCCAACTCT TGCTCCCCAA GAAAGCTGTA TCCCCAGTCA GTCCCCCTCA GCACCGGCCG 
    AAGACACCCA GTGCCTCCAG CCACCATCAC CACTGA

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

    RefSeq XP_011517005.1
    CDS518..4033
    Translation

    Target ORF information:

    RefSeq Version XM_011518703.1
    Organism Homo sapiens(human)
    Definition Homo sapiens SPATA31 subfamily C, member 1 (SPATA31C1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011518703.1

    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
    ATGAGTGGGA GGGGAGAAAG CACACAGAGC TCCCTGAGCA AGACAGACAG AGCCATGCGG 
    TTCATGAGTG CAGCGTGCTG CGGCTGGGGG CAGAGAGGGA GAGCCGGTCC TAGCTCCTCG 
    CCATTTCTTG TCTCCCAGCG TCATCTTGTC TCCCAGCGTC ATCTTGTCTC CCAGTGTCCA 
    ACAGGGCGGA GGGGGAGGCC CAGAGGCAGG ATGAAAAACC ACAGTCTGAG AGCTTGTAGA 
    GAGTGCCCGA GAGGCCTGGA GGAGACTTGG GACCTGCTTT CACAACTGCA GAGCCTCCTG 
    GGGCCACACC TTGAAAAAGG TGACTTTGGT CAGCTCTCTG GTCCAGACCC GCCAGGTGAG 
    GTGGGCAAAA GAACACCTGA TGGAGCCTCC CGGTCCTCTC ATGAGCCTAT GGAAGATGCT 
    GCTCCCATTG TCTCCCCGTT AGCTTCCCCG GATCCTCGAA CCAAGCATCC TCAGGATCTG 
    GCCTCCACCC CACCACCAGG CCCAATGACC ACCTCAGTCT CCTCCCTAAG TGCCTCCCAG 
    CCACCAGAAC CTTCCCTTCT CCTAGAACGC CCCTCACCCG AGCCACCTGC ACTTTTCCCT 
    CACCCACCAC ACACCCCTGA TCCTCTGGCC TGCTCTCCAC CTCCTCCGAA AGGCTTCACT 
    CCTCCTCCCC TGCGGGACTC CACTCTGTTA ACACCATCTC ACTGTGACTC AGTGGCACTT 
    CCACTGGACA CCGTCCCTCA AAGCTTGTCT CCACGTGAGG ATTTGGCGGC TTCTGTCCCA 
    GCCATCTCAG GCCTTGGCGG CTCAAACAGT CAAGTTTCTG CCCTCTCCTG GTCGCAGGAG 
    ACTACCAAAA CCTGGTGCAT CTTCAACTCG TCAGTCCAGC AAGATCATCT TTCCCGCCAA 
    AGGGACACCA CAATGTCCCC ACTGCTTTTC CAGGCCCAGC CCCTGTCCCA TCTGGGGCCT 
    GAGTCCCAAC CCTTTATTTC ATCCACACCC CAATTCCGGC CCACACCTAT GGCTCAGGCC 
    GAGGCTCAGG CCCATCTTCA ATCCTCTTTC CCAGTCCTAT CTCCTGCTTT TCTATCCCCG 
    ATGAAGAACA CTGGAGTAGC TTGCCCTGCG TCGCAGAATA AAGTGCAAGC TCTCTCCTTA 
    CCTGAAACTC AGCACCCTGA AAGGCCTTTG TTGAGGAAAC AACTAGAAGG TGGGTTGGCT 
    TTACCCTCTA GGGTCCAAAA ATCTCAGGAC GTCTTTAGTG TCTCCACTCC TAACCTTCCC 
    CAGGAAAGAC TGACATCCAT TCTGCCTGAG AACTTTCCAG TCAGTCCTGA ACTCTGGAGA 
    CAACTGGAGC AATACATGGG GCAACGTGGA AGGATCCAAG AGTCTCTGGA TCTGATGCAG 
    CTTCAGGATG AATTGCCAGG GACAAGTCAG GCCAAGGGCA AACCCAGGCC CTGGCAGTCC 
    TCCACGTCCA CAGGTGAAAG CAGCAAGGAG GCACAGACGG TGAAGTTCCA GCTAGAGAGG 
    GACCCATGCC CACATCTGGG GCAAATTCTG GGTGAGACCC CACAAAATCT ATCCAGGGGC 
    ATGGAAAGCT TCCCAGGGAA GGTTCTGGGG GCGACCTCTG AGGAGTCAGA AAGGAACCTG 
    AGGAAGCCCT TGAGGAGTGA CTCAGGAAGT GATTTATTAA GACGCACAGA GAGGAATCAT 
    ATAGAAAACA TCCTGAAAGC CCACATGGGC AGAAAGTTGG GCCAGACCAA CGAGGGCTTG 
    ATCCCCGTGA GTGTGCGTCG ATCCTGGCTT GCTGTCAACC AGGCTTTTCC CGTATCCAAC 
    ACCCACGTGA AAACCAGCAA TCTAGCAGCC CCGAAAAGTA GGAAAGCCTG TGTAAACACA 
    GCCCAGGTGC TTTCCTTCCT TGAGCTGTGT ACTCAGCAGG TGCTGGAAGC CCATATTGTG 
    AGGTTTTGGG CCAAACACAG GTGGGGTCTA CCCCTCAGGG TCCTCAAGCC CATTCAGTGC 
    TTTCAACTGG AAAAGGTTTC ATCCTTGTCC CTTATACAGC TTGCTGGTCC CTCCTCAGAC 
    ACCTGCGAAT CTGGGGCTGG CTCAAAAGTT GAGGTGGCCA CGCTCCTTGG AGAGCCACCA 
    ATGGCAAGTC TGAGAAAGCA AGTGCTGACC AAACCATCTG TTCACATGCC AGAGAGGCTT 
    CAGGCCTCCT CACCTGCATG TAAGCAGTTC CAGAGGGCCC CGCGAGGGAT CCCATCTTCA 
    AATGATCATG GGTCCTTGAA GGCTCCTACA GCTGGACAGG AGGGCAGGTG GCCATCTAAG 
    CCCCTCACAT ACAGCCTCAA AGGCAGCACC CAGCAGAGCA GGAGCTTAGG AGCCCAATCT 
    TCAAGGGCTG GAGAGACCAG GGAGGCAGTG CCACAACCCA CAGTCCCCTT GGGAACCTGT 
    ATGAGAGCAA ACCTCCAAGC CACAAGTGAG GATGTGCGTG GTTTCAAGGC TCCAGGCGCC 
    AGCAAAAGCT CTCTACTCCC TAGAATGTCT GTCTCCCAAG ACCCAAGAAA GCTGTGTCTC 
    ATGGAGGAGG CTGTTAGTGA ATTTGAGCCT GGAATGGCCA CGAAGTCAGA GACCCAGCCT 
    CAAGTTTCTG CCGCTGTTGT GCTCCTTCCA GATGGGCAAG CATCTGTTGT GCCCCATGCT 
    TCAGAGAATT TGGCTTCTCA AGTGCCCCAG GGCCATCTCC AGAGCACGCC TACTGGGAAC 
    ATGCAGGCTT CCCAGGAGCT ATGTGACCTC ATGTCAGCCA GAAGGAGTAA CATGGGGCAC 
    AAGGAGCCCA GGAACCCAAA CTGTCAAGGC TCATGCAAGA GCCAAAGCCC AATGTTTCCC 
    CCTACTCACA AGAGGGAGAA CTCTAGGAAG CCCAACTTAG AAAAACATGA AGAAATGTTT 
    CAAGGATTGA GGACTCCTCA ACTTACCCCA GGCAGAAAAA CAGAAGACAC CCGTCAGAAT 
    GAAGGCGTCC AGCTACTGCC ATCAAAGAAA CAGCCTCCTT CAATAAGCCA CTTTGGAGAA 
    AACATCAAGC AATTTTTTGA GACGATTTTT TCAAAGAAAG AAAGGAAGCC AGCACCAGTC 
    ACTGCTGAGA GCCAAAAAAC AGTAAAAAAC AGATCATGCG TGTACGGCAG CAGTGCTGAA 
    GCTGAGAGGC TCATGACAGC AGTTGGACAG ATACCGGAGG AGAACATGTC ACTTTGCCAT 
    GCGCGCCATG CCTCGAAGGT AAATCAGCAA AGACAGCAGT TTCAAGCCCC AGTCTGTGGG 
    TTTCCCTGCA ACCACAGACA CCCGTTCTAC TCAGACCACA GCAGAATGCT GAGCTATGCA 
    GCCAGCAGTC AACAAGCCAC TCTCAAGAAC CAGAGTCGTC CCAACAGAGA CAGACAAATC 
    AGAGATCAGC AGCCCTTGAA AAGTGTCCGG TGCAACAATG AGCAATGGGG CCTGCGACAT 
    CCCCAACTCT TGCTCCCCAA GAAAGCTGTA TCCCCAGTCA GTCCCCCTCA GCACCGGCCG 
    AAGACACCCA GTGCCTCCAG CCACCATCAC CACTGA

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

  • PubMed

    Diversification of transcriptional modulation: large-scale identification and characterization of putative alternative promoters of human genes.
    Genome research16(1)55-65(2006 Jan)
    Kimura K,Wakamatsu A,Suzuki Y,Ota T,Nishikawa T,Yamashita R,Yamamoto J,Sekine M,Tsuritani K,Wakaguri H,Ishii S,Sugiyama T,Saito K,Isono Y,Irie R,Kushida N,Yoneyama T,Otsuka R,Kanda K,Yokoi T,Kondo H,Wagatsuma M,Murakawa K,Ishida S,Ishibashi T,Takahashi-Fujii A,Tanase T,Nagai K,Kikuchi H,Nakai K,Isogai T,Sugano S


    Complete sequencing and characterization of 21,243 full-length human cDNAs.
    Nature genetics36(1)40-5(2004 Jan)
    Ota T,Suzuki Y,Nishikawa T,Otsuki T,Sugiyama T,Irie R,Wakamatsu A,Hayashi K,Sato H,Nagai K,Kimura K,Makita H,Sekine M,Obayashi M,Nishi T,Shibahara T,Tanaka T,Ishii S,Yamamoto J,Saito K,Kawai Y,Isono Y,Nakamura Y,Nagahari K,Murakami K,Yasuda T,Iwayanagi T,Wagatsuma M,Shiratori A,Sudo H,Hosoiri T,Kaku Y,Kodaira H,Kondo H,Sugawara M,Takahashi M,Kanda K,Yokoi T,Furuya T,Kikkawa E,Omura Y,Abe K,Kamihara K,Katsuta N,Sato K,Tanikawa M,Yamazaki M,Ninomiya K,Ishibashi T,Yamashita H,Murakawa K,Fujimori K,Tanai H,Kimata M,Watanabe M,Hiraoka S,Chiba Y,Ishida S,Ono Y,Takiguchi S,Watanabe S,Yosida M,Hotuta T,Kusano J,Kanehori K,Takahashi-Fujii A,Hara H,Tanase TO,Nomura Y,Togiya S,Komai F,Hara R,Takeuchi K,Arita M,Imose N,Musashino K,Yuuki H,Oshima A,Sasaki N,Aotsuka S,Yoshikawa Y,Matsunawa H,Ichihara T,Shiohata N,Sano S,Moriya S,Momiyama H,Satoh N,Takami S,Terashima Y,Suzuki O,Nakagawa S,Senoh A,Mizoguchi H,Goto Y,Shimizu F,Wakebe H,Hishigaki H,Watanabe T,Sugiyama A,Takemoto M,Kawakami B,Yamazaki M,Watanabe K,Kumagai A,Itakura S,Fukuzumi Y,Fujimori Y,Komiyama M,Tashiro H,Tanigami A,Fujiwara T,Ono T,Yamada K,Fujii Y,Ozaki K,Hirao M,Ohmori Y,Kawabata A,Hikiji T,Kobatake N,Inagaki H,Ikema Y,Okamoto S,Okitani R,Kawakami T,Noguchi S,Itoh T,Shigeta K,Senba T,Matsumura K,Nakajima Y,Mizuno T,Morinaga M,Sasaki M,Togashi T,Oyama M,Hata H,Watanabe M,Komatsu T,Mizushima-Sugano J,Satoh T,Shirai Y,Takahashi Y,Nakagawa K,Okumura K,Nagase T,Nomura N,Kikuchi H,Masuho Y,Yamashita R,Nakai K,Yada T,Nakamura Y,Ohara O,Isogai T,Sugano S


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