ORF » Species Summary » Danio rerio » spata13 cDNA ORF clone

spata13 cDNA ORF clone, Danio rerio(zebrafish)

The following spata13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the spata13 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
ODa28600 XM_021473778.1
Latest version!		 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa28600 XM_005162741.4
Latest version!		 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa28601 XM_691753.9
Latest version!		 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa28601 XM_021473779.1
Latest version!		 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa28601 XM_691753.8 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa28600 XM_005162741.3 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    spata13 ( XM_021473778.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021329453.1 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa28600
    Clone ID Related Accession (Same CDS sequence) XM_021473778.1 , XM_005162741.3 , XM_005162741.4
    Accession Version XM_021473778.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3756bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product spermatogenesis-associated protein 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395172.1) 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 :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    RefSeq XP_021329453.1
    CDS449..4204
    Translation

    Target ORF information:

    RefSeq Version XM_021473778.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021473778.1

    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
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    spata13 ( XM_005162741.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162798.1 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa28600
    Clone ID Related Accession (Same CDS sequence) XM_021473778.1 , XM_005162741.3 , XM_005162741.4
    Accession Version XM_005162741.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3756bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product spermatogenesis-associated protein 13 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005162741.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    RefSeq XP_005162798.1
    CDS448..4203
    Translation

    Target ORF information:

    RefSeq Version XM_005162741.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162741.3

    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
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    spata13 ( XM_005162741.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005162798.1 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa28600
    Clone ID Related Accession (Same CDS sequence) XM_021473778.1 , XM_005162741.3 , XM_005162741.4
    Accession Version XM_005162741.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3756bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product spermatogenesis-associated protein 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005162741.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    RefSeq XP_005162798.1
    CDS449..4204
    Translation

    Target ORF information:

    RefSeq Version XM_005162741.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005162741.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGATAAAGG CAACTTCGTC AGACCTGCAG GGTTCCTCTC ATAGCAATGA CCCACAAAGT 
    GACCCTTTCA CTGAGGACCA ACTGATGAAT CCAAGTCTGA GGTCTGGTTG TAGAGTCCAG 
    GTGCAACCGG TTTTATCCGA GCCTTGCTAT GAAGAAAACC GGCTAAACCG ACTAAAATCT 
    CATGCCCAGT CTGTTCCTGT GATTGCCGAT GGCCAGGCCA AGCTATACCC ATCCAGGACA 
    GTTCGTCTGT TTCCCACACA GGCAAAATCT GAGGATGGTG CTTCACAAAG AGGTCCACCT 
    GTCACACCAC AGGCTTGGTC TGGATTGGCT GGCTTTCGTG TCATGGGTTC TTTTAAAAAA 
    CTGCGGACTT CAGTTCTCCA AGGAATTCAG AACAGGAGCA ATGCCATGGG AGCCAGTCAG 
    GAGAGAAACT TATCCTCGGT GATTGAAGAT AGTAGTAGTT TTTTGGTAAC CAAACGAGAG 
    ATTTCCATCA GTCAAACCCA CGAAACTGAA AAAGTGTTAA ATGGGACATC TCGAACCAGA 
    AAGACATCTT CGGTTTCAGA TGAGGATGAT TGTGAGGAGG TGTGTGGGTT TCAGAGGAAT 
    TCACACTTTT CTCAGAGTAT CCGCAAGGCT TATGGGGCAG GACGGATATC AATGCTTGAC 
    ATGGTCAACA AACAGAGCCT GTCTACTGCT GAGCCAGACC CCGTCAACAC TGTGGAATCC 
    ACAGAACCTT GCAATAACCA AGACACTCAA GGAAATGTCA AGGTTCTCAA AAGACTAAGC 
    AAAAGCGCAG ATAATCTCCA CGTTTTTAAG ACTCATTTTA GACGCAAAGT TGCCACAGCT 
    GAGCCACAAA ACCCAGAATG TTCCAGCACT GTAATGCTTC AGAGGACCTC CAGCTCCTCA 
    TCGGTTGACT TGCAGGAACA TGTTTTAGGT AGCCATCAAA GCCCCATGAG AACACGAGGA 
    CATTTGCAAA AGCTTGTCGG TAGTTTAACT GACCTCACAG TCAAGCGCAA AAACATTGCA 
    AGCCCTTCTC CAAGAGTGCC AGTGTCACCC CTTAGTCAGC TACATGACGA CTACTCGCGC 
    AGAACTCCTT GTGTCCCCAC TAGCGGGCGC CAACGTAGGC CTTCGCCTGT ACCCACCAAA 
    ACCCAGCAGG ACAGTACTTG CCAAACCATT CCAATTTTAC ACCCTGCTCC CTCTTGTCCT 
    GCAGTCTTTA TCTCTGACCT GGATGACTCT CTGGAGCCTC CTAGCAAAAC CACAGCCCTT 
    ATAAGTGACT ATGTACAGAT GGCCGTGTCC TCATCTGAGC TGCATATTGG TGACTCGGCT 
    TGTCCACCGG AAAAATACTG TGAACCTATG GAGTGCCATC AAAATGGATT AAATGATCAC 
    TACTCTCAAA TTCCCCAGCA GTGCTCAAGC CCTTGTCTGA AGCCAACAGT CAATGGCAAT 
    GATGTTAACT TGCAGTGTTT ATGGACTGAA GAGAGAGAAA CTGATGATCT TGAGGCTTCA 
    TCAGATAACC GCATCACCAG AGCGTTTCTT AAAAGTGATG AGGCCTCGAC CCCTGCTGCT 
    TCACCCATCA CAAACAGCTG CTGCTCAGAA TCTCCATTGG GAACTCCAAC AACACCAAAC 
    TCTCCAGCTT TTGTCAGTGC CTCCCCCACC TCTGTAGTGC CCAGGAAGAG AGCAGGTCGC 
    TCCAAACCCC GTCCAGTGTC CGACTATGGC CAGTTGGCCA GCTCAAAGTT CTGCATCCTC 
    GAGGAGGACA GGGAGTTGGA GAATATGGAC TATACTTCCC AAAAGGACTA CATTAGCAAT 
    GGCAGCTACA TAGAGAGCAG CAGACCTGAG AACGGTCATG TGTGCACTCA GAAAGAAAGC 
    AGAAAAAGAC GTCCAATCTC CGTTATTGGA GGAGTGGATC TGTATTCATC TCAACCTGCC 
    GAGCAGAAGG ATGACACTGA GAGTTTGCCC TCTCCGGTTT GTCGTCCTCC AGTGCCCTCT 
    CACAGGGTGC CTCCATACCG AGCAGTTTCT GCCCGTCTGA GACCCTGCGT CTTCTCCCAA 
    AGCACACCGA TTGGCCTGGA TCGGATGGGG CGTCGCAAAG GGCGCAGAGT GCTCAGTGAC 
    GGCAGCTCTG ATCCAATGCT TGAGGACAGT GTGAGTGAGG AGGATGGCAG CTTTGAAGAA 
    CTGACTGAAG GAACACCATA TCTTCAACCA GAAGTCGATC TTTTTACTCT CAATCAGCAC 
    ATAGAGTCGG GTCGGGCCGT GTATGCAGAG GCTCTGTGGG ACCATGTCAC AATGGAGGAG 
    CAGGAGCTGG CCTTTAAAGC CGGGGAGGTG ATCCGAGTTC TGGATGTTCA GGAGCAGGAC 
    TGGTGGTGGG GGATGGTGGG CGATCGGGAG GCTTGGTTTC CCTCTAGCTT TGTGCGGGTT 
    CGGGTGAATC AAGAGGATTC GAGCAGTGAG AGTGTAGAAA GCACGCCAGA TACAGAGGAG 
    CCCATCCCAT CAGACTCGCA CAAACAAAAC CCTGAGCACC GAAAGCAGAT GAGAGCCAAT 
    GTGGTCAAAG AGATTATGGA CACGGAGCGA GTTTACATCA AACATCTCAA AGATATCTGT 
    GAGGGATATA TTCGTCAATG TAGAAAGCAC CCTGGCATGT TCACAGACAC ACAGCTAAAG 
    ACAATCTTCA GCAACATCGA GGACATCTAC AGGTTCCAGA GGAAGTTTCT GAAGGATTTG 
    GAAAGGAAAT ACAACCCTGA AAATCCTCAT CTAAGTGAGA TAGGCTCCTG CTTCCTTCAA 
    CAGGAGGAAG GTTTCTCCAT ATACTCTGAG TACTGTAACA CACATCCAGT AGCGTGTGCT 
    GAACTGCAGC GACTGATGAA ACAGAGCCGA TATAAACACT TCTTTGAAGC CTGTCGTCTC 
    CTGCAGCAGA TGATTGACAT TTCCATTGCT GGATTCTTGC TCACACCAGT GCAGAAGATT 
    TGTAAATACC CTCTTCAGCT AGGAGAGCTT TTGAAATACA CACCCAAAGA ACACAGTGAC 
    TTTGCAGGGG TGTGTGCGGC ACATAAAGCG ATGAAGAATG TGGCAAGTCT GATAAATGAG 
    AGGAAAAGGC GTCTTGAGAG CATTGACACC ATCGCTCACT GGCAGGTGGC CATCCTGCAC 
    TGGGCGGGTG AGGATGTGTT AGCAAGAAGC TCAGAGCTCA TCCACTCTGG CGAGTTAACT 
    CGGATAGTAC GGCCTGGAAA AACCCAGCAG CGCAGCTACT TTCTGTTTGA CCATCAGCTG 
    GTGTTCTGTA AGAAAGACGT CCTGCGCAGA GACCTGCTGC ACTACCGCGG CCGTATGGAC 
    ACAGATCTGC TGGAGCCGAG TGACCTGCCT GATGGACGGC ACACAGAGCT GGGCCTGCTG 
    AAGAACGCCT TTCTCCTGCG CCATGCGGAG AACCTGAACG TGCTGTGTGT GCTGTGCTGC 
    AAGAAGAGCC AGGATAAGCA GCGATGGCTA CAGGCTTTTG CCCGGGAGCG TAAACGTGTA 
    CAGGAAGACC AAGAGATGGG GATGGAGATT ACTGAAGCCC AGAGGAAGCA AGCAGTTCAT 
    AATGCCAGGA AATCTAAACA CGGCAAAATG AAAAATATGA ATTATTCTGG CCATCCTGCG 
    CCTCCCCACC ATCAGCCTCT TCATCCTCTT CATCAGAGAC ATGTGACTGT GCCAACCAGC 
    GTCCCTCAGC AGCAGGTCTT TACTTTAGCA GAGCCCAAAA AGAAGCCTTC ACACCTGCTG 
    TATTCTCTCG CCCGCAGTGC CCTCTTCAGG AAATGA

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

    spata13 ( XM_021473779.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021329454.1 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa28601
    Clone ID Related Accession (Same CDS sequence) XM_021473779.1 , XM_691753.9 , XM_691753.8
    Accession Version XM_021473779.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3672bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product spermatogenesis-associated protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395172.1) 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 :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

    RefSeq XP_021329454.1
    CDS221..3892
    Translation

    Target ORF information:

    RefSeq Version XM_021473779.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021473779.1

    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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

    spata13 ( XM_691753.9 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_696845.4 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa28601
    Clone ID Related Accession (Same CDS sequence) XM_021473779.1 , XM_691753.9 , XM_691753.8
    Accession Version XM_691753.9 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3672bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product spermatogenesis-associated protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_691753.8. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

    RefSeq XP_696845.4
    CDS221..3892
    Translation

    Target ORF information:

    RefSeq Version XM_691753.9
    Organism Danio rerio(zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_691753.9

    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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

    spata13 ( XM_691753.8 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_696845.4 Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa28601
    Clone ID Related Accession (Same CDS sequence) XM_021473779.1 , XM_691753.9 , XM_691753.8
    Accession Version XM_691753.8 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3672bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product spermatogenesis-associated protein 13 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_691753.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

    RefSeq XP_696845.4
    CDS195..3866
    Translation

    Target ORF information:

    RefSeq Version XM_691753.8
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio spermatogenesis associated 13 (spata13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_691753.8

    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
    ATGAATCCAA GTCTGAGGTC TGGTTGTAGA GTCCAGGTGC AACCGGTTTT ATCCGAGCCT 
    TGCTATGAAG AAAACCGGCT AAACCGACTA AAATCTCATG CCCAGTCTGT TCCTGTGATT 
    GCCGATGGCC AGGCCAAGCT ATACCCATCC AGGACAGTTC GTCTGTTTCC CACACAGGCA 
    AAATCTGAGG ATGGTGCTTC ACAAAGAGGT CCACCTGTCA CACCACAGGC TTGGTCTGGA 
    TTGGCTGGCT TTCGTGTCAT GGGTTCTTTT AAAAAACTGC GGACTTCAGT TCTCCAAGGA 
    ATTCAGAACA GGAGCAATGC CATGGGAGCC AGTCAGGAGA GAAACTTATC CTCGGTGATT 
    GAAGATAGTA GTAGTTTTTT GGTAACCAAA CGAGAGATTT CCATCAGTCA AACCCACGAA 
    ACTGAAAAAG TGTTAAATGG GACATCTCGA ACCAGAAAGA CATCTTCGGT TTCAGATGAG 
    GATGATTGTG AGGAGGTGTG TGGGTTTCAG AGGAATTCAC ACTTTTCTCA GAGTATCCGC 
    AAGGCTTATG GGGCAGGACG GATATCAATG CTTGACATGG TCAACAAACA GAGCCTGTCT 
    ACTGCTGAGC CAGACCCCGT CAACACTGTG GAATCCACAG AACCTTGCAA TAACCAAGAC 
    ACTCAAGGAA ATGTCAAGGT TCTCAAAAGA CTAAGCAAAA GCGCAGATAA TCTCCACGTT 
    TTTAAGACTC ATTTTAGACG CAAAGTTGCC ACAGCTGAGC CACAAAACCC AGAATGTTCC 
    AGCACTGTAA TGCTTCAGAG GACCTCCAGC TCCTCATCGG TTGACTTGCA GGAACATGTT 
    TTAGGTAGCC ATCAAAGCCC CATGAGAACA CGAGGACATT TGCAAAAGCT TGTCGGTAGT 
    TTAACTGACC TCACAGTCAA GCGCAAAAAC ATTGCAAGCC CTTCTCCAAG AGTGCCAGTG 
    TCACCCCTTA GTCAGCTACA TGACGACTAC TCGCGCAGAA CTCCTTGTGT CCCCACTAGC 
    GGGCGCCAAC GTAGGCCTTC GCCTGTACCC ACCAAAACCC AGCAGGACAG TACTTGCCAA 
    ACCATTCCAA TTTTACACCC TGCTCCCTCT TGTCCTGCAG TCTTTATCTC TGACCTGGAT 
    GACTCTCTGG AGCCTCCTAG CAAAACCACA GCCCTTATAA GTGACTATGT ACAGATGGCC 
    GTGTCCTCAT CTGAGCTGCA TATTGGTGAC TCGGCTTGTC CACCGGAAAA ATACTGTGAA 
    CCTATGGAGT GCCATCAAAA TGGATTAAAT GATCACTACT CTCAAATTCC CCAGCAGTGC 
    TCAAGCCCTT GTCTGAAGCC AACAGTCAAT GGCAATGATG TTAACTTGCA GTGTTTATGG 
    ACTGAAGAGA GAGAAACTGA TGATCTTGAG GCTTCATCAG ATAACCGCAT CACCAGAGCG 
    TTTCTTAAAA GTGATGAGGC CTCGACCCCT GCTGCTTCAC CCATCACAAA CAGCTGCTGC 
    TCAGAATCTC CATTGGGAAC TCCAACAACA CCAAACTCTC CAGCTTTTGT CAGTGCCTCC 
    CCCACCTCTG TAGTGCCCAG GAAGAGAGCA GGTCGCTCCA AACCCCGTCC AGTGTCCGAC 
    TATGGCCAGT TGGCCAGCTC AAAGTTCTGC ATCCTCGAGG AGGACAGGGA GTTGGAGAAT 
    ATGGACTATA CTTCCCAAAA GGACTACATT AGCAATGGCA GCTACATAGA GAGCAGCAGA 
    CCTGAGAACG GTCATGTGTG CACTCAGAAA GAAAGCAGAA AAAGACGTCC AATCTCCGTT 
    ATTGGAGGAG TGGATCTGTA TTCATCTCAA CCTGCCGAGC AGAAGGATGA CACTGAGAGT 
    TTGCCCTCTC CGGTTTGTCG TCCTCCAGTG CCCTCTCACA GGGTGCCTCC ATACCGAGCA 
    GTTTCTGCCC GTCTGAGACC CTGCGTCTTC TCCCAAAGCA CACCGATTGG CCTGGATCGG 
    ATGGGGCGTC GCAAAGGGCG CAGAGTGCTC AGTGACGGCA GCTCTGATCC AATGCTTGAG 
    GACAGTGTGA GTGAGGAGGA TGGCAGCTTT GAAGAACTGA CTGAAGGAAC ACCATATCTT 
    CAACCAGAAG TCGATCTTTT TACTCTCAAT CAGCACATAG AGTCGGGTCG GGCCGTGTAT 
    GCAGAGGCTC TGTGGGACCA TGTCACAATG GAGGAGCAGG AGCTGGCCTT TAAAGCCGGG 
    GAGGTGATCC GAGTTCTGGA TGTTCAGGAG CAGGACTGGT GGTGGGGGAT GGTGGGCGAT 
    CGGGAGGCTT GGTTTCCCTC TAGCTTTGTG CGGGTTCGGG TGAATCAAGA GGATTCGAGC 
    AGTGAGAGTG TAGAAAGCAC GCCAGATACA GAGGAGCCCA TCCCATCAGA CTCGCACAAA 
    CAAAACCCTG AGCACCGAAA GCAGATGAGA GCCAATGTGG TCAAAGAGAT TATGGACACG 
    GAGCGAGTTT ACATCAAACA TCTCAAAGAT ATCTGTGAGG GATATATTCG TCAATGTAGA 
    AAGCACCCTG GCATGTTCAC AGACACACAG CTAAAGACAA TCTTCAGCAA CATCGAGGAC 
    ATCTACAGGT TCCAGAGGAA GTTTCTGAAG GATTTGGAAA GGAAATACAA CCCTGAAAAT 
    CCTCATCTAA GTGAGATAGG CTCCTGCTTC CTTCAACAGG AGGAAGGTTT CTCCATATAC 
    TCTGAGTACT GTAACACACA TCCAGTAGCG TGTGCTGAAC TGCAGCGACT GATGAAACAG 
    AGCCGATATA AACACTTCTT TGAAGCCTGT CGTCTCCTGC AGCAGATGAT TGACATTTCC 
    ATTGCTGGAT TCTTGCTCAC ACCAGTGCAG AAGATTTGTA AATACCCTCT TCAGCTAGGA 
    GAGCTTTTGA AATACACACC CAAAGAACAC AGTGACTTTG CAGGGGTGTG TGCGGCACAT 
    AAAGCGATGA AGAATGTGGC AAGTCTGATA AATGAGAGGA AAAGGCGTCT TGAGAGCATT 
    GACACCATCG CTCACTGGCA GGTGGCCATC CTGCACTGGG CGGGTGAGGA TGTGTTAGCA 
    AGAAGCTCAG AGCTCATCCA CTCTGGCGAG TTAACTCGGA TAGTACGGCC TGGAAAAACC 
    CAGCAGCGCA GCTACTTTCT GTTTGACCAT CAGCTGGTGT TCTGTAAGAA AGACGTCCTG 
    CGCAGAGACC TGCTGCACTA CCGCGGCCGT ATGGACACAG ATCTGCTGGA GCCGAGTGAC 
    CTGCCTGATG GACGGCACAC AGAGCTGGGC CTGCTGAAGA ACGCCTTTCT CCTGCGCCAT 
    GCGGAGAACC TGAACGTGCT GTGTGTGCTG TGCTGCAAGA AGAGCCAGGA TAAGCAGCGA 
    TGGCTACAGG CTTTTGCCCG GGAGCGTAAA CGTGTACAGG AAGACCAAGA GATGGGGATG 
    GAGATTACTG AAGCCCAGAG GAAGCAAGCA GTTCATAATG CCAGGAAATC TAAACACGGC 
    AAAATGAAAA ATATGAATTA TTCTGGCCAT CCTGCGCCTC CCCACCATCA GCCTCTTCAT 
    CCTCTTCATC AGAGACATGT GACTGTGCCA ACCAGCGTCC CTCAGCAGCA GGTCTTTACT 
    TTAGCAGAGC CCAAAAAGAA GCCTTCACAC CTGCTGTATT CTCTCGCCCG CAGTGCCCTC 
    TTCAGGAAAT GA

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

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