ORF » Species Summary » Pan troglodytes » LOC107976689 cDNA ORF clone

LOC107976689 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following LOC107976689 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107976689 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
OPc109367 XM_016961014.2
Latest version!		 Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OPc89059 XM_016961014.1
Latest version!		 Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00

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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)
    LOC107976689 ( XM_016961014.2 ) cDNA ORF clone, Pan troglodytes(chimpanzee) -> XP_016816503.2 Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA.
    Price & Availability↑
    CloneID OPc109367
    Clone ID Related Accession (Same CDS sequence) XM_016961014.2
    Accession Version XM_016961014.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4764bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product LOW QUALITY PROTEIN: putative spermatogenesis-associated protein 31D3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036888.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016961014.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 4 indels internal stop codons :: corrected 3 genomic stop codons ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTAACTCA 
    CATTGCTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTCGTATT GACCCTGTAT TCGTCACTCA CTGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAGGAGGAAA AGGAAAAGCG TGACATTTAA AGACCGGAAA 
    AGTTTGCAGA AGGAAGCAGA AGAGGAAAGA AAGCTACATT CTATTCTGAA AAGCTTTGGA 
    CCTCCTGTTT CCTGCAGTCC CCTGGGCCAG CATCATGATA CCACCCTCTT TCGTCGACTG 
    TTATGCCCAG ACCCCGTCTG TCGGGTGTGT AACAGAGCAA CTGCTGATAT CCAGCAACTG 
    CTGTCTTGGG AGTCCCTGAA AGATGCTGCT CCCTCTGTGT CCCCTTTGGC TTCTTCAGCT 
    TCTGGGACTG AGTCATCGTT CACTCTGGCT TCCACCCCTT CAGCAACCCC TCCAGAAGAC 
    CTAATATTGT CCCCTCGGCC TAAGCCCTCT CCACCGCCCC CCTTAATTCT CTCACCTGAC 
    CTGATCACCA CCGTAGCTGA CTTATTTTCA CCCTCACCAC TGAGGGACCC TCTGCCACCA 
    CAGCCTGTTT CTCCCTTGGA TTCCAAGTTC CCCATAGGTC ATTCTCCACC CCAACAGCTT 
    CCCTTTCCCC TTCTCCCACC ACATCACATT GAGAGAGTGG AGCCCAGCCT CCAACCTAAG 
    GCCAGTTTGT CTCTGAACAC CATCTTTTCA TTTGGCTCCA CCCTATGCCA AGATATTTCC 
    CAGGCCGTGA ATCGCACTGA TTCATGTGCT CATCGTCATG AACCACCAAC CCCAACTGCT 
    TTACCACCGG AAGATTGCAC TGTGACTCAG TCTAAATCAA ATCTCACCAT CTTGAAGACT 
    TTTCCGGAAA TGTTATCTCT AGGTGGCTCT GGTGGGTCAT CCACCTCTGC CCCAACAATC 
    AAAGGCATTG ACCATTCACA CCCTGCATCT TCAGAATTCT CCTGGTGGCA GCCTCATGCC 
    GAGGACTCTT TTTCCTCCAA TTTTGTGCCA TCTGATTTCA TGGAGGAGCT TCTTACCCTT 
    CATTCTTCTG AGGCCTCTTT AGGGGGGCAC TCTGTGGCCA ACATCATACA GCCTGTTAAC 
    ATCTCTTTTC TCAGCCATGA CATTCTGGCA CTCCTGGAGA GACAAGTCAA AAGAAGGGGT 
    GATTTCCTGA TGTGGAAAGA AAATGGAAAG AAACCAGGAT CTTTCCCAAC ACAACTTAGG 
    CGAAACTACC AACTAAATTC CTCACGGAAT ATGTTAACCT CAGCTGCTGT TAAGCATGAC 
    TTAGCAGAAT CCTTTCCTTT TTGGGCCAGT AAAGGCAAAC TAGAGTGGCA GCACATCCAT 
    CAGCAGGCCC CATATTCTAA GTGTTTTGAG GACCATTTAG AGCAAAAATA TGTCCAGCTC 
    TTCTGGGGTC TCCCATCTTT GCACAGCGAG TCTCTGCATC CTACTGTTCT TGTCCAACGT 
    GGCCATTCCT CCATGTTTGT ATTCTTCAAT GGCATTACAA ATACATCTAT ATCCCATGAA 
    CCCCCAGTAC TTCCCCCTCC CCAACCTCTG TTCTTGCCTA GTACCCAACC ACTACCCTTG 
    CCTCAAACCC TGCCCCGAGG TCAGTCCCTA CATCTCACTC AGGTCCAGTC CCAGGCTCAA 
    CCTCAATGTC CATTCCCAGC CCTACTACCT AGTCCTCTAT TCCTGATTAG GGTGTGTGGA 
    GTGTGTTTTC ATAGACCCCA GAATGAGGCA CGGTCTCTTT TGCCATCTGA AATTAACCAT 
    CTGGAGTGGA ACGTGTTGCA GAAAGTGCAG GAAAGTGTGT GGGGCTTACC CTCTGTGGTT 
    CAAAAATCCC AGGAAGACTT TTGTCCTCCA GCTCCCAATC CTGCATTGGT CAGAAAGTCC 
    TTCAAGGTCC ATGTTCCCAT CTCCATCATT CCTCGAGATT TTCCACTCAG CTCTGAGGTA 
    AGGAAGAAAC TAGAGCAACA CATTCGAAAG AGGCTCATCC AGCGCAGATG GGGCCTGCCC 
    CGCAGAATCC ATGAGTCTCT GTCATTGCTA CGTCCTCAGA GCAAAATTTC AGAGCTATCT 
    GTGTCAGAGA GCAATCATGG TCCGTTAAAT ATCTCTTTGG TTGAGGGTCA GAGGTGCAAT 
    GTTCTAAAGA AGTCCGCATC AAGCTTCCCT AGAAGCTTCC ACGAGAGGAG CTCAAATATG 
    CTTTCCATGG AGAATGTGAG GAATTATCAG GGATACAGCC AGGAGACTGC CCCAAAAGAT 
    CACCTGTTGC ATGATCCGGA GACATCTTCA GACGAGAATC TGAGGTCTAA CTCTGAGAGA 
    GACCTAGAAA CTCATATGAT GCATCTGTCA GGGAATGACT CAGGGGTGAG ACTAGGTCAG 
    AAACAACTTG AAAATGCCCT GACAGTACAT TTGAGCAAGA AATTTGAGGA AATCAATGAG 
    GGTCGAATGC CTGGGACTGT GCATAGTTCA TGGCACTCAG TCAAGCAGAC AATATGCCAA 
    ATTAAACATC AAAATTTGGC AGCATTGGTG AGTGAGGACC ACCGCGTTGA TACCTCCCAG 
    GAGATGTCCT TCCTTCGTTC CAACAAACAA AAGATGTTGG AAGCCCATAT TAAATCTTTC 
    CATATGAAGC CCATATTAAA TCTTTCCATA AGGATGCTGT GGGGCCTTCC CCGCAAGGTC 
    CGTGAATCCA TAGAAATCTT CAAATCGGAA GAGGATCTTT CCAATTCCTT TTCCCTTTTC 
    GACCTTCCCT CCTCAGCCAG CTTTATTTCT CAGGGAGATT CCAAAGATGG GGTCTCTAAG 
    TCTCGTAGAC GAAGCACTTT TCAAGGAGAA AAGTTGGGAA CAACAAGCTC AGTCCCTGTC 
    CTTAATCATC CTCAGCCTGT CTCCTCACCT ATTGGCAAAG AAGGGCAGGG GACCCTGAGA 
    AGACAATTTT CTGATACTGA CCATGACCTT ATAGAGACAG ATGCCAAAGA TGGTGCCTCC 
    ACGCCCCTTA GAAGAGGCAC TACATATTTT CACGGAGAAA AATTAGAAAC AACAAGCTCA 
    TTCTCCATCT TGGGTCATCC TCACCTCGTC ACCTCACCTG TTGATCAAGA AAAGCAGGGG 
    ACCCTCTGAA GAGAATTCGC TGATACTGAC GAGGATCTTA CAGAAAGTGT CTGGACAACT 
    GAGGATGGCA GACAGACTTT TCTGCCCCCG CCCCACAGCA TCATAGACGA AGTCAGTCAG 
    AAACAGACTG TACTTGCCAG TAGATGCAGC GCAGAGCTGC CCATACTGCA AGCTGGAGCT 
    GGCCGTGATT CAAGGGATAA GAGAGAGAGT GCCAGTAATA ATGTTAACAG GCTTCAGGGC 
    AGTAGAAAGA CCTTTCCTGT CACCAATGGG TCGAAGGAGA TGTTCAAGGA AGAGGAGATC 
    TGTACTCTTC AATCACAAAC TAGGAAGAAC TTGACAACCA GCAAGTCAGG AAGCTGCTTA 
    GTGACAAACG TGAAAAGAAG CACTTCTCAT GAAACTGAAA TTTTCCCACC AAGAATACCA 
    GTTCCTCAAA CTCCTAAATC ATCATATCTT AAAAATCAGA TGTTGAGCCA GTTAAAGTTG 
    GTCCAGAGGA AGCATAGCCA ACCTCAGAGC CATTTCACTG GCATGTCTCT TGCCTTAGAT 
    AACTTGAGTT CCAAGGACTT ACTGACTCAT GCCCCAGGCA TCTCAAGTCG GGACAGGGGA 
    ACTTCCCAGG TGCTGCATGT CCCCTTGGAG GACAGAGGGA TCCCTGTGGC ACAGCAGCAG 
    GAGCCCAGGG TCCCTACGCA CGTCTTACAG AAATGCCAAG TTAAGAATTT TTCACCAGCT 
    ACAAAGAGAG TGAGCCCTCT AAGACCTAAT GGAGGAGAGC TTGGTGGAGG GGACGCAGGG 
    TTGGGGACAT CCCAACTCAG AAGAAAGAGC CATGCTATTC ATAACAAGAC ATCAAGGGAG 
    TCACTTGGGA GCAAATCTTC CCCAACCTTG AAAACACAGC CTCCTCCTGA AAACCTTTTC 
    AGAAAATGGA TGAAGACCTT TTTGCAGCAG TCTAATAAAC CCATCATAAC ATATGGAAAA 
    CAAGAAAGTT CCCAGGAAAA GGGTAGCTCC TTGTCATCAT CTGTGCAGAA TAGAGGTTGA 
    GTTAAAAGTA GAGCTGTCTT TACTGGGACT ATTGAAGCTC AGAAAATTAG GAAAGACACT 
    GGGGAGTTCA TAGAAGAGAA GCTGGGGCAT AGGCATTGAA TAGATATCAC CTGTCCCCAG 
    GAGCCCCTTT CCTCCCCAGT GCAGCTTGGG AAAGCTCAGA ATGTGCCAGA ACTGCAGGTC 
    AGAGCAGAGC CTGTCCAGGG CTATCACTGC AACTACATGG CTCCCTCCTG CAAAGTGACA 
    TGTACCAAAT CTTGCAGCCA ACAAGCTATC TTTGTAGGCC AGAATTATCC TGCAATGATT 
    AGACAGATCA TAGGCAAGGA CAGACAGCCC CAGGAAGTTN GGGCATTTAA GGGGAAGATA 
    TTGTGTCAAA GGCATCCCCA ATCCATGCCC CACAGGAAGC CTGTGCCACA GCCAAACCCC 
    ACTTGCAGTN GTGAAGTCAA CCTGGTGCCT CCGGTCATCC TGACCAGTGC TAAAAGTACT 
    GTGTTCAGTG ATGTGCCATT ACTAACTGGA CAGAAAATAC TTCCAAAGCG TTTCCAGGGA 
    GGAAAATTTC CCCCCACAAA ATAA

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

    RefSeq XP_016816503.2
    CDS2370..7133
    Translation

    Target ORF information:

    RefSeq Version XM_016961014.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_016961014.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTAACTCA 
    CATTGCTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTCGTATT GACCCTGTAT TCGTCACTCA CTGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAGGAGGAAA AGGAAAAGCG TGACATTTAA AGACCGGAAA 
    AGTTTGCAGA AGGAAGCAGA AGAGGAAAGA AAGCTACATT CTATTCTGAA AAGCTTTGGA 
    CCTCCTGTTT CCTGCAGTCC CCTGGGCCAG CATCATGATA CCACCCTCTT TCGTCGACTG 
    TTATGCCCAG ACCCCGTCTG TCGGGTGTGT AACAGAGCAA CTGCTGATAT CCAGCAACTG 
    CTGTCTTGGG AGTCCCTGAA AGATGCTGCT CCCTCTGTGT CCCCTTTGGC TTCTTCAGCT 
    TCTGGGACTG AGTCATCGTT CACTCTGGCT TCCACCCCTT CAGCAACCCC TCCAGAAGAC 
    CTAATATTGT CCCCTCGGCC TAAGCCCTCT CCACCGCCCC CCTTAATTCT CTCACCTGAC 
    CTGATCACCA CCGTAGCTGA CTTATTTTCA CCCTCACCAC TGAGGGACCC TCTGCCACCA 
    CAGCCTGTTT CTCCCTTGGA TTCCAAGTTC CCCATAGGTC ATTCTCCACC CCAACAGCTT 
    CCCTTTCCCC TTCTCCCACC ACATCACATT GAGAGAGTGG AGCCCAGCCT CCAACCTAAG 
    GCCAGTTTGT CTCTGAACAC CATCTTTTCA TTTGGCTCCA CCCTATGCCA AGATATTTCC 
    CAGGCCGTGA ATCGCACTGA TTCATGTGCT CATCGTCATG AACCACCAAC CCCAACTGCT 
    TTACCACCGG AAGATTGCAC TGTGACTCAG TCTAAATCAA ATCTCACCAT CTTGAAGACT 
    TTTCCGGAAA TGTTATCTCT AGGTGGCTCT GGTGGGTCAT CCACCTCTGC CCCAACAATC 
    AAAGGCATTG ACCATTCACA CCCTGCATCT TCAGAATTCT CCTGGTGGCA GCCTCATGCC 
    GAGGACTCTT TTTCCTCCAA TTTTGTGCCA TCTGATTTCA TGGAGGAGCT TCTTACCCTT 
    CATTCTTCTG AGGCCTCTTT AGGGGGGCAC TCTGTGGCCA ACATCATACA GCCTGTTAAC 
    ATCTCTTTTC TCAGCCATGA CATTCTGGCA CTCCTGGAGA GACAAGTCAA AAGAAGGGGT 
    GATTTCCTGA TGTGGAAAGA AAATGGAAAG AAACCAGGAT CTTTCCCAAC ACAACTTAGG 
    CGAAACTACC AACTAAATTC CTCACGGAAT ATGTTAACCT CAGCTGCTGT TAAGCATGAC 
    TTAGCAGAAT CCTTTCCTTT TTGGGCCAGT AAAGGCAAAC TAGAGTGGCA GCACATCCAT 
    CAGCAGGCCC CATATTCTAA GTGTTTTGAG GACCATTTAG AGCAAAAATA TGTCCAGCTC 
    TTCTGGGGTC TCCCATCTTT GCACAGCGAG TCTCTGCATC CTACTGTTCT TGTCCAACGT 
    GGCCATTCCT CCATGTTTGT ATTCTTCAAT GGCATTACAA ATACATCTAT ATCCCATGAA 
    CCCCCAGTAC TTCCCCCTCC CCAACCTCTG TTCTTGCCTA GTACCCAACC ACTACCCTTG 
    CCTCAAACCC TGCCCCGAGG TCAGTCCCTA CATCTCACTC AGGTCCAGTC CCAGGCTCAA 
    CCTCAATGTC CATTCCCAGC CCTACTACCT AGTCCTCTAT TCCTGATTAG GGTGTGTGGA 
    GTGTGTTTTC ATAGACCCCA GAATGAGGCA CGGTCTCTTT TGCCATCTGA AATTAACCAT 
    CTGGAGTGGA ACGTGTTGCA GAAAGTGCAG GAAAGTGTGT GGGGCTTACC CTCTGTGGTT 
    CAAAAATCCC AGGAAGACTT TTGTCCTCCA GCTCCCAATC CTGCATTGGT CAGAAAGTCC 
    TTCAAGGTCC ATGTTCCCAT CTCCATCATT CCTCGAGATT TTCCACTCAG CTCTGAGGTA 
    AGGAAGAAAC TAGAGCAACA CATTCGAAAG AGGCTCATCC AGCGCAGATG GGGCCTGCCC 
    CGCAGAATCC ATGAGTCTCT GTCATTGCTA CGTCCTCAGA GCAAAATTTC AGAGCTATCT 
    GTGTCAGAGA GCAATCATGG TCCGTTAAAT ATCTCTTTGG TTGAGGGTCA GAGGTGCAAT 
    GTTCTAAAGA AGTCCGCATC AAGCTTCCCT AGAAGCTTCC ACGAGAGGAG CTCAAATATG 
    CTTTCCATGG AGAATGTGAG GAATTATCAG GGATACAGCC AGGAGACTGC CCCAAAAGAT 
    CACCTGTTGC ATGATCCGGA GACATCTTCA GACGAGAATC TGAGGTCTAA CTCTGAGAGA 
    GACCTAGAAA CTCATATGAT GCATCTGTCA GGGAATGACT CAGGGGTGAG ACTAGGTCAG 
    AAACAACTTG AAAATGCCCT GACAGTACAT TTGAGCAAGA AATTTGAGGA AATCAATGAG 
    GGTCGAATGC CTGGGACTGT GCATAGTTCA TGGCACTCAG TCAAGCAGAC AATATGCCAA 
    ATTAAACATC AAAATTTGGC AGCATTGGTG AGTGAGGACC ACCGCGTTGA TACCTCCCAG 
    GAGATGTCCT TCCTTCGTTC CAACAAACAA AAGATGTTGG AAGCCCATAT TAAATCTTTC 
    CATATGAAGC CCATATTAAA TCTTTCCATA AGGATGCTGT GGGGCCTTCC CCGCAAGGTC 
    CGTGAATCCA TAGAAATCTT CAAATCGGAA GAGGATCTTT CCAATTCCTT TTCCCTTTTC 
    GACCTTCCCT CCTCAGCCAG CTTTATTTCT CAGGGAGATT CCAAAGATGG GGTCTCTAAG 
    TCTCGTAGAC GAAGCACTTT TCAAGGAGAA AAGTTGGGAA CAACAAGCTC AGTCCCTGTC 
    CTTAATCATC CTCAGCCTGT CTCCTCACCT ATTGGCAAAG AAGGGCAGGG GACCCTGAGA 
    AGACAATTTT CTGATACTGA CCATGACCTT ATAGAGACAG ATGCCAAAGA TGGTGCCTCC 
    ACGCCCCTTA GAAGAGGCAC TACATATTTT CACGGAGAAA AATTAGAAAC AACAAGCTCA 
    TTCTCCATCT TGGGTCATCC TCACCTCGTC ACCTCACCTG TTGATCAAGA AAAGCAGGGG 
    ACCCTCTGAA GAGAATTCGC TGATACTGAC GAGGATCTTA CAGAAAGTGT CTGGACAACT 
    GAGGATGGCA GACAGACTTT TCTGCCCCCG CCCCACAGCA TCATAGACGA AGTCAGTCAG 
    AAACAGACTG TACTTGCCAG TAGATGCAGC GCAGAGCTGC CCATACTGCA AGCTGGAGCT 
    GGCCGTGATT CAAGGGATAA GAGAGAGAGT GCCAGTAATA ATGTTAACAG GCTTCAGGGC 
    AGTAGAAAGA CCTTTCCTGT CACCAATGGG TCGAAGGAGA TGTTCAAGGA AGAGGAGATC 
    TGTACTCTTC AATCACAAAC TAGGAAGAAC TTGACAACCA GCAAGTCAGG AAGCTGCTTA 
    GTGACAAACG TGAAAAGAAG CACTTCTCAT GAAACTGAAA TTTTCCCACC AAGAATACCA 
    GTTCCTCAAA CTCCTAAATC ATCATATCTT AAAAATCAGA TGTTGAGCCA GTTAAAGTTG 
    GTCCAGAGGA AGCATAGCCA ACCTCAGAGC CATTTCACTG GCATGTCTCT TGCCTTAGAT 
    AACTTGAGTT CCAAGGACTT ACTGACTCAT GCCCCAGGCA TCTCAAGTCG GGACAGGGGA 
    ACTTCCCAGG TGCTGCATGT CCCCTTGGAG GACAGAGGGA TCCCTGTGGC ACAGCAGCAG 
    GAGCCCAGGG TCCCTACGCA CGTCTTACAG AAATGCCAAG TTAAGAATTT TTCACCAGCT 
    ACAAAGAGAG TGAGCCCTCT AAGACCTAAT GGAGGAGAGC TTGGTGGAGG GGACGCAGGG 
    TTGGGGACAT CCCAACTCAG AAGAAAGAGC CATGCTATTC ATAACAAGAC ATCAAGGGAG 
    TCACTTGGGA GCAAATCTTC CCCAACCTTG AAAACACAGC CTCCTCCTGA AAACCTTTTC 
    AGAAAATGGA TGAAGACCTT TTTGCAGCAG TCTAATAAAC CCATCATAAC ATATGGAAAA 
    CAAGAAAGTT CCCAGGAAAA GGGTAGCTCC TTGTCATCAT CTGTGCAGAA TAGAGGTTGA 
    GTTAAAAGTA GAGCTGTCTT TACTGGGACT ATTGAAGCTC AGAAAATTAG GAAAGACACT 
    GGGGAGTTCA TAGAAGAGAA GCTGGGGCAT AGGCATTGAA TAGATATCAC CTGTCCCCAG 
    GAGCCCCTTT CCTCCCCAGT GCAGCTTGGG AAAGCTCAGA ATGTGCCAGA ACTGCAGGTC 
    AGAGCAGAGC CTGTCCAGGG CTATCACTGC AACTACATGG CTCCCTCCTG CAAAGTGACA 
    TGTACCAAAT CTTGCAGCCA ACAAGCTATC TTTGTAGGCC AGAATTATCC TGCAATGATT 
    AGACAGATCA TAGGCAAGGA CAGACAGCCC CAGGAAGTTN GGGCATTTAA GGGGAAGATA 
    TTGTGTCAAA GGCATCCCCA ATCCATGCCC CACAGGAAGC CTGTGCCACA GCCAAACCCC 
    ACTTGCAGTN GTGAAGTCAA CCTGGTGCCT CCGGTCATCC TGACCAGTGC TAAAAGTACT 
    GTGTTCAGTG ATGTGCCATT ACTAACTGGA CAGAAAATAC TTCCAAAGCG TTTCCAGGGA 
    GGAAAATTTC CCCCCACAAA ATAA

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

    LOC107976689 ( XM_016961014.1 ) cDNA ORF clone, Pan troglodytes(chimpanzee) -> XP_016816503.1 Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA.
    Price & Availability↑
    CloneID OPc89059
    Clone ID Related Accession (Same CDS sequence) XM_016961014.1
    Accession Version XM_016961014.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4764bp)
    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 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product LOW QUALITY PROTEIN: putative spermatogenesis-associated protein 31D3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006476.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pan troglodytes Annotation Release 104 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## ##RefSeq-Attributes-START## frameshifts :: corrected 4 indels internal stop codons :: corrected 3 genomic stop codons ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTAACTCA 
    CATTGCTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTCGTATT GACCCTGTAT TCGTCACTCA CTGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAGGAGGAAA AGGAAAAGCG TGACATTTAA AGACCGGAAA 
    AGTTTGCAGA AGGAAGCAGA AGAGGAAAGA AAGCTACATT CTATTCTGAA AAGCTTTGGA 
    CCTCCTGTTT CCTGCAGTCC CCTGGGCCAG CATCATGATA CCACCCTCTT TCGTCGACTG 
    TTATGCCCAG ACCCCGTCTG TCGGGTGTGT AACAGAGCAA CTGCTGATAT CCAGCAACTG 
    CTGTCTTGGG AGTCCCTGAA AGATGCTGCT CCCTCTGTGT CCCCTTTGGC TTCTTCAGCT 
    TCTGGGACTG AGTCATCGTT CACTCTGGCT TCCACCCCTT CAGCAACCCC TCCAGAAGAC 
    CTAATATTGT CCCCTCGGCC TAAGCCCTCT CCACCGCCCC CCTTAATTCT CTCACCTGAC 
    CTGATCACCA CCGTAGCTGA CTTATTTTCA CCCTCACCAC TGAGGGACCC TCTGCCACCA 
    CAGCCTGTTT CTCCCTTGGA TTCCAAGTTC CCCATAGGTC ATTCTCCACC CCAACAGCTT 
    CCCTTTCCCC TTCTCCCACC ACATCACATT GAGAGAGTGG AGCCCAGCCT CCAACCTAAG 
    GCCAGTTTGT CTCTGAACAC CATCTTTTCA TTTGGCTCCA CCCTATGCCA AGATATTTCC 
    CAGGCCGTGA ATCGCACTGA TTCATGTGCT CATCGTCATG AACCACCAAC CCCAACTGCT 
    TTACCACCGG AAGATTGCAC TGTGACTCAG TCTAAATCAA ATCTCACCAT CTTGAAGACT 
    TTTCCGGAAA TGTTATCTCT AGGTGGCTCT GGTGGGTCAT CCACCTCTGC CCCAACAATC 
    AAAGGCATTG ACCATTCACA CCCTGCATCT TCAGAATTCT CCTGGTGGCA GCCTCATGCC 
    GAGGACTCTT TTTCCTCCAA TTTTGTGCCA TCTGATTTCA TGGAGGAGCT TCTTACCCTT 
    CATTCTTCTG AGGCCTCTTT AGGGGGGCAC TCTGTGGCCA ACATCATACA GCCTGTTAAC 
    ATCTCTTTTC TCAGCCATGA CATTCTGGCA CTCCTGGAGA GACAAGTCAA AAGAAGGGGT 
    GATTTCCTGA TGTGGAAAGA AAATGGAAAG AAACCAGGAT CTTTCCCAAC ACAACTTAGG 
    CGAAACTACC AACTAAATTC CTCACGGAAT ATGTTAACCT CAGCTGCTGT TAAGCATGAC 
    TTAGCAGAAT CCTTTCCTTT TTGGGCCAGT AAAGGCAAAC TAGAGTGGCA GCACATCCAT 
    CAGCAGGCCC CATATTCTAA GTGTTTTGAG GACCATTTAG AGCAAAAATA TGTCCAGCTC 
    TTCTGGGGTC TCCCATCTTT GCACAGCGAG TCTCTGCATC CTACTGTTCT TGTCCAACGT 
    GGCCATTCCT CCATGTTTGT ATTCTTCAAT GGCATTACAA ATACATCTAT ATCCCATGAA 
    CCCCCAGTAC TTCCCCCTCC CCAACCTCTG TTCTTGCCTA GTACCCAACC ACTACCCTTG 
    CCTCAAACCC TGCCCCGAGG TCAGTCCCTA CATCTCACTC AGGTCCAGTC CCAGGCTCAA 
    CCTCAATGTC CATTCCCAGC CCTACTACCT AGTCCTCTAT TCCTGATTAG GGTGTGTGGA 
    GTGTGTTTTC ATAGACCCCA GAATGAGGCA CGGTCTCTTT TGCCATCTGA AATTAACCAT 
    CTGGAGTGGA ACGTGTTGCA GAAAGTGCAG GAAAGTGTGT GGGGCTTACC CTCTGTGGTT 
    CAAAAATCCC AGGAAGACTT TTGTCCTCCA GCTCCCAATC CTGCATTGGT CAGAAAGTCC 
    TTCAAGGTCC ATGTTCCCAT CTCCATCATT CCTCGAGATT TTCCACTCAG CTCTGAGGTA 
    AGGAAGAAAC TAGAGCAACA CATTCGAAAG AGGCTCATCC AGCGCAGATG GGGCCTGCCC 
    CGCAGAATCC ATGAGTCTCT GTCATTGCTA CGTCCTCAGA GCAAAATTTC AGAGCTATCT 
    GTGTCAGAGA GCAATCATGG TCCGTTAAAT ATCTCTTTGG TTGAGGGTCA GAGGTGCAAT 
    GTTCTAAAGA AGTCCGCATC AAGCTTCCCT AGAAGCTTCC ACGAGAGGAG CTCAAATATG 
    CTTTCCATGG AGAATGTGAG GAATTATCAG GGATACAGCC AGGAGACTGC CCCAAAAGAT 
    CACCTGTTGC ATGATCCGGA GACATCTTCA GACGAGAATC TGAGGTCTAA CTCTGAGAGA 
    GACCTAGAAA CTCATATGAT GCATCTGTCA GGGAATGACT CAGGGGTGAG ACTAGGTCAG 
    AAACAACTTG AAAATGCCCT GACAGTACAT TTGAGCAAGA AATTTGAGGA AATCAATGAG 
    GGTCGAATGC CTGGGACTGT GCATAGTTCA TGGCACTCAG TCAAGCAGAC AATATGCCAA 
    ATTAAACATC AAAATTTGGC AGCATTGGTG AGTGAGGACC ACCGCGTTGA TACCTCCCAG 
    GAGATGTCCT TCCTTCGTTC CAACAAACAA AAGATGTTGG AAGCCCATAT TAAATCTTTC 
    CATATGGCCC ATATTAAATC TTTCCATATC AGGATGCTGT GGGGCCTTCC CCGCAAGGTC 
    CGTGAATCCA TAGAAATCTT CAAATCGGAA GAGGATCTTT CCAATTCCTT TTCCCTTTTC 
    GACCTTCCCT CCTCAGCCAG CTTTATTTCT CAGGGAGATT CCAAAGATGG GGTCTCTAAG 
    TCTCGTAGAC GAAGCACTTT TCAAGGAGAA AAGTTGGGAA CAACAAGCTC AGTCCCTGTC 
    CTTAATCATC CTCAGCCTGT CTCCTCACCT ATTGGCAAAG AAGGGCAGGG GACCCTGAGA 
    AGACAATTTT CTGATACTGA CCATGACCTT ATAGAGACAG ATGCCAAAGA TGGTGCCTCC 
    ACGCCCCTTA GAAGAGGCAC TACATATTTT CACGGAGAAA AATTAGAAAC AACAAGCTCA 
    TTCTCCATCT TGGGTCATCC TCACCTCGTC ACCTCACCTG TTGATCAAGA AAAGCAGGGG 
    ACCCTCTGAA GAGAATTCGC TGATACTGAC GAGGATCTTA CAGAAAGTGT CTGGACAACT 
    GAGGATGGCA GACAGACTTT TCTGCCCCCG CCCCACAGCA TCATAGACGA AGTCAGTCAG 
    AAACAGACTG TACTTGCCAG TAGATGCAGC GCAGAGCTGC CCATACTGCA AGCTGGAGCT 
    GGCCGTGATT CAAGGGATAA CAGAGAGAGT GCCAGTAATA ATGTTAACAG GCTTCAGGGC 
    AGTAGAAAGA CCTTTCCTGT CACCAATGGG TCGAAGGAGA TGTTCAAGGA AGAGGAGATC 
    TGTACTCTTC AATCACAAAC TAGGAAGAAC TTGACAACCA GCAAGTCAGG AAGCTGCTTA 
    GTGACAAACG TGAAAAGAAG CACTTCTCAT GAAACTGAAA TTTTCCCACC AAGAATACCA 
    GTTCCTCAAA CTCCTAAATC ATCATATCTT AAAAATCAGA TGTTGAGCCA GTTAAAGTTG 
    GTCCAGAGGA AGCATAGCCA ACCTCAGAGC CATTTCACTG GCATGTCTCT TGCCTTAGAT 
    AACTTGAGTT CCAAGGACTT ACTGACTCAT GCCCCAGGCA TCTCAAGTCG GGACAGGGGA 
    ACTTCCCAGG TGCTGCATGT CCCCTTGGAG GACAGAGGGA TCCCTGTGGC ACAGCAGCAG 
    GAGCCCAGGG TCCCTACGCA CGTCTTACAG AAATGCCAAG TTAAGAATTT TTCACCAGCT 
    ACAAAGAGAG TGAGCCCTCT AAGACCTAAT GGAGGAGAGC TTGGTGGAGG GGACGCAGGG 
    TTGGGGACAT CCCAACTCAG AAGAAAGAGC CATGCTATTC ATAACAAGAC ATCAAGGGAG 
    TCACTTGGGA GCAAATCTTC CCCAACCTTG AAAACACAGC CTCCTCCTGA AAACCTTTTC 
    AGAAAATGGA TGAAGACCTT TTTGCAGCAG TCTAATAAAC CCATCATAAC ATATGGAAAA 
    CAAGAAAGTT CCCAGGAAAA GGGTAGCTCC TTGTCATCAT CTGTGCAGAA TAGAGGTTGA 
    GTTAAAAGTA GAGCTGTCTT TACTGGGACT ATTGAAGCTC AGAAAATTAG GAAAGACACT 
    GGGGAGTTCA TAGAAGAGAA GCTGGGGCAT AGGCATTGAA TAGATATCAC CTGTCCCCAG 
    GAGCCCCTTT CCTCCCCAGT GCAGCTTGGG AAAGCTCAGA ATGTGCCAGA ACTGCACGTC 
    AGAGCAGAGC CTGTCCAGGG CTATCACTGC AACTACATGG CTCCCTCCTG CAAAGTGACA 
    TGTACCAAAT CTTGCAGCCA ACAAGCTATC TTTGTAGGCC AGAATTATCC TGCAATGATT 
    AGACAGATCA TAGGCAAGGA CAGACAGCCC CAGGAAGTTN GGGCATTTAA GGGGAAGATA 
    TTGTGTCAAA GGCATCCCCA ATCCATGCCC CACAGGAAGC CTGTGCCACA GCCAAACCCC 
    ACTTGCAGTN GTGAAGTCAA CCTGGTGCCT CCGGTCATCC TGACCAGTGC TAAAAGTACT 
    GTGTTCAGTG ATGTGCCATT ACTAACTGGA CAGAAAATAC TTCCAAAGCG TTTCCAGGGA 
    GGAAAATTTC CCCCCACAAA ATAA

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

    RefSeq XP_016816503.1
    CDS36..4799
    Translation

    Target ORF information:

    RefSeq Version XM_016961014.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes putative spermatogenesis-associated protein 31D3 (LOC107976689), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_016961014.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGAGAATA TCCTCTGTTT TCTGAACAGC TATACTGAGA CAGGGCTGAG CCCTAACTCA 
    CATTGCTTGG ATATCGACCC CAACTTCATC TGCTTGAGTG GGTTGGGGTT GTTTATACTG 
    TACTTGTTCT ACGTCGTATT GACCCTGTAT TCGTCACTCA CTGAAAAAAA TAATGACATC 
    CAAAAGCATC AGGGCAGAGC CAGGAGGAAA AGGAAAAGCG TGACATTTAA AGACCGGAAA 
    AGTTTGCAGA AGGAAGCAGA AGAGGAAAGA AAGCTACATT CTATTCTGAA AAGCTTTGGA 
    CCTCCTGTTT CCTGCAGTCC CCTGGGCCAG CATCATGATA CCACCCTCTT TCGTCGACTG 
    TTATGCCCAG ACCCCGTCTG TCGGGTGTGT AACAGAGCAA CTGCTGATAT CCAGCAACTG 
    CTGTCTTGGG AGTCCCTGAA AGATGCTGCT CCCTCTGTGT CCCCTTTGGC TTCTTCAGCT 
    TCTGGGACTG AGTCATCGTT CACTCTGGCT TCCACCCCTT CAGCAACCCC TCCAGAAGAC 
    CTAATATTGT CCCCTCGGCC TAAGCCCTCT CCACCGCCCC CCTTAATTCT CTCACCTGAC 
    CTGATCACCA CCGTAGCTGA CTTATTTTCA CCCTCACCAC TGAGGGACCC TCTGCCACCA 
    CAGCCTGTTT CTCCCTTGGA TTCCAAGTTC CCCATAGGTC ATTCTCCACC CCAACAGCTT 
    CCCTTTCCCC TTCTCCCACC ACATCACATT GAGAGAGTGG AGCCCAGCCT CCAACCTAAG 
    GCCAGTTTGT CTCTGAACAC CATCTTTTCA TTTGGCTCCA CCCTATGCCA AGATATTTCC 
    CAGGCCGTGA ATCGCACTGA TTCATGTGCT CATCGTCATG AACCACCAAC CCCAACTGCT 
    TTACCACCGG AAGATTGCAC TGTGACTCAG TCTAAATCAA ATCTCACCAT CTTGAAGACT 
    TTTCCGGAAA TGTTATCTCT AGGTGGCTCT GGTGGGTCAT CCACCTCTGC CCCAACAATC 
    AAAGGCATTG ACCATTCACA CCCTGCATCT TCAGAATTCT CCTGGTGGCA GCCTCATGCC 
    GAGGACTCTT TTTCCTCCAA TTTTGTGCCA TCTGATTTCA TGGAGGAGCT TCTTACCCTT 
    CATTCTTCTG AGGCCTCTTT AGGGGGGCAC TCTGTGGCCA ACATCATACA GCCTGTTAAC 
    ATCTCTTTTC TCAGCCATGA CATTCTGGCA CTCCTGGAGA GACAAGTCAA AAGAAGGGGT 
    GATTTCCTGA TGTGGAAAGA AAATGGAAAG AAACCAGGAT CTTTCCCAAC ACAACTTAGG 
    CGAAACTACC AACTAAATTC CTCACGGAAT ATGTTAACCT CAGCTGCTGT TAAGCATGAC 
    TTAGCAGAAT CCTTTCCTTT TTGGGCCAGT AAAGGCAAAC TAGAGTGGCA GCACATCCAT 
    CAGCAGGCCC CATATTCTAA GTGTTTTGAG GACCATTTAG AGCAAAAATA TGTCCAGCTC 
    TTCTGGGGTC TCCCATCTTT GCACAGCGAG TCTCTGCATC CTACTGTTCT TGTCCAACGT 
    GGCCATTCCT CCATGTTTGT ATTCTTCAAT GGCATTACAA ATACATCTAT ATCCCATGAA 
    CCCCCAGTAC TTCCCCCTCC CCAACCTCTG TTCTTGCCTA GTACCCAACC ACTACCCTTG 
    CCTCAAACCC TGCCCCGAGG TCAGTCCCTA CATCTCACTC AGGTCCAGTC CCAGGCTCAA 
    CCTCAATGTC CATTCCCAGC CCTACTACCT AGTCCTCTAT TCCTGATTAG GGTGTGTGGA 
    GTGTGTTTTC ATAGACCCCA GAATGAGGCA CGGTCTCTTT TGCCATCTGA AATTAACCAT 
    CTGGAGTGGA ACGTGTTGCA GAAAGTGCAG GAAAGTGTGT GGGGCTTACC CTCTGTGGTT 
    CAAAAATCCC AGGAAGACTT TTGTCCTCCA GCTCCCAATC CTGCATTGGT CAGAAAGTCC 
    TTCAAGGTCC ATGTTCCCAT CTCCATCATT CCTCGAGATT TTCCACTCAG CTCTGAGGTA 
    AGGAAGAAAC TAGAGCAACA CATTCGAAAG AGGCTCATCC AGCGCAGATG GGGCCTGCCC 
    CGCAGAATCC ATGAGTCTCT GTCATTGCTA CGTCCTCAGA GCAAAATTTC AGAGCTATCT 
    GTGTCAGAGA GCAATCATGG TCCGTTAAAT ATCTCTTTGG TTGAGGGTCA GAGGTGCAAT 
    GTTCTAAAGA AGTCCGCATC AAGCTTCCCT AGAAGCTTCC ACGAGAGGAG CTCAAATATG 
    CTTTCCATGG AGAATGTGAG GAATTATCAG GGATACAGCC AGGAGACTGC CCCAAAAGAT 
    CACCTGTTGC ATGATCCGGA GACATCTTCA GACGAGAATC TGAGGTCTAA CTCTGAGAGA 
    GACCTAGAAA CTCATATGAT GCATCTGTCA GGGAATGACT CAGGGGTGAG ACTAGGTCAG 
    AAACAACTTG AAAATGCCCT GACAGTACAT TTGAGCAAGA AATTTGAGGA AATCAATGAG 
    GGTCGAATGC CTGGGACTGT GCATAGTTCA TGGCACTCAG TCAAGCAGAC AATATGCCAA 
    ATTAAACATC AAAATTTGGC AGCATTGGTG AGTGAGGACC ACCGCGTTGA TACCTCCCAG 
    GAGATGTCCT TCCTTCGTTC CAACAAACAA AAGATGTTGG AAGCCCATAT TAAATCTTTC 
    CATATGGCCC ATATTAAATC TTTCCATATC AGGATGCTGT GGGGCCTTCC CCGCAAGGTC 
    CGTGAATCCA TAGAAATCTT CAAATCGGAA GAGGATCTTT CCAATTCCTT TTCCCTTTTC 
    GACCTTCCCT CCTCAGCCAG CTTTATTTCT CAGGGAGATT CCAAAGATGG GGTCTCTAAG 
    TCTCGTAGAC GAAGCACTTT TCAAGGAGAA AAGTTGGGAA CAACAAGCTC AGTCCCTGTC 
    CTTAATCATC CTCAGCCTGT CTCCTCACCT ATTGGCAAAG AAGGGCAGGG GACCCTGAGA 
    AGACAATTTT CTGATACTGA CCATGACCTT ATAGAGACAG ATGCCAAAGA TGGTGCCTCC 
    ACGCCCCTTA GAAGAGGCAC TACATATTTT CACGGAGAAA AATTAGAAAC AACAAGCTCA 
    TTCTCCATCT TGGGTCATCC TCACCTCGTC ACCTCACCTG TTGATCAAGA AAAGCAGGGG 
    ACCCTCTGAA GAGAATTCGC TGATACTGAC GAGGATCTTA CAGAAAGTGT CTGGACAACT 
    GAGGATGGCA GACAGACTTT TCTGCCCCCG CCCCACAGCA TCATAGACGA AGTCAGTCAG 
    AAACAGACTG TACTTGCCAG TAGATGCAGC GCAGAGCTGC CCATACTGCA AGCTGGAGCT 
    GGCCGTGATT CAAGGGATAA CAGAGAGAGT GCCAGTAATA ATGTTAACAG GCTTCAGGGC 
    AGTAGAAAGA CCTTTCCTGT CACCAATGGG TCGAAGGAGA TGTTCAAGGA AGAGGAGATC 
    TGTACTCTTC AATCACAAAC TAGGAAGAAC TTGACAACCA GCAAGTCAGG AAGCTGCTTA 
    GTGACAAACG TGAAAAGAAG CACTTCTCAT GAAACTGAAA TTTTCCCACC AAGAATACCA 
    GTTCCTCAAA CTCCTAAATC ATCATATCTT AAAAATCAGA TGTTGAGCCA GTTAAAGTTG 
    GTCCAGAGGA AGCATAGCCA ACCTCAGAGC CATTTCACTG GCATGTCTCT TGCCTTAGAT 
    AACTTGAGTT CCAAGGACTT ACTGACTCAT GCCCCAGGCA TCTCAAGTCG GGACAGGGGA 
    ACTTCCCAGG TGCTGCATGT CCCCTTGGAG GACAGAGGGA TCCCTGTGGC ACAGCAGCAG 
    GAGCCCAGGG TCCCTACGCA CGTCTTACAG AAATGCCAAG TTAAGAATTT TTCACCAGCT 
    ACAAAGAGAG TGAGCCCTCT AAGACCTAAT GGAGGAGAGC TTGGTGGAGG GGACGCAGGG 
    TTGGGGACAT CCCAACTCAG AAGAAAGAGC CATGCTATTC ATAACAAGAC ATCAAGGGAG 
    TCACTTGGGA GCAAATCTTC CCCAACCTTG AAAACACAGC CTCCTCCTGA AAACCTTTTC 
    AGAAAATGGA TGAAGACCTT TTTGCAGCAG TCTAATAAAC CCATCATAAC ATATGGAAAA 
    CAAGAAAGTT CCCAGGAAAA GGGTAGCTCC TTGTCATCAT CTGTGCAGAA TAGAGGTTGA 
    GTTAAAAGTA GAGCTGTCTT TACTGGGACT ATTGAAGCTC AGAAAATTAG GAAAGACACT 
    GGGGAGTTCA TAGAAGAGAA GCTGGGGCAT AGGCATTGAA TAGATATCAC CTGTCCCCAG 
    GAGCCCCTTT CCTCCCCAGT GCAGCTTGGG AAAGCTCAGA ATGTGCCAGA ACTGCACGTC 
    AGAGCAGAGC CTGTCCAGGG CTATCACTGC AACTACATGG CTCCCTCCTG CAAAGTGACA 
    TGTACCAAAT CTTGCAGCCA ACAAGCTATC TTTGTAGGCC AGAATTATCC TGCAATGATT 
    AGACAGATCA TAGGCAAGGA CAGACAGCCC CAGGAAGTTN GGGCATTTAA GGGGAAGATA 
    TTGTGTCAAA GGCATCCCCA ATCCATGCCC CACAGGAAGC CTGTGCCACA GCCAAACCCC 
    ACTTGCAGTN GTGAAGTCAA CCTGGTGCCT CCGGTCATCC TGACCAGTGC TAAAAGTACT 
    GTGTTCAGTG ATGTGCCATT ACTAACTGGA CAGAAAATAC TTCCAAAGCG TTTCCAGGGA 
    GGAAAATTTC CCCCCACAAA ATAA

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

見積依頼

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