ORF » Species Summary » Mus caroli » Parp14 cDNA ORF clone

Parp14 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Parp14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Parp14 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
OMv33159 XM_021184802.1
Latest version!		 Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv33160 XM_021184803.1
Latest version!		 Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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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)
    Parp14 ( XM_021184802.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021040461.1 Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv33159
    Clone ID Related Accession (Same CDS sequence) XM_021184802.1
    Accession Version XM_021184802.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5511bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product protein mono-ADP-ribosyltransferase PARP14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGGCAGCGT CGGGTTCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGCCC CGACCCCCCA 
    AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC CGGAGGAGGG 
    GAGTGCGAGG TCGTCCCGGA GCCGGGGAAC CCAGCACGCT TCCGGGTGCT CTTCTCCCCG 
    GAGGATGTTC GGCAGAACGT TCTGGAGAAA GGGAATCATG AGTTAGTGTG GCAAGAAAAA 
    GGAACATTCA AGTTGACTGT CCAGATGCCC ACAGACCCTG AGGAAGCCTC AGTCTCTAAG 
    AAGTCAAGGA AGGAATCTCC AGAAGAGGAG TCCAAGACAA AAGAAGATGC TGTGAAACCA 
    GGTGATTTGG ATATAACACA TTCTCCCAGC AGTGGATCAG AAAAGACAGA AGATGTCCCA 
    AAAGAATGTG AAAATATTTC CTCCATGGTG GCATTTGAAA ACCTGCCCGA GAAAGTATCC 
    GAGATAGTGC TGACCTTCCT GGTGGAGAAT ATAAGTGGCC TCCCCAGTGA TGACTTTAAG 
    GTGGAAGTGA TCCGAGATTT TGCTGTTGCC GTGGTTACCT TTCAGAAGCC TATAGATATC 
    AAAAAATTTA TTGTTGACTG TATCGGCCAC CGCTCAAATC AACAACTCCA GCTTGCCCCG 
    AGACTTCTGG AAACAACGAA TGTAGTCAGG GTGGAAAACC TGCCTCCTGG GGTGGACGAG 
    TACCAGCTGC AACTCTTCTT CGAAAACCCT TTCAACGGGG GCGGAAGGGT CGCCCGAGTT 
    GAGTGTTTCC CAGAAGAGAG TTCGGCACTG GTTGAATTTT GTGACAGCAA AGTGTTAGAC 
    ACCGTCATGG CCAAGACACA CAGTTACAAC AAGATGCCAC TGTCTGTCTT CCCTTATTAT 
    CCCTCTCTGG GCACAGCCTT GTATGGTGAG GAGAAGCCTC TGATCAAGCT TCCAGCATCT 
    TTCCAGGAGT CTCTTGATCT TCCTTTGTGG AAGTTCTTTC AGAAAAATAA TCATCTGATT 
    GAGGAGATAA ATAATGAAAT GAGGTGCTGT CACTGTGAGC TGACATGGTC TGAAATCAAT 
    GGTAAACTGA CCATCAGACC CGCTGCCACC TTAGTCAACC ATAGACTGAG CATCAAGACC 
    TGGCAGAGAG ACGCATCCAC AGTGCTCTCT GGCATCAAGT CTAAATATGG AGTGGAGTTG 
    TTTGAAGTGT GCTCGCCAGT ATGGGACATC ATAAAGCATG AGTTAGAGTC AGGAGATGAC 
    AGGGTTTTAG TTGAGTTTGA AAAGGAGAGT CTAAACATAG CAGGAAAATC AGAAGACGTC 
    CAAGGCATGA GCCAGAAAAT CAGGGAATTA ATAGAGAACA CCACTGAAAA GCTCAGAAGG 
    GAAGAGCAGA GTCTGAAGGA GAAAGTGGCC ATTTCCCCGG AAAAGCATTA TCTTTTGCAC 
    CACAGTGGCT TCCTGAAGGA TCTAAGCAAG GAGTTCCCAG AGATGGAGAT CTCGTACGAT 
    GCCACGGCTC AGTCCCTGTG CTTGAAGGGC TTCCGTGCAG ATGTATACAA AGTAAAGTGT 
    GACATCCAAG AGAAGGTGTT TTCCATGGCT CAAAAGGATG TCCAGGTCTC TTCTGAAGTC 
    TTCGAATTTC TGCAGCAAGT AGACAGTCAG AGACTCTCTA AGACTCTGTT CGAGGCACAG 
    AACATTCTCG CTATATATGA GCTGAAAGGT ACAGCTCTTT TCTTAGTTGG AAGTTCTTTC 
    AAAGATCTGG CAGAAGCCGA GACAAAAATG CTCAGTGCTT TAAGTCATAA GCAGATTGAA 
    GTTGAGGACA AGGAGGTCCT GATAGGTAAT GGGTGGAAGA AGAAACTTCA CCCTCTGCAA 
    AAGAGACACA GCTCTTGTGC AACCATTATA GTCAAGAATG AATTGACTTC AGAAACCCCG 
    GCAAAGGTCA TTGTTGCAGG CTGTGTGAAA GAAGTGAATG AAATCCATAG GCAGCTTTTT 
    CAGTATTTGG AAAACAACAT GAAAGTTGAA AGAGCGCTTA AAATCAAACC ATCCTTGATT 
    GTTGACTATT TAAGGACAGA CAAGAGGCTC TTGTCAAAGA TAAAGAAGGC ACATGTGTAT 
    GTGCATTTTA AGCCTAAGGA CAATCCAAAC AGCATTTTGC TAACTGGCTG CAAGAGCAAA 
    GTTCTAGAGT GCATGAATCT AGTCAAGGAA ATCCAGGATT CAGTCTGTGT CCAAAGATTC 
    CAGACTGACA AAGCTGGCGT CAGGCACTTC TTCCAAGATA AAGAATCGTA TTACAAAACG 
    GAGATTGGTC GTCAGTTCGG ATGCGTCATT GAACTGGTGG AGGATAGAGA GGAGAAGGGT 
    GAAGAGGAGG AGGGTGAAGA GGAGGGAGAA AGCAACATTA ATGAGCAGAA GTGTCACCTA 
    CAGAGGGACA TAGCCCCCGG AGTCAAACTG TTCGTCCTCG AGGAAGACCT GAGTCGGTTT 
    CCTGTCGATG TGGTAGTGAA TGCAGCAAAT GAGAACCTGA AGCATATCAG CGGTCTCGCA 
    CAGTCTCTCT CAAAGGCAGC TGGCCCTGAA CTCCAAACAG AATGTGACCA GATAGTAAAA 
    GAGGTTGGCG TGGTCCTACC TGGCAATGCT GTTATCTCAA AAGCAGGCAA GCTCCCTTGT 
    CACCACGTCA TCCATGCGGT AGGGCCTCGA TGGAAGGGAG ATAAAGTCCT GGAGTGTGTG 
    AGCCTGCTAA AGAAAGTGGT GAGACAAAGC CTCAGTTTAG CTGAGGAGCA CAAGTGCCGG 
    TCCATAGCCA TGCCAGCCAT CAGCGCTGGA ATCTTTGACT TTCCCTTAGA ACTGTGTGTG 
    GCAAACATTG TTTCAACCAT CAAGGAACAC TTCCAGCATA AGCGAGACAC ACACACCTTG 
    AAAAAGATTT ACCTGGTGGG CCTACCTGCC AAGGTTGCCA GGGCCTTTGC TGAAGCTGTC 
    AAGACTACAT ATAAAGACTC CCTTTCCCAC ACAGCTTCCC CATCCAGTTT AAAGGCTTTA 
    GTACCACTTG GGAAAACGCC CCAGAAACAG GGCAGTCTGC TGGTGTCACC AGAAGGCCTG 
    AGAATCCGCC TGGTAGAAGA AGGCGTGCAG AATGCTACGA CCCATGCCAT TGTGAACTCT 
    ATTTCCCCGG ATCTTAAACT CAACAAAGGA CCCCTTTCTC AGGCCTTCTT GGAAAAGGCT 
    GGGCCAAAAC TCCAGGAGGA ATTGACCAGG TCAGGACAAG GGGTCTCTGT CCATGTGGGC 
    ACAATTCTTC AAACCAGTGG CTGTAATCTC AACAGCCGCC ACGTCTTCCA TGTGGTGCCT 
    CCACCTTGGA AAAGCAACAA CAGTGCGTGG TCACTAAAGA TCATGAAAAA CATCATCCAT 
    GACTGCCTGA AGACCACCGA GTCCCTGTCT CTACAATCGA TTGCATTTCC AGCAATAGGA 
    ACGGGAAATT TGGGGTTTCC TAAACCTGAA TTTGCTAAAT TAATAATTTC AGAAGTGCTC 
    AAATTTAGTA GCAGGAACCA ACTGAAAACT TTACAAGAGG TTCAGTTTCT GCTGCACCCG 
    AAGGACTATG AAAACATTCA GGCATTTTCA GATGAATTTG ACAAGAGGAA TAATGGAGAT 
    CCTAGTGACA AAAATCCCAA GGCTGAAGAC ACACAAGGTA TCTATGGGAG TCTTTCCAGT 
    CCTACTTTAG GAATGCATGA AATGAATATT GGCCCAATCC TCTTCCAAGT GGCCACTGGG 
    AACATCATCA AAGAAGTGGC AGATGTGATT GTCAATTCAA CAACACTCAC ATTTGATCTC 
    AAATCAGGGG TCTCCAAAGC AATTTTGGAA GGTGCAGGAC AAAATGTGGA GCAAGAATGT 
    TCTCTCTTGG CTAAACAGAG TAACCATGGG TATATAGTCA CTGGAGGTGG ACTATTGAAA 
    TGTAAGAATA TTATTCATGT TGTTGGTGGG AATGATGTCA AGAAATCGGT TTCCTGTGTT 
    TTGGAAGAAT GTGAACAACG GAATTACTCA TCCATTTGCC TGCCAGCTAT TGGCACAGGA 
    AATGCTCAAC AGGACCCAAA CGTAGTAGCG AAAGCGATAA TAGATGCCGT TGAAGAATTT 
    GTCCAGAAAA AATCAGTGCA GGCTGTGGAG AGAGTTAAAG TTGTTATTTT CCAGCCCCAT 
    ATTCTGCAAT TTTTTTATGA CAACATGAAA GAGAGAGAAG GGTCTCCAGC TCCCCCCAAG 
    CAGTCAGTGA TGTCTAAGAT TGCCTGTGAG TTGTTAGCTT TTATGAAATA CATATTCCTA 
    ACCTTGATGT TGAAGGGAGT AAAAGAAACA TTAATTTCCA TTTTCTCTTT AGCCTTTCTT 
    GGCTTTCCCA AGCAAGCTTC CCCCAAAAAG AACACCCTGG TTCTGGAAAA GAAAATAGAG 
    CACACAGTTT TCCAGGTATG TGGTTCAGGG GTAGACAGTG TGAACAAAAC AATCTCCTGG 
    CTAAAGGAAC TGATTACCAA AGAGCAGCTT TCCTACACCA CTGACGACGA GTGTGTCAGA 
    GACTTTGACT TGGAGGAGTA CGAGAAACTG AATGAGGTTC AGAAGGAACT GAACATCACC 
    ATTGAGATGA ACCAGAAGAA AACTTCCATT CGAGTCTCAG GAATTAGCAG AGACGTGATA 
    AAAGCTAGAG ATGAGATCGA GGGCATGATC AAGAGCATTC GATCAGCTAA AGAAAAGGAA 
    AGCCAGGCAG ACTACATCTC TACATATGTG GAATGGCAGT ATATTGATAA AAACATCACA 
    CAGTGTTTTG ACAAAATGAC CAACATGAAG TTGGAGGATG CATGGAAGGC CAAGAAGAAG 
    GACACGGTTG TCCAAATTCA CAATCAGGAT TTCACAGTGG ACTTGAGCAC AAACACAGCC 
    ACTGCTCCCC AAGGCCAGAC TTTCACTGTT CAGCGCCTCG TCAAAGCTGA AGCTGAAATC 
    CCTGCCAATT GGAGTGACAT GAAGCAGGAA AAATTGCTTG TGGTGAATCT GCAAACCAGT 
    GATCCCGAAT ACAACAAGGT GGCAAGCGCC TTCCGTCAGA CCTGCTCAAA CTTTTTCATA 
    GAGAAGATTG AAAGGATTCA GAATCCAGCT CTTTGGAGAA GGTATCAGGC ATACAAAAAA 
    GGTATGGATG AAAAGAATGG CAATGTAAGA AATGAGAAGC ATCTCTTCCA CGGGACGGAG 
    GTTAGCTCTC TACCACAGCT CAACAGTAAT GGATTTAACC GCAGCTATGC TGGGAAGAAT 
    GCTACTGCCT ACGGGAAAGG AACCTATTTT GCTGTCAATG CTTCGTATTC TGCCAGTGAC 
    ACATATTCCA GACCAGACAC CAATGGGAGA AAGTATATGT ATTATGTGCG GGTTCTCACT 
    GGAAACTACA CGAATGGAAA CGCGTCACTG ATTGTGCCGC CCTCAAGGGA CCCTCAAAAT 
    GCTGCTGACT TGTACGACAC CGTCACAGAT AATGATAAAC GTCCAAGTAT ATTTGTAGTG 
    TTTTATGACA ACCAAACGTA CCCTGAGTAT CTTATCACAT TTAGGCAGTA A

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

    RefSeq XP_021040461.1
    CDS145..5655
    Translation

    Target ORF information:

    RefSeq Version XM_021184802.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021184802.1

    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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGGCAGCGT CGGGTTCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGCCC CGACCCCCCA 
    AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC CGGAGGAGGG 
    GAGTGCGAGG TCGTCCCGGA GCCGGGGAAC CCAGCACGCT TCCGGGTGCT CTTCTCCCCG 
    GAGGATGTTC GGCAGAACGT TCTGGAGAAA GGGAATCATG AGTTAGTGTG GCAAGAAAAA 
    GGAACATTCA AGTTGACTGT CCAGATGCCC ACAGACCCTG AGGAAGCCTC AGTCTCTAAG 
    AAGTCAAGGA AGGAATCTCC AGAAGAGGAG TCCAAGACAA AAGAAGATGC TGTGAAACCA 
    GGTGATTTGG ATATAACACA TTCTCCCAGC AGTGGATCAG AAAAGACAGA AGATGTCCCA 
    AAAGAATGTG AAAATATTTC CTCCATGGTG GCATTTGAAA ACCTGCCCGA GAAAGTATCC 
    GAGATAGTGC TGACCTTCCT GGTGGAGAAT ATAAGTGGCC TCCCCAGTGA TGACTTTAAG 
    GTGGAAGTGA TCCGAGATTT TGCTGTTGCC GTGGTTACCT TTCAGAAGCC TATAGATATC 
    AAAAAATTTA TTGTTGACTG TATCGGCCAC CGCTCAAATC AACAACTCCA GCTTGCCCCG 
    AGACTTCTGG AAACAACGAA TGTAGTCAGG GTGGAAAACC TGCCTCCTGG GGTGGACGAG 
    TACCAGCTGC AACTCTTCTT CGAAAACCCT TTCAACGGGG GCGGAAGGGT CGCCCGAGTT 
    GAGTGTTTCC CAGAAGAGAG TTCGGCACTG GTTGAATTTT GTGACAGCAA AGTGTTAGAC 
    ACCGTCATGG CCAAGACACA CAGTTACAAC AAGATGCCAC TGTCTGTCTT CCCTTATTAT 
    CCCTCTCTGG GCACAGCCTT GTATGGTGAG GAGAAGCCTC TGATCAAGCT TCCAGCATCT 
    TTCCAGGAGT CTCTTGATCT TCCTTTGTGG AAGTTCTTTC AGAAAAATAA TCATCTGATT 
    GAGGAGATAA ATAATGAAAT GAGGTGCTGT CACTGTGAGC TGACATGGTC TGAAATCAAT 
    GGTAAACTGA CCATCAGACC CGCTGCCACC TTAGTCAACC ATAGACTGAG CATCAAGACC 
    TGGCAGAGAG ACGCATCCAC AGTGCTCTCT GGCATCAAGT CTAAATATGG AGTGGAGTTG 
    TTTGAAGTGT GCTCGCCAGT ATGGGACATC ATAAAGCATG AGTTAGAGTC AGGAGATGAC 
    AGGGTTTTAG TTGAGTTTGA AAAGGAGAGT CTAAACATAG CAGGAAAATC AGAAGACGTC 
    CAAGGCATGA GCCAGAAAAT CAGGGAATTA ATAGAGAACA CCACTGAAAA GCTCAGAAGG 
    GAAGAGCAGA GTCTGAAGGA GAAAGTGGCC ATTTCCCCGG AAAAGCATTA TCTTTTGCAC 
    CACAGTGGCT TCCTGAAGGA TCTAAGCAAG GAGTTCCCAG AGATGGAGAT CTCGTACGAT 
    GCCACGGCTC AGTCCCTGTG CTTGAAGGGC TTCCGTGCAG ATGTATACAA AGTAAAGTGT 
    GACATCCAAG AGAAGGTGTT TTCCATGGCT CAAAAGGATG TCCAGGTCTC TTCTGAAGTC 
    TTCGAATTTC TGCAGCAAGT AGACAGTCAG AGACTCTCTA AGACTCTGTT CGAGGCACAG 
    AACATTCTCG CTATATATGA GCTGAAAGGT ACAGCTCTTT TCTTAGTTGG AAGTTCTTTC 
    AAAGATCTGG CAGAAGCCGA GACAAAAATG CTCAGTGCTT TAAGTCATAA GCAGATTGAA 
    GTTGAGGACA AGGAGGTCCT GATAGGTAAT GGGTGGAAGA AGAAACTTCA CCCTCTGCAA 
    AAGAGACACA GCTCTTGTGC AACCATTATA GTCAAGAATG AATTGACTTC AGAAACCCCG 
    GCAAAGGTCA TTGTTGCAGG CTGTGTGAAA GAAGTGAATG AAATCCATAG GCAGCTTTTT 
    CAGTATTTGG AAAACAACAT GAAAGTTGAA AGAGCGCTTA AAATCAAACC ATCCTTGATT 
    GTTGACTATT TAAGGACAGA CAAGAGGCTC TTGTCAAAGA TAAAGAAGGC ACATGTGTAT 
    GTGCATTTTA AGCCTAAGGA CAATCCAAAC AGCATTTTGC TAACTGGCTG CAAGAGCAAA 
    GTTCTAGAGT GCATGAATCT AGTCAAGGAA ATCCAGGATT CAGTCTGTGT CCAAAGATTC 
    CAGACTGACA AAGCTGGCGT CAGGCACTTC TTCCAAGATA AAGAATCGTA TTACAAAACG 
    GAGATTGGTC GTCAGTTCGG ATGCGTCATT GAACTGGTGG AGGATAGAGA GGAGAAGGGT 
    GAAGAGGAGG AGGGTGAAGA GGAGGGAGAA AGCAACATTA ATGAGCAGAA GTGTCACCTA 
    CAGAGGGACA TAGCCCCCGG AGTCAAACTG TTCGTCCTCG AGGAAGACCT GAGTCGGTTT 
    CCTGTCGATG TGGTAGTGAA TGCAGCAAAT GAGAACCTGA AGCATATCAG CGGTCTCGCA 
    CAGTCTCTCT CAAAGGCAGC TGGCCCTGAA CTCCAAACAG AATGTGACCA GATAGTAAAA 
    GAGGTTGGCG TGGTCCTACC TGGCAATGCT GTTATCTCAA AAGCAGGCAA GCTCCCTTGT 
    CACCACGTCA TCCATGCGGT AGGGCCTCGA TGGAAGGGAG ATAAAGTCCT GGAGTGTGTG 
    AGCCTGCTAA AGAAAGTGGT GAGACAAAGC CTCAGTTTAG CTGAGGAGCA CAAGTGCCGG 
    TCCATAGCCA TGCCAGCCAT CAGCGCTGGA ATCTTTGACT TTCCCTTAGA ACTGTGTGTG 
    GCAAACATTG TTTCAACCAT CAAGGAACAC TTCCAGCATA AGCGAGACAC ACACACCTTG 
    AAAAAGATTT ACCTGGTGGG CCTACCTGCC AAGGTTGCCA GGGCCTTTGC TGAAGCTGTC 
    AAGACTACAT ATAAAGACTC CCTTTCCCAC ACAGCTTCCC CATCCAGTTT AAAGGCTTTA 
    GTACCACTTG GGAAAACGCC CCAGAAACAG GGCAGTCTGC TGGTGTCACC AGAAGGCCTG 
    AGAATCCGCC TGGTAGAAGA AGGCGTGCAG AATGCTACGA CCCATGCCAT TGTGAACTCT 
    ATTTCCCCGG ATCTTAAACT CAACAAAGGA CCCCTTTCTC AGGCCTTCTT GGAAAAGGCT 
    GGGCCAAAAC TCCAGGAGGA ATTGACCAGG TCAGGACAAG GGGTCTCTGT CCATGTGGGC 
    ACAATTCTTC AAACCAGTGG CTGTAATCTC AACAGCCGCC ACGTCTTCCA TGTGGTGCCT 
    CCACCTTGGA AAAGCAACAA CAGTGCGTGG TCACTAAAGA TCATGAAAAA CATCATCCAT 
    GACTGCCTGA AGACCACCGA GTCCCTGTCT CTACAATCGA TTGCATTTCC AGCAATAGGA 
    ACGGGAAATT TGGGGTTTCC TAAACCTGAA TTTGCTAAAT TAATAATTTC AGAAGTGCTC 
    AAATTTAGTA GCAGGAACCA ACTGAAAACT TTACAAGAGG TTCAGTTTCT GCTGCACCCG 
    AAGGACTATG AAAACATTCA GGCATTTTCA GATGAATTTG ACAAGAGGAA TAATGGAGAT 
    CCTAGTGACA AAAATCCCAA GGCTGAAGAC ACACAAGGTA TCTATGGGAG TCTTTCCAGT 
    CCTACTTTAG GAATGCATGA AATGAATATT GGCCCAATCC TCTTCCAAGT GGCCACTGGG 
    AACATCATCA AAGAAGTGGC AGATGTGATT GTCAATTCAA CAACACTCAC ATTTGATCTC 
    AAATCAGGGG TCTCCAAAGC AATTTTGGAA GGTGCAGGAC AAAATGTGGA GCAAGAATGT 
    TCTCTCTTGG CTAAACAGAG TAACCATGGG TATATAGTCA CTGGAGGTGG ACTATTGAAA 
    TGTAAGAATA TTATTCATGT TGTTGGTGGG AATGATGTCA AGAAATCGGT TTCCTGTGTT 
    TTGGAAGAAT GTGAACAACG GAATTACTCA TCCATTTGCC TGCCAGCTAT TGGCACAGGA 
    AATGCTCAAC AGGACCCAAA CGTAGTAGCG AAAGCGATAA TAGATGCCGT TGAAGAATTT 
    GTCCAGAAAA AATCAGTGCA GGCTGTGGAG AGAGTTAAAG TTGTTATTTT CCAGCCCCAT 
    ATTCTGCAAT TTTTTTATGA CAACATGAAA GAGAGAGAAG GGTCTCCAGC TCCCCCCAAG 
    CAGTCAGTGA TGTCTAAGAT TGCCTGTGAG TTGTTAGCTT TTATGAAATA CATATTCCTA 
    ACCTTGATGT TGAAGGGAGT AAAAGAAACA TTAATTTCCA TTTTCTCTTT AGCCTTTCTT 
    GGCTTTCCCA AGCAAGCTTC CCCCAAAAAG AACACCCTGG TTCTGGAAAA GAAAATAGAG 
    CACACAGTTT TCCAGGTATG TGGTTCAGGG GTAGACAGTG TGAACAAAAC AATCTCCTGG 
    CTAAAGGAAC TGATTACCAA AGAGCAGCTT TCCTACACCA CTGACGACGA GTGTGTCAGA 
    GACTTTGACT TGGAGGAGTA CGAGAAACTG AATGAGGTTC AGAAGGAACT GAACATCACC 
    ATTGAGATGA ACCAGAAGAA AACTTCCATT CGAGTCTCAG GAATTAGCAG AGACGTGATA 
    AAAGCTAGAG ATGAGATCGA GGGCATGATC AAGAGCATTC GATCAGCTAA AGAAAAGGAA 
    AGCCAGGCAG ACTACATCTC TACATATGTG GAATGGCAGT ATATTGATAA AAACATCACA 
    CAGTGTTTTG ACAAAATGAC CAACATGAAG TTGGAGGATG CATGGAAGGC CAAGAAGAAG 
    GACACGGTTG TCCAAATTCA CAATCAGGAT TTCACAGTGG ACTTGAGCAC AAACACAGCC 
    ACTGCTCCCC AAGGCCAGAC TTTCACTGTT CAGCGCCTCG TCAAAGCTGA AGCTGAAATC 
    CCTGCCAATT GGAGTGACAT GAAGCAGGAA AAATTGCTTG TGGTGAATCT GCAAACCAGT 
    GATCCCGAAT ACAACAAGGT GGCAAGCGCC TTCCGTCAGA CCTGCTCAAA CTTTTTCATA 
    GAGAAGATTG AAAGGATTCA GAATCCAGCT CTTTGGAGAA GGTATCAGGC ATACAAAAAA 
    GGTATGGATG AAAAGAATGG CAATGTAAGA AATGAGAAGC ATCTCTTCCA CGGGACGGAG 
    GTTAGCTCTC TACCACAGCT CAACAGTAAT GGATTTAACC GCAGCTATGC TGGGAAGAAT 
    GCTACTGCCT ACGGGAAAGG AACCTATTTT GCTGTCAATG CTTCGTATTC TGCCAGTGAC 
    ACATATTCCA GACCAGACAC CAATGGGAGA AAGTATATGT ATTATGTGCG GGTTCTCACT 
    GGAAACTACA CGAATGGAAA CGCGTCACTG ATTGTGCCGC CCTCAAGGGA CCCTCAAAAT 
    GCTGCTGACT TGTACGACAC CGTCACAGAT AATGATAAAC GTCCAAGTAT ATTTGTAGTG 
    TTTTATGACA ACCAAACGTA CCCTGAGTAT CTTATCACAT TTAGGCAGTA A

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

    Parp14 ( XM_021184803.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021040462.1 Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv33160
    Clone ID Related Accession (Same CDS sequence) XM_021184803.1
    Accession Version XM_021184803.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5424bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product protein mono-ADP-ribosyltransferase PARP14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGGCAGCGT CGGGTTCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGCCC CGACCCCCCA 
    AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC CGGAGGAGGG 
    GAGTGCGAGG TCGTCCCGGA GCCGGGGAAC CCAGCACGCT TCCGGGTGCT CTTCTCCCCG 
    GAGGATGTTC GGCAGAACGT TCTGGAGAAA GGGAATCATG AGTTAGTGTG GCAAGAAAAA 
    GGAACATTCA AGTTGACTGT CCAGATGCCC ACAGACCCTG AGGAAGCCTC AGTCTCTAAG 
    AAGTCAAGGA AGGAATCTCC AGAAGAGGAG TCCAAGACAA AAGAAGATGC TGTGAAACCA 
    GGTGATTTGG ATATAACACA TTCTCCCAGC AGTGGATCAG AAAAGACAGA AGATGTCCCA 
    AAAGAATGTG AAAATATTTC CTCCATGGTG GCATTTGAAA ACCTGCCCGA GAAAGTATCC 
    GAGATAGTGC TGACCTTCCT GGTGGAGAAT ATAAGTGGCC TCCCCAGTGA TGACTTTAAG 
    GTGGAAGTGA TCCGAGATTT TGCTGTTGCC GTGGTTACCT TTCAGAAGCC TATAGATATC 
    AAAAAATTTA TTGTTGACTG TATCGGCCAC CGCTCAAATC AACAACTCCA GCTTGCCCCG 
    AGACTTCTGG AAACAACGAA TGTAGTCAGG GTGGAAAACC TGCCTCCTGG GGTGGACGAG 
    TACCAGCTGC AACTCTTCTT CGAAAACCCT TTCAACGGGG GCGGAAGGGT CGCCCGAGTT 
    GAGTGTTTCC CAGAAGAGAG TTCGGCACTG GTTGAATTTT GTGACAGCAA AGTGTTAGAC 
    ACCGTCATGG CCAAGACACA CAGTTACAAC AAGATGCCAC TGTCTGTCTT CCCTTATTAT 
    CCCTCTCTGG GCACAGCCTT GTATGGTGAG GAGAAGCCTC TGATCAAGCT TCCAGCATCT 
    TTCCAGGAGT CTCTTGATCT TCCTTTGTGG AAGTTCTTTC AGAAAAATAA TCATCTGATT 
    GAGGAGATAA ATAATGAAAT GAGGTGCTGT CACTGTGAGC TGACATGGTC TGAAATCAAT 
    GGTAAACTGA CCATCAGACC CGCTGCCACC TTAGTCAACC ATAGACTGAG CATCAAGACC 
    TGGCAGAGAG ACGCATCCAC AGTGCTCTCT GGCATCAAGT CTAAATATGG AGTGGAGTTG 
    TTTGAAGTGT GCTCGCCAGT ATGGGACATC ATAAAGCATG AGTTAGAGTC AGGAGATGAC 
    AGGGTTTTAG TTGAGTTTGA AAAGGAGAGT CTAAACATAG CAGGAAAATC AGAAGACGTC 
    CAAGGCATGA GCCAGAAAAT CAGGGAATTA ATAGAGAACA CCACTGAAAA GCTCAGAAGG 
    GAAGAGCAGA GTCTGAAGGA GAAAGTGGCC ATTTCCCCGG AAAAGCATTA TCTTTTGCAC 
    CACAGTGGCT TCCTGAAGGA TCTAAGCAAG GAGTTCCCAG AGATGGAGAT CTCGTACGAT 
    GCCACGGCTC AGTCCCTGTG CTTGAAGGGC TTCCGTGCAG ATGTATACAA AGTAAAGTGT 
    GACATCCAAG AGAAGGTGTT TTCCATGGCT CAAAAGGATG TCCAGGTCTC TTCTGAAGTC 
    TTCGAATTTC TGCAGCAAGT AGACAGTCAG AGACTCTCTA AGACTCTGTT CGAGGCACAG 
    AACATTCTCG CTATATATGA GCTGAAAGGT ACAGCTCTTT TCTTAGTTGG AAGTTCTTTC 
    AAAGATCTGG CAGAAGCCGA GACAAAAATG CTCAGTGCTT TAAGTCATAA GCAGATTGAA 
    GTTGAGGACA AGGAGGTCCT GATAGGTAAT GGGTGGAAGA AGAAACTTCA CCCTCTGCAA 
    AAGAGACACA GCTCTTGTGC AACCATTATA GTCAAGAATG AATTGACTTC AGAAACCCCG 
    GCAAAGGTCA TTGTTGCAGG CTGTGTGAAA GAAGTGAATG AAATCCATAG GCAGCTTTTT 
    CAGTATTTGG AAAACAACAT GAAAGTTGAA AGAGCGCTTA AAATCAAACC ATCCTTGATT 
    GTTGACTATT TAAGGACAGA CAAGAGGCTC TTGTCAAAGA TAAAGAAGGC ACATGTGTAT 
    GTGCATTTTA AGCCTAAGGA CAATCCAAAC AGCATTTTGC TAACTGGCTG CAAGAGCAAA 
    GTTCTAGAGT GCATGAATCT AGTCAAGGAA ATCCAGGATT CAGTCTGTGT CCAAAGATTC 
    CAGACTGACA AAGCTGGCGT CAGGCACTTC TTCCAAGATA AAGAATCGTA TTACAAAACG 
    GAGATTGGTC GTCAGTTCGG ATGCGTCATT GAACTGGTGG AGGATAGAGA GGAGAAGGGT 
    GAAGAGGAGG AGGGTGAAGA GGAGGGAGAA AGCAACATTA ATGAGCAGAA GTGTCACCTA 
    CAGAGGGACA TAGCCCCCGG AGTCAAACTG TTCGTCCTCG AGGAAGACCT GAGTCGGTTT 
    CCTGTCGATG TGGTAGTGAA TGCAGCAAAT GAGAACCTGA AGCATATCAG CGGTCTCGCA 
    CAGTCTCTCT CAAAGGCAGC TGGCCCTGAA CTCCAAACAG AATGTGACCA GATAGTAAAA 
    GAGGTTGGCG TGGTCCTACC TGGCAATGCT GTTATCTCAA AAGCAGGCAA GCTCCCTTGT 
    CACCACGTCA TCCATGCGGT AGGGCCTCGA TGGAAGGGAG ATAAAGTCCT GGAGTGTGTG 
    AGCCTGCTAA AGAAAGTGGT GAGACAAAGC CTCAGTTTAG CTGAGGAGCA CAAGTGCCGG 
    TCCATAGCCA TGCCAGCCAT CAGCGCTGGA ATCTTTGACT TTCCCTTAGA ACTGTGTGTG 
    GCAAACATTG TTTCAACCAT CAAGGAACAC TTCCAGCATA AGCGAGACAC ACACACCTTG 
    AAAAAGATTT ACCTGGTGGG CCTACCTGCC AAGGTTGCCA GGGCCTTTGC TGAAGCTGTC 
    AAGACTACAT ATAAAGACTC CCTTTCCCAC ACAGCTTCCC CATCCAGTTT AAAGGCTTTA 
    GTACCACTTG GGAAAACGCC CCAGAAACAG GGCAGTCTGC TGGTGTCACC AGAAGGCCTG 
    AGAATCCGCC TGGTAGAAGA AGGCGTGCAG AATGCTACGA CCCATGCCAT TGTGAACTCT 
    ATTTCCCCGG ATCTTAAACT CAACAAAGGA CCCCTTTCTC AGGCCTTCTT GGAAAAGGCT 
    GGGCCAAAAC TCCAGGAGGA ATTGACCAGG TCAGGACAAG GGGTCTCTGT CCATGTGGGC 
    ACAATTCTTC AAACCAGTGG CTGTAATCTC AACAGCCGCC ACGTCTTCCA TGTGGTGCCT 
    CCACCTTGGA AAAGCAACAA CAGTGCGTGG TCACTAAAGA TCATGAAAAA CATCATCCAT 
    GACTGCCTGA AGACCACCGA GTCCCTGTCT CTACAATCGA TTGCATTTCC AGCAATAGGA 
    ACGGGAAATT TGGGGTTTCC TAAACCTGAA TTTGCTAAAT TAATAATTTC AGAAGTGCTC 
    AAATTTAGTA GCAGGAACCA ACTGAAAACT TTACAAGAGG TTCAGTTTCT GCTGCACCCG 
    AAGGACTATG AAAACATTCA GGCATTTTCA GATGAATTTG ACAAGAGGAA TAATGGAGAT 
    CCTAGTGACA AAAATCCCAA GGCTGAAGAC ACACAAGGTA TCTATGGGAG TCTTTCCAGT 
    CCTACTTTAG GAATGCATGA AATGAATATT GGCCCAATCC TCTTCCAAGT GGCCACTGGG 
    AACATCATCA AAGAAGTGGC AGATGTGATT GTCAATTCAA CAACACTCAC ATTTGATCTC 
    AAATCAGGGG TCTCCAAAGC AATTTTGGAA GGTGCAGGAC AAAATGTGGA GCAAGAATGT 
    TCTCTCTTGG CTAAACAGAG TAACCATGGG TATATAGTCA CTGGAGGTGG ACTATTGAAA 
    TGTAAGAATA TTATTCATGT TGTTGGTGGG AATGATGTCA AGAAATCGGT TTCCTGTGTT 
    TTGGAAGAAT GTGAACAACG GAATTACTCA TCCATTTGCC TGCCAGCTAT TGGCACAGGA 
    AATGCTCAAC AGGACCCAAA CGTAGTAGCG AAAGCGATAA TAGATGCCGT TGAAGAATTT 
    GTCCAGAAAA AATCAGTGCA GGCTGTGGAG AGAGTTAAAG TTGTTATTTT CCAGCCCCAT 
    ATTCTGCAAT TTTTTTATGA CAACATGAAA GAGAGAGAAG GGTCTCCAGC TCCCCCCAAG 
    CAGTCAGTGA TGTCTAAGAT TGCCTCCTTT CTTGGCTTTC CCAAGCAAGC TTCCCCCAAA 
    AAGAACACCC TGGTTCTGGA AAAGAAAATA GAGCACACAG TTTTCCAGGT ATGTGGTTCA 
    GGGGTAGACA GTGTGAACAA AACAATCTCC TGGCTAAAGG AACTGATTAC CAAAGAGCAG 
    CTTTCCTACA CCACTGACGA CGAGTGTGTC AGAGACTTTG ACTTGGAGGA GTACGAGAAA 
    CTGAATGAGG TTCAGAAGGA ACTGAACATC ACCATTGAGA TGAACCAGAA GAAAACTTCC 
    ATTCGAGTCT CAGGAATTAG CAGAGACGTG ATAAAAGCTA GAGATGAGAT CGAGGGCATG 
    ATCAAGAGCA TTCGATCAGC TAAAGAAAAG GAAAGCCAGG CAGACTACAT CTCTACATAT 
    GTGGAATGGC AGTATATTGA TAAAAACATC ACACAGTGTT TTGACAAAAT GACCAACATG 
    AAGTTGGAGG ATGCATGGAA GGCCAAGAAG AAGGACACGG TTGTCCAAAT TCACAATCAG 
    GATTTCACAG TGGACTTGAG CACAAACACA GCCACTGCTC CCCAAGGCCA GACTTTCACT 
    GTTCAGCGCC TCGTCAAAGC TGAAGCTGAA ATCCCTGCCA ATTGGAGTGA CATGAAGCAG 
    GAAAAATTGC TTGTGGTGAA TCTGCAAACC AGTGATCCCG AATACAACAA GGTGGCAAGC 
    GCCTTCCGTC AGACCTGCTC AAACTTTTTC ATAGAGAAGA TTGAAAGGAT TCAGAATCCA 
    GCTCTTTGGA GAAGGTATCA GGCATACAAA AAAGGTATGG ATGAAAAGAA TGGCAATGTA 
    AGAAATGAGA AGCATCTCTT CCACGGGACG GAGGTTAGCT CTCTACCACA GCTCAACAGT 
    AATGGATTTA ACCGCAGCTA TGCTGGGAAG AATGCTACTG CCTACGGGAA AGGAACCTAT 
    TTTGCTGTCA ATGCTTCGTA TTCTGCCAGT GACACATATT CCAGACCAGA CACCAATGGG 
    AGAAAGTATA TGTATTATGT GCGGGTTCTC ACTGGAAACT ACACGAATGG AAACGCGTCA 
    CTGATTGTGC CGCCCTCAAG GGACCCTCAA AATGCTGCTG ACTTGTACGA CACCGTCACA 
    GATAATGATA AACGTCCAAG TATATTTGTA GTGTTTTATG ACAACCAAAC GTACCCTGAG 
    TATCTTATCA CATTTAGGCA GTAA

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

    RefSeq XP_021040462.1
    CDS148..5571
    Translation

    Target ORF information:

    RefSeq Version XM_021184803.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli poly(ADP-ribose) polymerase family member 14 (Parp14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021184803.1

    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
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGGCAGCGT CGGGTTCCTT CCCGCTGCTG GTCGAGGGCT CTTGGGGCCC CGACCCCCCA 
    AAGAACTTGA TCAACAAGTT GCAAATGTAC TTCCAGAGCC GGAAGAAATC CGGAGGAGGG 
    GAGTGCGAGG TCGTCCCGGA GCCGGGGAAC CCAGCACGCT TCCGGGTGCT CTTCTCCCCG 
    GAGGATGTTC GGCAGAACGT TCTGGAGAAA GGGAATCATG AGTTAGTGTG GCAAGAAAAA 
    GGAACATTCA AGTTGACTGT CCAGATGCCC ACAGACCCTG AGGAAGCCTC AGTCTCTAAG 
    AAGTCAAGGA AGGAATCTCC AGAAGAGGAG TCCAAGACAA AAGAAGATGC TGTGAAACCA 
    GGTGATTTGG ATATAACACA TTCTCCCAGC AGTGGATCAG AAAAGACAGA AGATGTCCCA 
    AAAGAATGTG AAAATATTTC CTCCATGGTG GCATTTGAAA ACCTGCCCGA GAAAGTATCC 
    GAGATAGTGC TGACCTTCCT GGTGGAGAAT ATAAGTGGCC TCCCCAGTGA TGACTTTAAG 
    GTGGAAGTGA TCCGAGATTT TGCTGTTGCC GTGGTTACCT TTCAGAAGCC TATAGATATC 
    AAAAAATTTA TTGTTGACTG TATCGGCCAC CGCTCAAATC AACAACTCCA GCTTGCCCCG 
    AGACTTCTGG AAACAACGAA TGTAGTCAGG GTGGAAAACC TGCCTCCTGG GGTGGACGAG 
    TACCAGCTGC AACTCTTCTT CGAAAACCCT TTCAACGGGG GCGGAAGGGT CGCCCGAGTT 
    GAGTGTTTCC CAGAAGAGAG TTCGGCACTG GTTGAATTTT GTGACAGCAA AGTGTTAGAC 
    ACCGTCATGG CCAAGACACA CAGTTACAAC AAGATGCCAC TGTCTGTCTT CCCTTATTAT 
    CCCTCTCTGG GCACAGCCTT GTATGGTGAG GAGAAGCCTC TGATCAAGCT TCCAGCATCT 
    TTCCAGGAGT CTCTTGATCT TCCTTTGTGG AAGTTCTTTC AGAAAAATAA TCATCTGATT 
    GAGGAGATAA ATAATGAAAT GAGGTGCTGT CACTGTGAGC TGACATGGTC TGAAATCAAT 
    GGTAAACTGA CCATCAGACC CGCTGCCACC TTAGTCAACC ATAGACTGAG CATCAAGACC 
    TGGCAGAGAG ACGCATCCAC AGTGCTCTCT GGCATCAAGT CTAAATATGG AGTGGAGTTG 
    TTTGAAGTGT GCTCGCCAGT ATGGGACATC ATAAAGCATG AGTTAGAGTC AGGAGATGAC 
    AGGGTTTTAG TTGAGTTTGA AAAGGAGAGT CTAAACATAG CAGGAAAATC AGAAGACGTC 
    CAAGGCATGA GCCAGAAAAT CAGGGAATTA ATAGAGAACA CCACTGAAAA GCTCAGAAGG 
    GAAGAGCAGA GTCTGAAGGA GAAAGTGGCC ATTTCCCCGG AAAAGCATTA TCTTTTGCAC 
    CACAGTGGCT TCCTGAAGGA TCTAAGCAAG GAGTTCCCAG AGATGGAGAT CTCGTACGAT 
    GCCACGGCTC AGTCCCTGTG CTTGAAGGGC TTCCGTGCAG ATGTATACAA AGTAAAGTGT 
    GACATCCAAG AGAAGGTGTT TTCCATGGCT CAAAAGGATG TCCAGGTCTC TTCTGAAGTC 
    TTCGAATTTC TGCAGCAAGT AGACAGTCAG AGACTCTCTA AGACTCTGTT CGAGGCACAG 
    AACATTCTCG CTATATATGA GCTGAAAGGT ACAGCTCTTT TCTTAGTTGG AAGTTCTTTC 
    AAAGATCTGG CAGAAGCCGA GACAAAAATG CTCAGTGCTT TAAGTCATAA GCAGATTGAA 
    GTTGAGGACA AGGAGGTCCT GATAGGTAAT GGGTGGAAGA AGAAACTTCA CCCTCTGCAA 
    AAGAGACACA GCTCTTGTGC AACCATTATA GTCAAGAATG AATTGACTTC AGAAACCCCG 
    GCAAAGGTCA TTGTTGCAGG CTGTGTGAAA GAAGTGAATG AAATCCATAG GCAGCTTTTT 
    CAGTATTTGG AAAACAACAT GAAAGTTGAA AGAGCGCTTA AAATCAAACC ATCCTTGATT 
    GTTGACTATT TAAGGACAGA CAAGAGGCTC TTGTCAAAGA TAAAGAAGGC ACATGTGTAT 
    GTGCATTTTA AGCCTAAGGA CAATCCAAAC AGCATTTTGC TAACTGGCTG CAAGAGCAAA 
    GTTCTAGAGT GCATGAATCT AGTCAAGGAA ATCCAGGATT CAGTCTGTGT CCAAAGATTC 
    CAGACTGACA AAGCTGGCGT CAGGCACTTC TTCCAAGATA AAGAATCGTA TTACAAAACG 
    GAGATTGGTC GTCAGTTCGG ATGCGTCATT GAACTGGTGG AGGATAGAGA GGAGAAGGGT 
    GAAGAGGAGG AGGGTGAAGA GGAGGGAGAA AGCAACATTA ATGAGCAGAA GTGTCACCTA 
    CAGAGGGACA TAGCCCCCGG AGTCAAACTG TTCGTCCTCG AGGAAGACCT GAGTCGGTTT 
    CCTGTCGATG TGGTAGTGAA TGCAGCAAAT GAGAACCTGA AGCATATCAG CGGTCTCGCA 
    CAGTCTCTCT CAAAGGCAGC TGGCCCTGAA CTCCAAACAG AATGTGACCA GATAGTAAAA 
    GAGGTTGGCG TGGTCCTACC TGGCAATGCT GTTATCTCAA AAGCAGGCAA GCTCCCTTGT 
    CACCACGTCA TCCATGCGGT AGGGCCTCGA TGGAAGGGAG ATAAAGTCCT GGAGTGTGTG 
    AGCCTGCTAA AGAAAGTGGT GAGACAAAGC CTCAGTTTAG CTGAGGAGCA CAAGTGCCGG 
    TCCATAGCCA TGCCAGCCAT CAGCGCTGGA ATCTTTGACT TTCCCTTAGA ACTGTGTGTG 
    GCAAACATTG TTTCAACCAT CAAGGAACAC TTCCAGCATA AGCGAGACAC ACACACCTTG 
    AAAAAGATTT ACCTGGTGGG CCTACCTGCC AAGGTTGCCA GGGCCTTTGC TGAAGCTGTC 
    AAGACTACAT ATAAAGACTC CCTTTCCCAC ACAGCTTCCC CATCCAGTTT AAAGGCTTTA 
    GTACCACTTG GGAAAACGCC CCAGAAACAG GGCAGTCTGC TGGTGTCACC AGAAGGCCTG 
    AGAATCCGCC TGGTAGAAGA AGGCGTGCAG AATGCTACGA CCCATGCCAT TGTGAACTCT 
    ATTTCCCCGG ATCTTAAACT CAACAAAGGA CCCCTTTCTC AGGCCTTCTT GGAAAAGGCT 
    GGGCCAAAAC TCCAGGAGGA ATTGACCAGG TCAGGACAAG GGGTCTCTGT CCATGTGGGC 
    ACAATTCTTC AAACCAGTGG CTGTAATCTC AACAGCCGCC ACGTCTTCCA TGTGGTGCCT 
    CCACCTTGGA AAAGCAACAA CAGTGCGTGG TCACTAAAGA TCATGAAAAA CATCATCCAT 
    GACTGCCTGA AGACCACCGA GTCCCTGTCT CTACAATCGA TTGCATTTCC AGCAATAGGA 
    ACGGGAAATT TGGGGTTTCC TAAACCTGAA TTTGCTAAAT TAATAATTTC AGAAGTGCTC 
    AAATTTAGTA GCAGGAACCA ACTGAAAACT TTACAAGAGG TTCAGTTTCT GCTGCACCCG 
    AAGGACTATG AAAACATTCA GGCATTTTCA GATGAATTTG ACAAGAGGAA TAATGGAGAT 
    CCTAGTGACA AAAATCCCAA GGCTGAAGAC ACACAAGGTA TCTATGGGAG TCTTTCCAGT 
    CCTACTTTAG GAATGCATGA AATGAATATT GGCCCAATCC TCTTCCAAGT GGCCACTGGG 
    AACATCATCA AAGAAGTGGC AGATGTGATT GTCAATTCAA CAACACTCAC ATTTGATCTC 
    AAATCAGGGG TCTCCAAAGC AATTTTGGAA GGTGCAGGAC AAAATGTGGA GCAAGAATGT 
    TCTCTCTTGG CTAAACAGAG TAACCATGGG TATATAGTCA CTGGAGGTGG ACTATTGAAA 
    TGTAAGAATA TTATTCATGT TGTTGGTGGG AATGATGTCA AGAAATCGGT TTCCTGTGTT 
    TTGGAAGAAT GTGAACAACG GAATTACTCA TCCATTTGCC TGCCAGCTAT TGGCACAGGA 
    AATGCTCAAC AGGACCCAAA CGTAGTAGCG AAAGCGATAA TAGATGCCGT TGAAGAATTT 
    GTCCAGAAAA AATCAGTGCA GGCTGTGGAG AGAGTTAAAG TTGTTATTTT CCAGCCCCAT 
    ATTCTGCAAT TTTTTTATGA CAACATGAAA GAGAGAGAAG GGTCTCCAGC TCCCCCCAAG 
    CAGTCAGTGA TGTCTAAGAT TGCCTCCTTT CTTGGCTTTC CCAAGCAAGC TTCCCCCAAA 
    AAGAACACCC TGGTTCTGGA AAAGAAAATA GAGCACACAG TTTTCCAGGT ATGTGGTTCA 
    GGGGTAGACA GTGTGAACAA AACAATCTCC TGGCTAAAGG AACTGATTAC CAAAGAGCAG 
    CTTTCCTACA CCACTGACGA CGAGTGTGTC AGAGACTTTG ACTTGGAGGA GTACGAGAAA 
    CTGAATGAGG TTCAGAAGGA ACTGAACATC ACCATTGAGA TGAACCAGAA GAAAACTTCC 
    ATTCGAGTCT CAGGAATTAG CAGAGACGTG ATAAAAGCTA GAGATGAGAT CGAGGGCATG 
    ATCAAGAGCA TTCGATCAGC TAAAGAAAAG GAAAGCCAGG CAGACTACAT CTCTACATAT 
    GTGGAATGGC AGTATATTGA TAAAAACATC ACACAGTGTT TTGACAAAAT GACCAACATG 
    AAGTTGGAGG ATGCATGGAA GGCCAAGAAG AAGGACACGG TTGTCCAAAT TCACAATCAG 
    GATTTCACAG TGGACTTGAG CACAAACACA GCCACTGCTC CCCAAGGCCA GACTTTCACT 
    GTTCAGCGCC TCGTCAAAGC TGAAGCTGAA ATCCCTGCCA ATTGGAGTGA CATGAAGCAG 
    GAAAAATTGC TTGTGGTGAA TCTGCAAACC AGTGATCCCG AATACAACAA GGTGGCAAGC 
    GCCTTCCGTC AGACCTGCTC AAACTTTTTC ATAGAGAAGA TTGAAAGGAT TCAGAATCCA 
    GCTCTTTGGA GAAGGTATCA GGCATACAAA AAAGGTATGG ATGAAAAGAA TGGCAATGTA 
    AGAAATGAGA AGCATCTCTT CCACGGGACG GAGGTTAGCT CTCTACCACA GCTCAACAGT 
    AATGGATTTA ACCGCAGCTA TGCTGGGAAG AATGCTACTG CCTACGGGAA AGGAACCTAT 
    TTTGCTGTCA ATGCTTCGTA TTCTGCCAGT GACACATATT CCAGACCAGA CACCAATGGG 
    AGAAAGTATA TGTATTATGT GCGGGTTCTC ACTGGAAACT ACACGAATGG AAACGCGTCA 
    CTGATTGTGC CGCCCTCAAG GGACCCTCAA AATGCTGCTG ACTTGTACGA CACCGTCACA 
    GATAATGATA AACGTCCAAG TATATTTGTA GTGTTTTATG ACAACCAAAC GTACCCTGAG 
    TATCTTATCA CATTTAGGCA GTAA

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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