ORF » Species Summary » Ailuropoda melanoleuca » PARP4 cDNA ORF clone

PARP4 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

The following PARP4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PARP4 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
OAc32426 XM_011232892.2
Latest version!		 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc32427 XM_011232893.2
Latest version!		 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc97290 XM_019806386.1
Latest version!		 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OAc97291 XM_019806387.1
Latest version!		 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    PARP4 ( XM_011232892.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011231194.1 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAc32426
    Clone ID Related Accession (Same CDS sequence) XM_011232892.2
    Accession Version XM_011232892.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5082bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product poly [ADP-ribose] polymerase 4 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218267.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232892.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GCGCACAGAC TGCAAAGCTG TAATTAGCAC CATGGAAGGT 
    AGCTCCTTAG ACAGTGATGG ATTCTCTCTT CATGTTGGTT TGTCTGATGC ATATCTCCCA 
    AGAATGTGGG TTGAAAAACA TCCAGAAAAA GAAAGCGAGG CCTGCATGCT TGTTTTTCAA 
    CCAGATCTCG GTATCACACT TCCTGACCTA GCCGAGAACA GTGAAGTGAT TATTTGTCTC 
    GATTGCTCCA ATTCCATGGA GGGTGCAACA TTCTTGCAAG CCAAGCAAAT TGCCTTCTAT 
    GCGCTGTCCT TGATGGGTAA GAAGCAAAAG ATAAACATTG TCAAGTTTGG CACAGGTTAC 
    AAGGAATTAT TTTCATATCC CAAGTACATC ACAAGCAATA ATATGCCAGC AGAGTTCATT 
    ATGTCGGCTA CACCTACCAT GGGAAATACA GACTTCTGGA AAACGCTCCG ATATTTAAAT 
    CTACTGTACC CTTCTCAAGG CTTACGGAGC ATTCTCCTTA TATCTGACGG GCACCTCCAG 
    AATGAGAGTC TGACTTTGCA GCTTGTGAAG AGAAATGTCC AGCACACCAG GCTGTTCTCC 
    TGTGGTATTG GTTCTACAGC AAATCGTCAT ATCTTAAGGA CTTTGTCCCA GTACGGTGCT 
    GGAGTATTTG AGTATTTTAA CTCAAAATCC AAACATAGTT GGAAAAAACA GATAGAAGAC 
    CAAATGACTA GGTTACATTC TCCAAGTTGC CACTCTGTCT CCATCAAATG GCAGCAACTA 
    AGTACAGATG CACCGGAGCC TCTGCAGGCT CCAGCCCAGG TGCAGTCTTT GTTTCACAAT 
    GAGCGACTCC TTGTCTATGG ATTTATTCCT CATTGTACAC AGGCAACTCT ATGTGCATTG 
    ATTCAAGAGA AAGAATTTTC TACAGTAGTA GCAACTACTG AACTTCAGAA GACAACTGGA 
    ACTATGATCC ACAAGCTGAC AGCGCGAGCT CTGATCCGAG ATTATGAAGA TGGCATTCTC 
    CACGAAAATG AAACGAATCA TGAGATGAAG AAGCAAATCT TAAAATCTCT GATTATTAAA 
    CTCAGTAAAG AAAACTCTCT CATAACACAA TTCACAAGCT TTGTGGCAGT TGAGAAAAGG 
    GATGGTAAGG AGCCACCTTC TCCTAATATT CCAAATATTT TGGAACTTAT TGCTGAAGAA 
    GATGTAGATT TTCTGCCATA CATCAGCTGG CAGGAGGAGC AACCAGATAC CAGTGTGGCA 
    CAGCCTCCTT CAGCATTCTT TGAATGGAAT GAAGAACTGC AACAAGCGCA TTTGACTAAC 
    AGAAAGTTTA GATCATCTCA ACTTCAAGAT TCTGAAGATT CTGAAGATGT TGGTTCCCAA 
    CTATCAGAAA AACCTTTAAC ACTCAATTTT GAATGTAGAG ATGTGGAAAA GCCATTGGGT 
    TTAAGTCGGA TGGATTCATT TAAACGACCA CTATGTAGAG ATGCCCCTTT CCCAAAACTG 
    GTTGGTTGCA GCATTTCTGC TGCTCCTGGT TCAGCCCATT TGGAAGATGA GCACTTAGAT 
    GGTTCTAGTT TCTTCCATCC TCCCCACTTA CATTCTAAAA AGTTTGCTAG GAGTCTCAAA 
    CAGTTTGGTC CATTTAAGAA TGACCAAGAC CTTCAAGCTG ACTATTTGGG TGACATTACC 
    CCTGTGTCAT GTACCCCTTT CGGACTGCCT TCCCCATGTT TTGGATCCTT TGCTTTTTCT 
    GCTCTTGCAG GTGCCTCATT TAACTCCAGA GAGGTTAATC TACCTGTCAC TTATCAAGGC 
    CATAAGACCG ACAATTCTGC GAGCATTTTC CCTGATTTGG ACTCTCCCCT GCAGCTGAAT 
    AGTCTTTTGC CTCCTCATAG AGTTAATTCG GCTGGTCCAT CCAGAGGGTT TGACGTTCAT 
    TCACTTTCTC ATTCTCCCTA TTTACAAAAC TCTCCAGTTC ATTTCAGCAC CAATTACAAG 
    CCACCAACAG ATCTGTTTGC TAACACTGAA TTGGAGGGTT CTTCCTGTAC AGATCTTTCT 
    GCCGGAATTT CATTATCTGC TTCACGTAGT GGAAGTTTTT CTGAAACAGA AAGTAATGAA 
    ACACCAGGAT TTATGGCAAG TTATTTTTTT CAAAAAGTGG CAAAATCTGA TATAACAGGA 
    AGTGACTTTA CTGCAAGCTT TCAGGCAAAA AGAGATGAAC AGAGCTGGAT GTATTTTGTG 
    CCTTGGACTG AACTCTTCAG CCTACAAACT GAGGATGGCT TCTGGAAACT TACGCCAGAA 
    CTGGGATTTA TATTAAACCT TAATACAAAT ATTTTAAGCA GCTTTCTTGA ACAAAAAGGC 
    ATTCAATCTC TGGGTATAAA AGGAAGAGAG CGTCTCCTGG ACCTGATCGC CACATTTCTG 
    GTACTACAGT TTCTTCGTAC CAAGTTGGAA CAAAAGGGAA TAGTCTTCAA ATCACTGATG 
    AAATTGGATG ATGCTTCCAT TTCCAGAAAT GTTCCCTGGG CTTTTGAAGA AATAAAGAAA 
    GCAAGTGAAT GGGTAAGAAG AACTGAAGGA CAATATCCAT CTATCTGCCA ACGACTTGAA 
    TTGGGTCAAG ATTGGGACTC TGCCACTAAA CAGCTATTGG GGATCCAAAC CATAAACACC 
    ACATCTCCCC TTCACAGAGT TCTTAATTAC AGTCAAGGCT GA

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

    RefSeq XP_011231194.1
    CDS258..5339
    Translation

    Target ORF information:

    RefSeq Version XM_011232892.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011232892.2

    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
    4801
    4861
    4921
    4981
    5041
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GCGCACAGAC TGCAAAGCTG TAATTAGCAC CATGGAAGGT 
    AGCTCCTTAG ACAGTGATGG ATTCTCTCTT CATGTTGGTT TGTCTGATGC ATATCTCCCA 
    AGAATGTGGG TTGAAAAACA TCCAGAAAAA GAAAGCGAGG CCTGCATGCT TGTTTTTCAA 
    CCAGATCTCG GTATCACACT TCCTGACCTA GCCGAGAACA GTGAAGTGAT TATTTGTCTC 
    GATTGCTCCA ATTCCATGGA GGGTGCAACA TTCTTGCAAG CCAAGCAAAT TGCCTTCTAT 
    GCGCTGTCCT TGATGGGTAA GAAGCAAAAG ATAAACATTG TCAAGTTTGG CACAGGTTAC 
    AAGGAATTAT TTTCATATCC CAAGTACATC ACAAGCAATA ATATGCCAGC AGAGTTCATT 
    ATGTCGGCTA CACCTACCAT GGGAAATACA GACTTCTGGA AAACGCTCCG ATATTTAAAT 
    CTACTGTACC CTTCTCAAGG CTTACGGAGC ATTCTCCTTA TATCTGACGG GCACCTCCAG 
    AATGAGAGTC TGACTTTGCA GCTTGTGAAG AGAAATGTCC AGCACACCAG GCTGTTCTCC 
    TGTGGTATTG GTTCTACAGC AAATCGTCAT ATCTTAAGGA CTTTGTCCCA GTACGGTGCT 
    GGAGTATTTG AGTATTTTAA CTCAAAATCC AAACATAGTT GGAAAAAACA GATAGAAGAC 
    CAAATGACTA GGTTACATTC TCCAAGTTGC CACTCTGTCT CCATCAAATG GCAGCAACTA 
    AGTACAGATG CACCGGAGCC TCTGCAGGCT CCAGCCCAGG TGCAGTCTTT GTTTCACAAT 
    GAGCGACTCC TTGTCTATGG ATTTATTCCT CATTGTACAC AGGCAACTCT ATGTGCATTG 
    ATTCAAGAGA AAGAATTTTC TACAGTAGTA GCAACTACTG AACTTCAGAA GACAACTGGA 
    ACTATGATCC ACAAGCTGAC AGCGCGAGCT CTGATCCGAG ATTATGAAGA TGGCATTCTC 
    CACGAAAATG AAACGAATCA TGAGATGAAG AAGCAAATCT TAAAATCTCT GATTATTAAA 
    CTCAGTAAAG AAAACTCTCT CATAACACAA TTCACAAGCT TTGTGGCAGT TGAGAAAAGG 
    GATGGTAAGG AGCCACCTTC TCCTAATATT CCAAATATTT TGGAACTTAT TGCTGAAGAA 
    GATGTAGATT TTCTGCCATA CATCAGCTGG CAGGAGGAGC AACCAGATAC CAGTGTGGCA 
    CAGCCTCCTT CAGCATTCTT TGAATGGAAT GAAGAACTGC AACAAGCGCA TTTGACTAAC 
    AGAAAGTTTA GATCATCTCA ACTTCAAGAT TCTGAAGATT CTGAAGATGT TGGTTCCCAA 
    CTATCAGAAA AACCTTTAAC ACTCAATTTT GAATGTAGAG ATGTGGAAAA GCCATTGGGT 
    TTAAGTCGGA TGGATTCATT TAAACGACCA CTATGTAGAG ATGCCCCTTT CCCAAAACTG 
    GTTGGTTGCA GCATTTCTGC TGCTCCTGGT TCAGCCCATT TGGAAGATGA GCACTTAGAT 
    GGTTCTAGTT TCTTCCATCC TCCCCACTTA CATTCTAAAA AGTTTGCTAG GAGTCTCAAA 
    CAGTTTGGTC CATTTAAGAA TGACCAAGAC CTTCAAGCTG ACTATTTGGG TGACATTACC 
    CCTGTGTCAT GTACCCCTTT CGGACTGCCT TCCCCATGTT TTGGATCCTT TGCTTTTTCT 
    GCTCTTGCAG GTGCCTCATT TAACTCCAGA GAGGTTAATC TACCTGTCAC TTATCAAGGC 
    CATAAGACCG ACAATTCTGC GAGCATTTTC CCTGATTTGG ACTCTCCCCT GCAGCTGAAT 
    AGTCTTTTGC CTCCTCATAG AGTTAATTCG GCTGGTCCAT CCAGAGGGTT TGACGTTCAT 
    TCACTTTCTC ATTCTCCCTA TTTACAAAAC TCTCCAGTTC ATTTCAGCAC CAATTACAAG 
    CCACCAACAG ATCTGTTTGC TAACACTGAA TTGGAGGGTT CTTCCTGTAC AGATCTTTCT 
    GCCGGAATTT CATTATCTGC TTCACGTAGT GGAAGTTTTT CTGAAACAGA AAGTAATGAA 
    ACACCAGGAT TTATGGCAAG TTATTTTTTT CAAAAAGTGG CAAAATCTGA TATAACAGGA 
    AGTGACTTTA CTGCAAGCTT TCAGGCAAAA AGAGATGAAC AGAGCTGGAT GTATTTTGTG 
    CCTTGGACTG AACTCTTCAG CCTACAAACT GAGGATGGCT TCTGGAAACT TACGCCAGAA 
    CTGGGATTTA TATTAAACCT TAATACAAAT ATTTTAAGCA GCTTTCTTGA ACAAAAAGGC 
    ATTCAATCTC TGGGTATAAA AGGAAGAGAG CGTCTCCTGG ACCTGATCGC CACATTTCTG 
    GTACTACAGT TTCTTCGTAC CAAGTTGGAA CAAAAGGGAA TAGTCTTCAA ATCACTGATG 
    AAATTGGATG ATGCTTCCAT TTCCAGAAAT GTTCCCTGGG CTTTTGAAGA AATAAAGAAA 
    GCAAGTGAAT GGGTAAGAAG AACTGAAGGA CAATATCCAT CTATCTGCCA ACGACTTGAA 
    TTGGGTCAAG ATTGGGACTC TGCCACTAAA CAGCTATTGG GGATCCAAAC CATAAACACC 
    ACATCTCCCC TTCACAGAGT TCTTAATTAC AGTCAAGGCT GA

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

    PARP4 ( XM_011232893.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011231195.1 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAc32427
    Clone ID Related Accession (Same CDS sequence) XM_011232893.2
    Accession Version XM_011232893.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5067bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product poly [ADP-ribose] polymerase 4 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218267.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011232893.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GACATATGCC 
    AATCGAAGTT CTGTGCCAAT TGAGGCAAGA TATATTTTTC CTTTGGATGA TAAGGCAGCT 
    GTGTGTGGTT TTGAAGCATT CATCAATGGA AAGCACATAG TAGGAGAGGT TAAAGAGAAG 
    GAAGCAGCCC ACCGTGAATA CCGAGAAGCC ATCAGTCAAG GCCATGGCGC ATACTTGATG 
    GACCAGGATG CACCCGATGT TTTTACTATT AGTGTTGGAA ATCTACCCCC TAAGGCTAAG 
    GTTCTTATCA AAATCACCTA CATCACAGAA CTCAGCATCC AAGGTAGCAG GGCTGTCTTC 
    TTCATGCCTG CCACCGTGGC ACCCTGGCAA CAGGACAAAG TTTTGAATGA AAACATTCAG 
    GATACAGTAG AGAAGATTTA TATAGAGAAA ATAGGAATAA AACAAAGCTT CTCTTTGAGT 
    ATGTCCATTG AGATGCCATA CGTGATTGAA TCCATTTCTA GTGATACACA TGAACTGAGA 
    CAAAAGCGCA CAGACTGCAA AGCTGTAATT AGCACCATGG AAGGTAGCTC CTTAGACAGT 
    GATGGATTCT CTCTTCATGT TGGTTTGTCT GATGCATATC TCCCAAGAAT GTGGGTTGAA 
    AAACATCCAG AAAAAGAAAG CGAGGCCTGC ATGCTTGTTT TTCAACCAGA TCTCGGTATC 
    ACACTTCCTG ACCTAGCCGA GAACAGTGAA GTGATTATTT GTCTCGATTG CTCCAATTCC 
    ATGGAGGGTG CAACATTCTT GCAAGCCAAG CAAATTGCCT TCTATGCGCT GTCCTTGATG 
    GGTAAGAAGC AAAAGATAAA CATTGTCAAG TTTGGCACAG GTTACAAGGA ATTATTTTCA 
    TATCCCAAGT ACATCACAAG CAATAATATG CCAGCAGAGT TCATTATGTC GGCTACACCT 
    ACCATGGGAA ATACAGACTT CTGGAAAACG CTCCGATATT TAAATCTACT GTACCCTTCT 
    CAAGGCTTAC GGAGCATTCT CCTTATATCT GACGGGCACC TCCAGAATGA GAGTCTGACT 
    TTGCAGCTTG TGAAGAGAAA TGTCCAGCAC ACCAGGCTGT TCTCCTGTGG TATTGGTTCT 
    ACAGCAAATC GTCATATCTT AAGGACTTTG TCCCAGTACG GTGCTGGAGT ATTTGAGTAT 
    TTTAACTCAA AATCCAAACA TAGTTGGAAA AAACAGATAG AAGACCAAAT GACTAGGTTA 
    CATTCTCCAA GTTGCCACTC TGTCTCCATC AAATGGCAGC AACTAAGTAC AGATGCACCG 
    GAGCCTCTGC AGGCTCCAGC CCAGGTGCAG TCTTTGTTTC ACAATGAGCG ACTCCTTGTC 
    TATGGATTTA TTCCTCATTG TACACAGGCA ACTCTATGTG CATTGATTCA AGAGAAAGAA 
    TTTTCTACAG TAGTAGCAAC TACTGAACTT CAGAAGACAA CTGGAACTAT GATCCACAAG 
    CTGACAGCGC GAGCTCTGAT CCGAGATTAT GAAGATGGCA TTCTCCACGA AAATGAAACG 
    AATCATGAGA TGAAGAAGCA AATCTTAAAA TCTCTGATTA TTAAACTCAG TAAAGAAAAC 
    TCTCTCATAA CACAATTCAC AAGCTTTGTG GCAGTTGAGA AAAGGGATGG TAAGGAGCCA 
    CCTTCTCCTA ATATTCCAAA TATTTTGGAA CTTATTGCTG AAGAAGATGT AGATTTTCTG 
    CCATACATCA GCTGGCAGGA GGAGCAACCA GATACCAGTG TGGCACAGCC TCCTTCAGCA 
    TTCTTTGAAT GGAATGAAGA ACTGCAACAA GCGCATTTGA CTAACAGAAA GTTTAGATCA 
    TCTCAACTTC AAGATTCTGA AGATTCTGAA GATGTTGGTT CCCAACTATC AGAAAAACCT 
    TTAACACTCA ATTTTGAATG TAGAGATGTG GAAAAGCCAT TGGGTTTAAG TCGGATGGAT 
    TCATTTAAAC GACCACTATG TAGAGATGCC CCTTTCCCAA AACTGGTTGG TTGCAGCATT 
    TCTGCTGCTC CTGGTTCAGC CCATTTGGAA GATGAGCACT TAGATGGTTC TAGTTTCTTC 
    CATCCTCCCC ACTTACATTC TAAAAAGTTT GCTAGGAGTC TCAAACAGTT TGGTCCATTT 
    AAGAATGACC AAGACCTTCA AGCTGACTAT TTGGGTGACA TTACCCCTGT GTCATGTACC 
    CCTTTCGGAC TGCCTTCCCC ATGTTTTGGA TCCTTTGCTT TTTCTGCTCT TGCAGGTGCC 
    TCATTTAACT CCAGAGAGGT TAATCTACCT GTCACTTATC AAGGCCATAA GACCGACAAT 
    TCTGCGAGCA TTTTCCCTGA TTTGGACTCT CCCCTGCAGC TGAATAGTCT TTTGCCTCCT 
    CATAGAGTTA ATTCGGCTGG TCCATCCAGA GGGTTTGACG TTCATTCACT TTCTCATTCT 
    CCCTATTTAC AAAACTCTCC AGTTCATTTC AGCACCAATT ACAAGCCACC AACAGATCTG 
    TTTGCTAACA CTGAATTGGA GGGTTCTTCC TGTACAGATC TTTCTGCCGG AATTTCATTA 
    TCTGCTTCAC GTAGTGGAAG TTTTTCTGAA ACAGAAAGTA ATGAAACACC AGGATTTATG 
    GCAAGTTATT TTTTTCAAAA AGTGGCAAAA TCTGATATAA CAGGAAGTGA CTTTACTGCA 
    AGCTTTCAGG CAAAAAGAGA TGAACAGAGC TGGATGTATT TTGTGCCTTG GACTGAACTC 
    TTCAGCCTAC AAACTGAGGA TGGCTTCTGG AAACTTACGC CAGAACTGGG ATTTATATTA 
    AACCTTAATA CAAATATTTT AAGCAGCTTT CTTGAACAAA AAGGCATTCA ATCTCTGGGT 
    ATAAAAGGAA GAGAGCGTCT CCTGGACCTG ATCGCCACAT TTCTGGTACT ACAGTTTCTT 
    CGTACCAAGT TGGAACAAAA GGGAATAGTC TTCAAATCAC TGATGAAATT GGATGATGCT 
    TCCATTTCCA GAAATGTTCC CTGGGCTTTT GAAGAAATAA AGAAAGCAAG TGAATGGGTA 
    AGAAGAACTG AAGGACAATA TCCATCTATC TGCCAACGAC TTGAATTGGG TCAAGATTGG 
    GACTCTGCCA CTAAACAGCT ATTGGGGATC CAAACCATAA ACACCACATC TCCCCTTCAC 
    AGAGTTCTTA ATTACAGTCA AGGCTGA

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

    RefSeq XP_011231195.1
    CDS258..5324
    Translation

    Target ORF information:

    RefSeq Version XM_011232893.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011232893.2

    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
    4801
    4861
    4921
    4981
    5041
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GACATATGCC 
    AATCGAAGTT CTGTGCCAAT TGAGGCAAGA TATATTTTTC CTTTGGATGA TAAGGCAGCT 
    GTGTGTGGTT TTGAAGCATT CATCAATGGA AAGCACATAG TAGGAGAGGT TAAAGAGAAG 
    GAAGCAGCCC ACCGTGAATA CCGAGAAGCC ATCAGTCAAG GCCATGGCGC ATACTTGATG 
    GACCAGGATG CACCCGATGT TTTTACTATT AGTGTTGGAA ATCTACCCCC TAAGGCTAAG 
    GTTCTTATCA AAATCACCTA CATCACAGAA CTCAGCATCC AAGGTAGCAG GGCTGTCTTC 
    TTCATGCCTG CCACCGTGGC ACCCTGGCAA CAGGACAAAG TTTTGAATGA AAACATTCAG 
    GATACAGTAG AGAAGATTTA TATAGAGAAA ATAGGAATAA AACAAAGCTT CTCTTTGAGT 
    ATGTCCATTG AGATGCCATA CGTGATTGAA TCCATTTCTA GTGATACACA TGAACTGAGA 
    CAAAAGCGCA CAGACTGCAA AGCTGTAATT AGCACCATGG AAGGTAGCTC CTTAGACAGT 
    GATGGATTCT CTCTTCATGT TGGTTTGTCT GATGCATATC TCCCAAGAAT GTGGGTTGAA 
    AAACATCCAG AAAAAGAAAG CGAGGCCTGC ATGCTTGTTT TTCAACCAGA TCTCGGTATC 
    ACACTTCCTG ACCTAGCCGA GAACAGTGAA GTGATTATTT GTCTCGATTG CTCCAATTCC 
    ATGGAGGGTG CAACATTCTT GCAAGCCAAG CAAATTGCCT TCTATGCGCT GTCCTTGATG 
    GGTAAGAAGC AAAAGATAAA CATTGTCAAG TTTGGCACAG GTTACAAGGA ATTATTTTCA 
    TATCCCAAGT ACATCACAAG CAATAATATG CCAGCAGAGT TCATTATGTC GGCTACACCT 
    ACCATGGGAA ATACAGACTT CTGGAAAACG CTCCGATATT TAAATCTACT GTACCCTTCT 
    CAAGGCTTAC GGAGCATTCT CCTTATATCT GACGGGCACC TCCAGAATGA GAGTCTGACT 
    TTGCAGCTTG TGAAGAGAAA TGTCCAGCAC ACCAGGCTGT TCTCCTGTGG TATTGGTTCT 
    ACAGCAAATC GTCATATCTT AAGGACTTTG TCCCAGTACG GTGCTGGAGT ATTTGAGTAT 
    TTTAACTCAA AATCCAAACA TAGTTGGAAA AAACAGATAG AAGACCAAAT GACTAGGTTA 
    CATTCTCCAA GTTGCCACTC TGTCTCCATC AAATGGCAGC AACTAAGTAC AGATGCACCG 
    GAGCCTCTGC AGGCTCCAGC CCAGGTGCAG TCTTTGTTTC ACAATGAGCG ACTCCTTGTC 
    TATGGATTTA TTCCTCATTG TACACAGGCA ACTCTATGTG CATTGATTCA AGAGAAAGAA 
    TTTTCTACAG TAGTAGCAAC TACTGAACTT CAGAAGACAA CTGGAACTAT GATCCACAAG 
    CTGACAGCGC GAGCTCTGAT CCGAGATTAT GAAGATGGCA TTCTCCACGA AAATGAAACG 
    AATCATGAGA TGAAGAAGCA AATCTTAAAA TCTCTGATTA TTAAACTCAG TAAAGAAAAC 
    TCTCTCATAA CACAATTCAC AAGCTTTGTG GCAGTTGAGA AAAGGGATGG TAAGGAGCCA 
    CCTTCTCCTA ATATTCCAAA TATTTTGGAA CTTATTGCTG AAGAAGATGT AGATTTTCTG 
    CCATACATCA GCTGGCAGGA GGAGCAACCA GATACCAGTG TGGCACAGCC TCCTTCAGCA 
    TTCTTTGAAT GGAATGAAGA ACTGCAACAA GCGCATTTGA CTAACAGAAA GTTTAGATCA 
    TCTCAACTTC AAGATTCTGA AGATTCTGAA GATGTTGGTT CCCAACTATC AGAAAAACCT 
    TTAACACTCA ATTTTGAATG TAGAGATGTG GAAAAGCCAT TGGGTTTAAG TCGGATGGAT 
    TCATTTAAAC GACCACTATG TAGAGATGCC CCTTTCCCAA AACTGGTTGG TTGCAGCATT 
    TCTGCTGCTC CTGGTTCAGC CCATTTGGAA GATGAGCACT TAGATGGTTC TAGTTTCTTC 
    CATCCTCCCC ACTTACATTC TAAAAAGTTT GCTAGGAGTC TCAAACAGTT TGGTCCATTT 
    AAGAATGACC AAGACCTTCA AGCTGACTAT TTGGGTGACA TTACCCCTGT GTCATGTACC 
    CCTTTCGGAC TGCCTTCCCC ATGTTTTGGA TCCTTTGCTT TTTCTGCTCT TGCAGGTGCC 
    TCATTTAACT CCAGAGAGGT TAATCTACCT GTCACTTATC AAGGCCATAA GACCGACAAT 
    TCTGCGAGCA TTTTCCCTGA TTTGGACTCT CCCCTGCAGC TGAATAGTCT TTTGCCTCCT 
    CATAGAGTTA ATTCGGCTGG TCCATCCAGA GGGTTTGACG TTCATTCACT TTCTCATTCT 
    CCCTATTTAC AAAACTCTCC AGTTCATTTC AGCACCAATT ACAAGCCACC AACAGATCTG 
    TTTGCTAACA CTGAATTGGA GGGTTCTTCC TGTACAGATC TTTCTGCCGG AATTTCATTA 
    TCTGCTTCAC GTAGTGGAAG TTTTTCTGAA ACAGAAAGTA ATGAAACACC AGGATTTATG 
    GCAAGTTATT TTTTTCAAAA AGTGGCAAAA TCTGATATAA CAGGAAGTGA CTTTACTGCA 
    AGCTTTCAGG CAAAAAGAGA TGAACAGAGC TGGATGTATT TTGTGCCTTG GACTGAACTC 
    TTCAGCCTAC AAACTGAGGA TGGCTTCTGG AAACTTACGC CAGAACTGGG ATTTATATTA 
    AACCTTAATA CAAATATTTT AAGCAGCTTT CTTGAACAAA AAGGCATTCA ATCTCTGGGT 
    ATAAAAGGAA GAGAGCGTCT CCTGGACCTG ATCGCCACAT TTCTGGTACT ACAGTTTCTT 
    CGTACCAAGT TGGAACAAAA GGGAATAGTC TTCAAATCAC TGATGAAATT GGATGATGCT 
    TCCATTTCCA GAAATGTTCC CTGGGCTTTT GAAGAAATAA AGAAAGCAAG TGAATGGGTA 
    AGAAGAACTG AAGGACAATA TCCATCTATC TGCCAACGAC TTGAATTGGG TCAAGATTGG 
    GACTCTGCCA CTAAACAGCT ATTGGGGATC CAAACCATAA ACACCACATC TCCCCTTCAC 
    AGAGTTCTTA ATTACAGTCA AGGCTGA

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

    PARP4 ( XM_019806386.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661945.1 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAc97290
    Clone ID Related Accession (Same CDS sequence) XM_019806386.1
    Accession Version XM_019806386.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5001bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product poly [ADP-ribose] polymerase 4 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218267.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GCGCACAGAC TGCAAAGCTG TAATTAGCAC CATGGAAGGT 
    AGCTCCTTAG ACAGTGATGG ATTCTCTCTT CATGTTGGTT TGTCTGATGC ATATCTCCCA 
    AGAATGTGGG TTGAAAAACA TCCAGAAAAA GAAAGCGAGG CCTGCATGCT TGTTTTTCAA 
    CCAGATCTCG GTATCACACT TCCTGACCTA GCCGAGAACA GTGAAGTGAT TATTTGTCTC 
    GATTGCTCCA ATTCCATGGA GGGTGCAACA TTCTTGCAAG CCAAGCAAAT TGCCTTCTAT 
    GCGCTGTCCT TGATGGGTAA GAAGCAAAAG ATAAACATTG TCAAGTTTGG CACAGGTTAC 
    AAGGAATTAT TTTCATATCC CAAGTACATC ACAAGCAATA ATATGCCAGC AGAGTTCATT 
    ATGTCGGCTA CACCTACCAT GGGAAATACA GACTTCTGGA AAACGCTCCG ATATTTAAAT 
    CTACTGTACC CTTCTCAAGG CTTACGGAGC ATTCTCCTTA TATCTGACGG GCACCTCCAG 
    AATGAGAGTC TGACTTTGCA GCTTGTGAAG AGAAATGTCC AGCACACCAG GCTGTTCTCC 
    TGTGGTATTG GTTCTACAGC AAATCGTCAT ATCTTAAGGA CTTTGTCCCA GTACGGTGCT 
    GGAGTATTTG AGTATTTTAA CTCAAAATCC AAACATAGTT GGAAAAAACA GATAGAAGAC 
    CAAATGACTA GGTTACATTC TCCAAGTTGC CACTCTGTCT CCATCAAATG GCAGCAACTA 
    AGTACAGATG CACCGGAGCC TCTGCAGGCT CCAGCCCAGG TGCAGTCTTT GTTTCACAAT 
    GAGCGACTCC TTGTCTATGG ATTTATTCCT CATTGTACAC AGATGATCCA CAAGCTGACA 
    GCGCGAGCTC TGATCCGAGA TTATGAAGAT GGCATTCTCC ACGAAAATGA AACGAATCAT 
    GAGATGAAGA AGCAAATCTT AAAATCTCTG ATTATTAAAC TCAGTAAAGA AAACTCTCTC 
    ATAACACAAT TCACAAGCTT TGTGGCAGTT GAGAAAAGGG ATGGTAAGGA GCCACCTTCT 
    CCTAATATTC CAAATATTTT GGAACTTATT GCTGAAGAAG ATGTAGATTT TCTGCCATAC 
    ATCAGCTGGC AGGAGGAGCA ACCAGATACC AGTGTGGCAC AGCCTCCTTC AGCATTCTTT 
    GAATGGAATG AAGAACTGCA ACAAGCGCAT TTGACTAACA GAAAGTTTAG ATCATCTCAA 
    CTTCAAGATT CTGAAGATTC TGAAGATGTT GGTTCCCAAC TATCAGAAAA ACCTTTAACA 
    CTCAATTTTG AATGTAGAGA TGTGGAAAAG CCATTGGGTT TAAGTCGGAT GGATTCATTT 
    AAACGACCAC TATGTAGAGA TGCCCCTTTC CCAAAACTGG TTGGTTGCAG CATTTCTGCT 
    GCTCCTGGTT CAGCCCATTT GGAAGATGAG CACTTAGATG GTTCTAGTTT CTTCCATCCT 
    CCCCACTTAC ATTCTAAAAA GTTTGCTAGG AGTCTCAAAC AGTTTGGTCC ATTTAAGAAT 
    GACCAAGACC TTCAAGCTGA CTATTTGGGT GACATTACCC CTGTGTCATG TACCCCTTTC 
    GGACTGCCTT CCCCATGTTT TGGATCCTTT GCTTTTTCTG CTCTTGCAGG TGCCTCATTT 
    AACTCCAGAG AGGTTAATCT ACCTGTCACT TATCAAGGCC ATAAGACCGA CAATTCTGCG 
    AGCATTTTCC CTGATTTGGA CTCTCCCCTG CAGCTGAATA GTCTTTTGCC TCCTCATAGA 
    GTTAATTCGG CTGGTCCATC CAGAGGGTTT GACGTTCATT CACTTTCTCA TTCTCCCTAT 
    TTACAAAACT CTCCAGTTCA TTTCAGCACC AATTACAAGC CACCAACAGA TCTGTTTGCT 
    AACACTGAAT TGGAGGGTTC TTCCTGTACA GATCTTTCTG CCGGAATTTC ATTATCTGCT 
    TCACGTAGTG GAAGTTTTTC TGAAACAGAA AGTAATGAAA CACCAGGATT TATGGCAAGT 
    TATTTTTTTC AAAAAGTGGC AAAATCTGAT ATAACAGGAA GTGACTTTAC TGCAAGCTTT 
    CAGGCAAAAA GAGATGAACA GAGCTGGATG TATTTTGTGC CTTGGACTGA ACTCTTCAGC 
    CTACAAACTG AGGATGGCTT CTGGAAACTT ACGCCAGAAC TGGGATTTAT ATTAAACCTT 
    AATACAAATA TTTTAAGCAG CTTTCTTGAA CAAAAAGGCA TTCAATCTCT GGGTATAAAA 
    GGAAGAGAGC GTCTCCTGGA CCTGATCGCC ACATTTCTGG TACTACAGTT TCTTCGTACC 
    AAGTTGGAAC AAAAGGGAAT AGTCTTCAAA TCACTGATGA AATTGGATGA TGCTTCCATT 
    TCCAGAAATG TTCCCTGGGC TTTTGAAGAA ATAAAGAAAG CAAGTGAATG GGTAAGAAGA 
    ACTGAAGGAC AATATCCATC TATCTGCCAA CGACTTGAAT TGGGTCAAGA TTGGGACTCT 
    GCCACTAAAC AGCTATTGGG GATCCAAACC ATAAACACCA CATCTCCCCT TCACAGAGTT 
    CTTAATTACA GTCAAGGCTG A

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

    RefSeq XP_019661945.1
    CDS258..5258
    Translation

    Target ORF information:

    RefSeq Version XM_019806386.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019806386.1

    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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GCGCACAGAC TGCAAAGCTG TAATTAGCAC CATGGAAGGT 
    AGCTCCTTAG ACAGTGATGG ATTCTCTCTT CATGTTGGTT TGTCTGATGC ATATCTCCCA 
    AGAATGTGGG TTGAAAAACA TCCAGAAAAA GAAAGCGAGG CCTGCATGCT TGTTTTTCAA 
    CCAGATCTCG GTATCACACT TCCTGACCTA GCCGAGAACA GTGAAGTGAT TATTTGTCTC 
    GATTGCTCCA ATTCCATGGA GGGTGCAACA TTCTTGCAAG CCAAGCAAAT TGCCTTCTAT 
    GCGCTGTCCT TGATGGGTAA GAAGCAAAAG ATAAACATTG TCAAGTTTGG CACAGGTTAC 
    AAGGAATTAT TTTCATATCC CAAGTACATC ACAAGCAATA ATATGCCAGC AGAGTTCATT 
    ATGTCGGCTA CACCTACCAT GGGAAATACA GACTTCTGGA AAACGCTCCG ATATTTAAAT 
    CTACTGTACC CTTCTCAAGG CTTACGGAGC ATTCTCCTTA TATCTGACGG GCACCTCCAG 
    AATGAGAGTC TGACTTTGCA GCTTGTGAAG AGAAATGTCC AGCACACCAG GCTGTTCTCC 
    TGTGGTATTG GTTCTACAGC AAATCGTCAT ATCTTAAGGA CTTTGTCCCA GTACGGTGCT 
    GGAGTATTTG AGTATTTTAA CTCAAAATCC AAACATAGTT GGAAAAAACA GATAGAAGAC 
    CAAATGACTA GGTTACATTC TCCAAGTTGC CACTCTGTCT CCATCAAATG GCAGCAACTA 
    AGTACAGATG CACCGGAGCC TCTGCAGGCT CCAGCCCAGG TGCAGTCTTT GTTTCACAAT 
    GAGCGACTCC TTGTCTATGG ATTTATTCCT CATTGTACAC AGATGATCCA CAAGCTGACA 
    GCGCGAGCTC TGATCCGAGA TTATGAAGAT GGCATTCTCC ACGAAAATGA AACGAATCAT 
    GAGATGAAGA AGCAAATCTT AAAATCTCTG ATTATTAAAC TCAGTAAAGA AAACTCTCTC 
    ATAACACAAT TCACAAGCTT TGTGGCAGTT GAGAAAAGGG ATGGTAAGGA GCCACCTTCT 
    CCTAATATTC CAAATATTTT GGAACTTATT GCTGAAGAAG ATGTAGATTT TCTGCCATAC 
    ATCAGCTGGC AGGAGGAGCA ACCAGATACC AGTGTGGCAC AGCCTCCTTC AGCATTCTTT 
    GAATGGAATG AAGAACTGCA ACAAGCGCAT TTGACTAACA GAAAGTTTAG ATCATCTCAA 
    CTTCAAGATT CTGAAGATTC TGAAGATGTT GGTTCCCAAC TATCAGAAAA ACCTTTAACA 
    CTCAATTTTG AATGTAGAGA TGTGGAAAAG CCATTGGGTT TAAGTCGGAT GGATTCATTT 
    AAACGACCAC TATGTAGAGA TGCCCCTTTC CCAAAACTGG TTGGTTGCAG CATTTCTGCT 
    GCTCCTGGTT CAGCCCATTT GGAAGATGAG CACTTAGATG GTTCTAGTTT CTTCCATCCT 
    CCCCACTTAC ATTCTAAAAA GTTTGCTAGG AGTCTCAAAC AGTTTGGTCC ATTTAAGAAT 
    GACCAAGACC TTCAAGCTGA CTATTTGGGT GACATTACCC CTGTGTCATG TACCCCTTTC 
    GGACTGCCTT CCCCATGTTT TGGATCCTTT GCTTTTTCTG CTCTTGCAGG TGCCTCATTT 
    AACTCCAGAG AGGTTAATCT ACCTGTCACT TATCAAGGCC ATAAGACCGA CAATTCTGCG 
    AGCATTTTCC CTGATTTGGA CTCTCCCCTG CAGCTGAATA GTCTTTTGCC TCCTCATAGA 
    GTTAATTCGG CTGGTCCATC CAGAGGGTTT GACGTTCATT CACTTTCTCA TTCTCCCTAT 
    TTACAAAACT CTCCAGTTCA TTTCAGCACC AATTACAAGC CACCAACAGA TCTGTTTGCT 
    AACACTGAAT TGGAGGGTTC TTCCTGTACA GATCTTTCTG CCGGAATTTC ATTATCTGCT 
    TCACGTAGTG GAAGTTTTTC TGAAACAGAA AGTAATGAAA CACCAGGATT TATGGCAAGT 
    TATTTTTTTC AAAAAGTGGC AAAATCTGAT ATAACAGGAA GTGACTTTAC TGCAAGCTTT 
    CAGGCAAAAA GAGATGAACA GAGCTGGATG TATTTTGTGC CTTGGACTGA ACTCTTCAGC 
    CTACAAACTG AGGATGGCTT CTGGAAACTT ACGCCAGAAC TGGGATTTAT ATTAAACCTT 
    AATACAAATA TTTTAAGCAG CTTTCTTGAA CAAAAAGGCA TTCAATCTCT GGGTATAAAA 
    GGAAGAGAGC GTCTCCTGGA CCTGATCGCC ACATTTCTGG TACTACAGTT TCTTCGTACC 
    AAGTTGGAAC AAAAGGGAAT AGTCTTCAAA TCACTGATGA AATTGGATGA TGCTTCCATT 
    TCCAGAAATG TTCCCTGGGC TTTTGAAGAA ATAAAGAAAG CAAGTGAATG GGTAAGAAGA 
    ACTGAAGGAC AATATCCATC TATCTGCCAA CGACTTGAAT TGGGTCAAGA TTGGGACTCT 
    GCCACTAAAC AGCTATTGGG GATCCAAACC ATAAACACCA CATCTCCCCT TCACAGAGTT 
    CTTAATTACA GTCAAGGCTG A

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

    PARP4 ( XM_019806387.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019661946.1 Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAc97291
    Clone ID Related Accession (Same CDS sequence) XM_019806387.1
    Accession Version XM_019806387.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4944bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product poly [ADP-ribose] polymerase 4 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218267.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GGCCTGCATG CTTGTTTTTC AACCAGATCT CGGTATCACA 
    CTTCCTGACC TAGCCGAGAA CAGTGAAGTG ATTATTTGTC TCGATTGCTC CAATTCCATG 
    GAGGGTGCAA CATTCTTGCA AGCCAAGCAA ATTGCCTTCT ATGCGCTGTC CTTGATGGGT 
    AAGAAGCAAA AGATAAACAT TGTCAAGTTT GGCACAGGTT ACAAGGAATT ATTTTCATAT 
    CCCAAGTACA TCACAAGCAA TAATATGCCA GCAGAGTTCA TTATGTCGGC TACACCTACC 
    ATGGGAAATA CAGACTTCTG GAAAACGCTC CGATATTTAA ATCTACTGTA CCCTTCTCAA 
    GGCTTACGGA GCATTCTCCT TATATCTGAC GGGCACCTCC AGAATGAGAG TCTGACTTTG 
    CAGCTTGTGA AGAGAAATGT CCAGCACACC AGGCTGTTCT CCTGTGGTAT TGGTTCTACA 
    GCAAATCGTC ATATCTTAAG GACTTTGTCC CAGTACGGTG CTGGAGTATT TGAGTATTTT 
    AACTCAAAAT CCAAACATAG TTGGAAAAAA CAGATAGAAG ACCAAATGAC TAGGTTACAT 
    TCTCCAAGTT GCCACTCTGT CTCCATCAAA TGGCAGCAAC TAAGTACAGA TGCACCGGAG 
    CCTCTGCAGG CTCCAGCCCA GGTGCAGTCT TTGTTTCACA ATGAGCGACT CCTTGTCTAT 
    GGATTTATTC CTCATTGTAC ACAGGCAACT CTATGTGCAT TGATTCAAGA GAAAGAATTT 
    TCTACAGTAG TAGCAACTAC TGAACTTCAG AAGACAACTG GAACTATGAT CCACAAGCTG 
    ACAGCGCGAG CTCTGATCCG AGATTATGAA GATGGCATTC TCCACGAAAA TGAAACGAAT 
    CATGAGATGA AGAAGCAAAT CTTAAAATCT CTGATTATTA AACTCAGTAA AGAAAACTCT 
    CTCATAACAC AATTCACAAG CTTTGTGGCA GTTGAGAAAA GGGATGGTAA GGAGCCACCT 
    TCTCCTAATA TTCCAAATAT TTTGGAACTT ATTGCTGAAG AAGATGTAGA TTTTCTGCCA 
    TACATCAGCT GGCAGGAGGA GCAACCAGAT ACCAGTGTGG CACAGCCTCC TTCAGCATTC 
    TTTGAATGGA ATGAAGAACT GCAACAAGCG CATTTGACTA ACAGAAAGTT TAGATCATCT 
    CAACTTCAAG ATTCTGAAGA TTCTGAAGAT GTTGGTTCCC AACTATCAGA AAAACCTTTA 
    ACACTCAATT TTGAATGTAG AGATGTGGAA AAGCCATTGG GTTTAAGTCG GATGGATTCA 
    TTTAAACGAC CACTATGTAG AGATGCCCCT TTCCCAAAAC TGGTTGGTTG CAGCATTTCT 
    GCTGCTCCTG GTTCAGCCCA TTTGGAAGAT GAGCACTTAG ATGGTTCTAG TTTCTTCCAT 
    CCTCCCCACT TACATTCTAA AAAGTTTGCT AGGAGTCTCA AACAGTTTGG TCCATTTAAG 
    AATGACCAAG ACCTTCAAGC TGACTATTTG GGTGACATTA CCCCTGTGTC ATGTACCCCT 
    TTCGGACTGC CTTCCCCATG TTTTGGATCC TTTGCTTTTT CTGCTCTTGC AGGTGCCTCA 
    TTTAACTCCA GAGAGGTTAA TCTACCTGTC ACTTATCAAG GCCATAAGAC CGACAATTCT 
    GCGAGCATTT TCCCTGATTT GGACTCTCCC CTGCAGCTGA ATAGTCTTTT GCCTCCTCAT 
    AGAGTTAATT CGGCTGGTCC ATCCAGAGGG TTTGACGTTC ATTCACTTTC TCATTCTCCC 
    TATTTACAAA ACTCTCCAGT TCATTTCAGC ACCAATTACA AGCCACCAAC AGATCTGTTT 
    GCTAACACTG AATTGGAGGG TTCTTCCTGT ACAGATCTTT CTGCCGGAAT TTCATTATCT 
    GCTTCACGTA GTGGAAGTTT TTCTGAAACA GAAAGTAATG AAACACCAGG ATTTATGGCA 
    AGTTATTTTT TTCAAAAAGT GGCAAAATCT GATATAACAG GAAGTGACTT TACTGCAAGC 
    TTTCAGGCAA AAAGAGATGA ACAGAGCTGG ATGTATTTTG TGCCTTGGAC TGAACTCTTC 
    AGCCTACAAA CTGAGGATGG CTTCTGGAAA CTTACGCCAG AACTGGGATT TATATTAAAC 
    CTTAATACAA ATATTTTAAG CAGCTTTCTT GAACAAAAAG GCATTCAATC TCTGGGTATA 
    AAAGGAAGAG AGCGTCTCCT GGACCTGATC GCCACATTTC TGGTACTACA GTTTCTTCGT 
    ACCAAGTTGG AACAAAAGGG AATAGTCTTC AAATCACTGA TGAAATTGGA TGATGCTTCC 
    ATTTCCAGAA ATGTTCCCTG GGCTTTTGAA GAAATAAAGA AAGCAAGTGA ATGGGTAAGA 
    AGAACTGAAG GACAATATCC ATCTATCTGC CAACGACTTG AATTGGGTCA AGATTGGGAC 
    TCTGCCACTA AACAGCTATT GGGGATCCAA ACCATAAACA CCACATCTCC CCTTCACAGA 
    GTTCTTAATT ACAGTCAAGG CTGA

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

    RefSeq XP_019661946.1
    CDS258..5201
    Translation

    Target ORF information:

    RefSeq Version XM_019806387.1
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca poly(ADP-ribose) polymerase family member 4 (PARP4), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_019806387.1

    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
    ATGACTGTGA GGATCTTTGC AAATTGTACC TTCTGTTTGA AAGTCAAGCA CTTACCTCGT 
    CAACAGAAGA AAAAACTACA AAACGACATT AAGGAGAATG GTGGAAATTT TTCCTTTTTA 
    TTAAATCCTC AGTGCACACA TATAATCTTA GACGATGCTG ATATTCTGAG CCAGTATCAA 
    CTGAAGTCTA TCCAAAAGAA CCATATCCAT ATTATAAACC CAGATTTTAT ATGGAACTCT 
    ATCAAAGAAA GGAGGCTCTT GGACATAATG AATTTTGATG CTAATAAGGC ACTGGACATC 
    ACACTACCTC CTTGTCAAAA GGCAAGCAGT TCTGAAGTGA GAACAGATGA TCCATCCCTG 
    AACAACTCCA TGGAGAAGGA AAACATTGTG AAATTCACAA AGTTTTATAA AGAGAATGTT 
    GAAATTCCTC ATTTTCCACA AAACTTTGAA GTTGCGAAAT ATAACACCTT GGAAAAAATT 
    GGGGCAGAGG GAGGTAAGGA GGTGGCAGTG GTAGAACTAC AGAGCTACTG GGACCCTGAG 
    GACCCCGCCT TTCTCATATC TGCACACTTC CTCTTGGCCA ATGGCCTCAA GACTAGGAAG 
    TTCTCTGTAA AGAAAACCTC TGCAGATGCA AGTGAATACT ACGAAAATTA CATTGAAGAG 
    CTGAAGAAAC AAGGATTTCT GCTAAGAGAA CATTTTACAC CTGAAGCAAC CCAAATAGCA 
    TCTGAAAAAC TGCAAGCGTT GCTTTTGGAG GAGGTAATAA ATTCAAGCAC TCTGAGCAAA 
    GAAGTGAGCG ATTTGGTGGA GATGGTTTGG GCAGAAGCTC TCGGCCACCT GGAGCACATG 
    CTTCTCAAGC CCATGAACAG GATTAGTCTC AATGATGTGA GCAAGGCAGA GGGAGTTCTC 
    CTGCTAGTAA AGGCAGCATT GAAAAATGGA GAAACAGAAG AACAAGTGCA AAAAATGATG 
    ACTGAGTTCT ACAGATTGAT ACCTCACAAA GGCACAACCA CTGAAAAAGT GAACCTGAGA 
    CTATTAGCTA AGAAAGAGGA CCTCTGCCAG CTAATAAGAG ACATGGTTAA TGTCTGTGAA 
    ACTAATTTGT TCAAACCCAA CCCACCATCT CTTGCCAAAT ACCGAGCTTT GAGATGCAAA 
    ATTGAGAATG TTGAACAGAA CACTGAAGAA TTTTTCAGAG TTAGAAAAGA GGTTTTACAG 
    AATAATCGCA GCAAAAGTCC AGTGGACATC TTGCAGATAT TTAGAGTTGG CAGAGTGAAT 
    GAAGCCACAG AGTTTTTGAG CCAGCTTGGC AATGTGACGT CCTTACTTCA TGGATCTCCT 
    GTACAAAGCT TTGTAGGAAT CCTATCCCGT GGGTTGCTTT TACCCAAAGT AGTTGAAGAC 
    CGTGGCACAA AGAGAACAGA CATTGGAAAT CTTGGGAGTG GAATATATTT CAGTGATTCA 
    CTCAGTACGA GTATTAAGTA CTCCCACCCA GGAGAGACAG ATGGCACGAG GCTCTTGGTC 
    ATCTGTGATG TAGCCCTCGG GAAGTGCATG GACTTGAACA GAAAAGACTT CTCCTTGTCG 
    GAAGCACCCC CAGGTTATGA CAGTGTCCAT GGGGTGCAAG CAACAGCCAC TGTCACCACA 
    GACTTCGAGG ATGATGAATT TGTTGTATAT AAAACAAATC AGATTAAAAT GAAATATATT 
    ATTAAATTTT GTATATCTGG AGATGAAATA AAGGACTTTC ATCCTTGTAA TACTACTGAA 
    TTAAAGGAAT ACAGACCTGA GTTTTCAAAT TTTTCAAATA TTGAAGATTA TCAGTTAGCA 
    GACACCAAAC CTTTCAGCAA CATCAAGTCC GGCCTTCAGG ATGTCTCTGG CAATTCAGTT 
    CCTCTTGAGG ATGTTCACAT CAAGGGGAAA ATAATAGACT TCGTAGCCCA GGTCATTGTT 
    TTTCAGACAT ATGCCAATCG AAGTTCTGTG CCAATTGAGG CAAGATATAT TTTTCCTTTG 
    GATGATAAGG CAGCTGTGTG TGGTTTTGAA GCATTCATCA ATGGAAAGCA CATAGTAGGA 
    GAGGTTAAAG AGAAGGAAGC AGCCCACCGT GAATACCGAG AAGCCATCAG TCAAGGCCAT 
    GGCGCATACT TGATGGACCA GGATGCACCC GATGTTTTTA CTATTAGTGT TGGAAATCTA 
    CCCCCTAAGG CTAAGGTTCT TATCAAAATC ACCTACATCA CAGAACTCAG CATCCAAGGT 
    AGCAGGGCTG TCTTCTTCAT GCCTGCCACC GTGGCACCCT GGCAACAGGA CAAAGTTTTG 
    AATGAAAACA TTCAGGATAC AGTAGAGAAG ATTTATATAG AGAAAATAGG AATAAAACAA 
    AGCTTCTCTT TGAGTATGTC CATTGAGATG CCATACGTGA TTGAATCCAT TTCTAGTGAT 
    ACACATGAAC TGAGACAAAA GGCCTGCATG CTTGTTTTTC AACCAGATCT CGGTATCACA 
    CTTCCTGACC TAGCCGAGAA CAGTGAAGTG ATTATTTGTC TCGATTGCTC CAATTCCATG 
    GAGGGTGCAA CATTCTTGCA AGCCAAGCAA ATTGCCTTCT ATGCGCTGTC CTTGATGGGT 
    AAGAAGCAAA AGATAAACAT TGTCAAGTTT GGCACAGGTT ACAAGGAATT ATTTTCATAT 
    CCCAAGTACA TCACAAGCAA TAATATGCCA GCAGAGTTCA TTATGTCGGC TACACCTACC 
    ATGGGAAATA CAGACTTCTG GAAAACGCTC CGATATTTAA ATCTACTGTA CCCTTCTCAA 
    GGCTTACGGA GCATTCTCCT TATATCTGAC GGGCACCTCC AGAATGAGAG TCTGACTTTG 
    CAGCTTGTGA AGAGAAATGT CCAGCACACC AGGCTGTTCT CCTGTGGTAT TGGTTCTACA 
    GCAAATCGTC ATATCTTAAG GACTTTGTCC CAGTACGGTG CTGGAGTATT TGAGTATTTT 
    AACTCAAAAT CCAAACATAG TTGGAAAAAA CAGATAGAAG ACCAAATGAC TAGGTTACAT 
    TCTCCAAGTT GCCACTCTGT CTCCATCAAA TGGCAGCAAC TAAGTACAGA TGCACCGGAG 
    CCTCTGCAGG CTCCAGCCCA GGTGCAGTCT TTGTTTCACA ATGAGCGACT CCTTGTCTAT 
    GGATTTATTC CTCATTGTAC ACAGGCAACT CTATGTGCAT TGATTCAAGA GAAAGAATTT 
    TCTACAGTAG TAGCAACTAC TGAACTTCAG AAGACAACTG GAACTATGAT CCACAAGCTG 
    ACAGCGCGAG CTCTGATCCG AGATTATGAA GATGGCATTC TCCACGAAAA TGAAACGAAT 
    CATGAGATGA AGAAGCAAAT CTTAAAATCT CTGATTATTA AACTCAGTAA AGAAAACTCT 
    CTCATAACAC AATTCACAAG CTTTGTGGCA GTTGAGAAAA GGGATGGTAA GGAGCCACCT 
    TCTCCTAATA TTCCAAATAT TTTGGAACTT ATTGCTGAAG AAGATGTAGA TTTTCTGCCA 
    TACATCAGCT GGCAGGAGGA GCAACCAGAT ACCAGTGTGG CACAGCCTCC TTCAGCATTC 
    TTTGAATGGA ATGAAGAACT GCAACAAGCG CATTTGACTA ACAGAAAGTT TAGATCATCT 
    CAACTTCAAG ATTCTGAAGA TTCTGAAGAT GTTGGTTCCC AACTATCAGA AAAACCTTTA 
    ACACTCAATT TTGAATGTAG AGATGTGGAA AAGCCATTGG GTTTAAGTCG GATGGATTCA 
    TTTAAACGAC CACTATGTAG AGATGCCCCT TTCCCAAAAC TGGTTGGTTG CAGCATTTCT 
    GCTGCTCCTG GTTCAGCCCA TTTGGAAGAT GAGCACTTAG ATGGTTCTAG TTTCTTCCAT 
    CCTCCCCACT TACATTCTAA AAAGTTTGCT AGGAGTCTCA AACAGTTTGG TCCATTTAAG 
    AATGACCAAG ACCTTCAAGC TGACTATTTG GGTGACATTA CCCCTGTGTC ATGTACCCCT 
    TTCGGACTGC CTTCCCCATG TTTTGGATCC TTTGCTTTTT CTGCTCTTGC AGGTGCCTCA 
    TTTAACTCCA GAGAGGTTAA TCTACCTGTC ACTTATCAAG GCCATAAGAC CGACAATTCT 
    GCGAGCATTT TCCCTGATTT GGACTCTCCC CTGCAGCTGA ATAGTCTTTT GCCTCCTCAT 
    AGAGTTAATT CGGCTGGTCC ATCCAGAGGG TTTGACGTTC ATTCACTTTC TCATTCTCCC 
    TATTTACAAA ACTCTCCAGT TCATTTCAGC ACCAATTACA AGCCACCAAC AGATCTGTTT 
    GCTAACACTG AATTGGAGGG TTCTTCCTGT ACAGATCTTT CTGCCGGAAT TTCATTATCT 
    GCTTCACGTA GTGGAAGTTT TTCTGAAACA GAAAGTAATG AAACACCAGG ATTTATGGCA 
    AGTTATTTTT TTCAAAAAGT GGCAAAATCT GATATAACAG GAAGTGACTT TACTGCAAGC 
    TTTCAGGCAA AAAGAGATGA ACAGAGCTGG ATGTATTTTG TGCCTTGGAC TGAACTCTTC 
    AGCCTACAAA CTGAGGATGG CTTCTGGAAA CTTACGCCAG AACTGGGATT TATATTAAAC 
    CTTAATACAA ATATTTTAAG CAGCTTTCTT GAACAAAAAG GCATTCAATC TCTGGGTATA 
    AAAGGAAGAG AGCGTCTCCT GGACCTGATC GCCACATTTC TGGTACTACA GTTTCTTCGT 
    ACCAAGTTGG AACAAAAGGG AATAGTCTTC AAATCACTGA TGAAATTGGA TGATGCTTCC 
    ATTTCCAGAA ATGTTCCCTG GGCTTTTGAA GAAATAAAGA AAGCAAGTGA ATGGGTAAGA 
    AGAACTGAAG GACAATATCC ATCTATCTGC CAACGACTTG AATTGGGTCA AGATTGGGAC 
    TCTGCCACTA AACAGCTATT GGGGATCCAA ACCATAAACA CCACATCTCC CCTTCACAGA 
    GTTCTTAATT ACAGTCAAGG CTGA

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

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ONLINE FORM

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