ORF » Species Summary » Mus caroli » Parp10 cDNA ORF clone

Parp10 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Parp10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Parp10 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
OMv31891 XM_021183103.1
Latest version!		 Mus caroli poly(ADP-ribose) polymerase family member 10 (Parp10), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00

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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)
    Parp10 ( XM_021183103.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021038762.1 Mus caroli poly(ADP-ribose) polymerase family member 10 (Parp10), mRNA.
    Price & Availability↑
    CloneID OMv31891
    Clone ID Related Accession (Same CDS sequence) XM_021183103.1
    Accession Version XM_021183103.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2892bp)
    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 PARP10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034584.1) 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
    ATGGCAGAGG TGGAGGCAGG GGCAGCCTTG GAGCTCCGGG GACTGCCCCC AGAAATACCA 
    GATGAGCTCA TTACTCTGTA CTTTGAAAAC CACCGTCGCT CGGGTGGAGG ACTTCTGTTG 
    AGCTGGCAGA GACTTGGCTG TGGGGGTGTC CTCATCTTTC AAGATCCTGC AGATGCAAAG 
    AGGGTCTTAG CCCAGGCAGA GCACCAACTA CATGGTGTCC GACTGAGCCT GAGGCCAGCC 
    CCACCGCGTG CCCCAGAACG TGTGCTTCTT CAACACCTGC CACCTGGCAC TTCACCTCTG 
    AGCCTGGAGC AACATGTTCA GGCCTTGCTG GGTGCTGCAG GACACCCTGT GCAGACTTGC 
    CATGCCCTGG CCAGTCCTCG GCAGGACTGT GTCCTGGTCC AGTTATCCAT GCCCCTTTCT 
    GAGGCAGAGG TCAGTGCCCT GGCGGAACAG GCCCGGAATC TGCCCCTGAA TGGAGCCACC 
    GTGTCCTTGG CCTGGGTGCC CCAGACCCGA GCAGTACGTG TGTTGGACAG TGCTTCTCCT 
    GTGGACCTGT TATTGCTGGA GCTCTACCTG GAAAATGAGC GTCGCAGTGG TGGCGGACCC 
    CTGGAGGGTC TGCGCAGCCT GCCTGGGCAG CTAGGCACTG TTATTTCCTT TCAGCAATGG 
    CAGGTGGCTG AACGGGTGCT GAAGCAGAAA CACTGGCTAC AGGGCATTGA GTTGAGCCTT 
    GTCCCTCACT ATGATGTCTT AGAACCTGAG GCGCTCGCTG AGGGCGTCAG TGGCGGGGGT 
    CATTCAGCTA TGCAAGAATC TGGAGTCACT GGTCATGCTC CTACAGGAGC TGGAGGGCTG 
    GCCGGGGCTC TGACCATGGC TGTGGGCTCT GGGGAGGCAC CGCAACAATT AGGAACCCTT 
    CTAAGGGCAG GTCCTGTAGG AGCTCCAGGA CAAGCCCTGC CAATTGACTC GGGATCAATT 
    AGGATCCAGG GGAGTATGGG GTCTACAAGC CCAGTCGATC CAGTAGAGAG CTTTACAGAG 
    CTCCCAGAGC AAGTAGGACC CATGGCCTCA GACTCAGTGG GTGTTCAGGA GCAGGAGGGC 
    CTGGGGGAAG TTGCCACAGA CTCACCAGGG CAAGAGGGTC TAATGGGTCT AGTGGGGACA 
    GCCATGGAGT CTGTAGAGAC TGGGCTGGAG AGCCCTGGGT ATGGGGAGAT GCAGAAGCAA 
    GAGGGCCTGG TGGAAATGGT GATGTCAGTG GAACCAGGAG CCGTGCGCTT CCTGCAGCTT 
    TATTATGAGG ACCTCCTCGC CAGCCTGGAA GATGTTGCCC TTTTCCCACT TGAAGGAACG 
    GATGTGACTG GCTTTCGGCT GTGTGGAGCC AGGGACCCCT GCCAGGCAGC CCAAGAGTTG 
    CTGCAGAGTC TGCTGGGCAG CATCAGCTGC CACACACTGA ACATGAAGCA CCCAGGCAGT 
    GCCAGGTTCC TGCTGGGTGT GGAGGGGCAG CACCTTCTTC ACAGACTGGA GGCTCAGTTC 
    CAATGTGTCT TCGGGACAGA ACATCTGGCC AGCGCCACCC TGGACATAGA TCCTGAAAGG 
    ACAGATCCCA CTGAGGCCCT CCAAGTCCTC CATGGCCACA TTACAGGCAT CGATCAGGAG 
    AACATGAGAC TGGAGGACGT CCGAGAGCTG CTGGCTACCC TGGAGAGCCC ACATGGAGGG 
    GAGAACTGGG TGCCTCTGGA GATGGAGAAG GAGAAACCTG GAGGACCAAG AGAGACTGTT 
    GTAGAGCAGC AGGAGGAAAT CCCCACACTT GAGGCTGGGG AGGAACCTGT GGCCCTTAGC 
    ACCAGGGCAC CTGGGCAGTT AGAAGAAGAA GCCACACTTC AACTGGCTAT CCACCGGTCC 
    TTGGAGTCTC AAAGCCAGGT GGCAGATCAG CAGGAGGCTA ATGCACTAAG GCGAGCCATG 
    GCCCTCTCCC TGTTAGAAGC AGAAGAGGCC CTGGGTGAGG ACACAGGGGG CGAGGCCCAG 
    CTGGTGGTGC ACACATCCTT TGAGCAGGAT GTGGATGAAT TGAACCGGGC ATTATCCAAT 
    GCCTTGGAGG TACACCTTCG GGAGGAGACA GTGAGTCTCC AAGGGCGCAT GCTACCCCCG 
    GAGCTTGGGG CTCGTCTGGA AAGGTGTCAT GATGTGAATG CTACCCTCCA TGGCGACCAC 
    GTTGTCCTCC GTGGCTTTGG GGTACAGCCT GCCCGCGCGG CTCGCCACTT AGCTGCTCTG 
    CTTGTTGGCC CCTGGGACCA GAATTTGACC TTTCCTTTGG AGGCCTCAAA AACCAACTTG 
    TCTGAGCAGG GACTGAAGGA ACCCTTGGGC AGGCTGGAGG CCCTGGAAGA GAATTCCCAG 
    GAGTTCCAAG ATGTGGTGCG GGCCTTTTAT AGCACCCTGG ATGCTGTCCA CGGCAGGATC 
    CGCATTGTTC GAGTAGAACG TGTGTCACAC CCATTGCTGC AGCAACAGTA CCAGCTGCAT 
    CGGGAGCGGT TAATGCAGTG CTGCCAGCAA CGCCCAGTGG AGCAGGTCCT CTACCATGGC 
    ACTTCAGAGT CTGCAGTGCT CGACATCTGT GCGCACGGCT TCAATCGCAG TTTCTGTGGC 
    CGAAACGGCA CACTCTACGG ACAGGGCGTG TACTTCGCCA AGCGTGCCTC TCTGTCGGTA 
    CTGGATCGCT ACTCGCCTCC CAACGCAGAA GGCTACAAGG CAGTGTTTGT GGCACAGGTG 
    CTGACGGGTG ACTATGGACA GGGTTCCCGC GGTCTGAAGG CGCCTCCTTT GAGGGCCTCC 
    GGTCAGGTGC TTCGCTACGA CAGCGCTGTG GACTGCCTTC AGCAGCCCAG AATCTTTGTC 
    ATCTTTCACG ATACCCAAGC TTTACCGACT CATCTAATCA CCTGCAAGAA CATACTCCCG 
    GGTACCCCCT GA

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

    RefSeq XP_021038762.1
    CDS102..2993
    Translation

    Target ORF information:

    RefSeq Version XM_021183103.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli poly(ADP-ribose) polymerase family member 10 (Parp10), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021183103.1

    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
    ATGGCAGAGG TGGAGGCAGG GGCAGCCTTG GAGCTCCGGG GACTGCCCCC AGAAATACCA 
    GATGAGCTCA TTACTCTGTA CTTTGAAAAC CACCGTCGCT CGGGTGGAGG ACTTCTGTTG 
    AGCTGGCAGA GACTTGGCTG TGGGGGTGTC CTCATCTTTC AAGATCCTGC AGATGCAAAG 
    AGGGTCTTAG CCCAGGCAGA GCACCAACTA CATGGTGTCC GACTGAGCCT GAGGCCAGCC 
    CCACCGCGTG CCCCAGAACG TGTGCTTCTT CAACACCTGC CACCTGGCAC TTCACCTCTG 
    AGCCTGGAGC AACATGTTCA GGCCTTGCTG GGTGCTGCAG GACACCCTGT GCAGACTTGC 
    CATGCCCTGG CCAGTCCTCG GCAGGACTGT GTCCTGGTCC AGTTATCCAT GCCCCTTTCT 
    GAGGCAGAGG TCAGTGCCCT GGCGGAACAG GCCCGGAATC TGCCCCTGAA TGGAGCCACC 
    GTGTCCTTGG CCTGGGTGCC CCAGACCCGA GCAGTACGTG TGTTGGACAG TGCTTCTCCT 
    GTGGACCTGT TATTGCTGGA GCTCTACCTG GAAAATGAGC GTCGCAGTGG TGGCGGACCC 
    CTGGAGGGTC TGCGCAGCCT GCCTGGGCAG CTAGGCACTG TTATTTCCTT TCAGCAATGG 
    CAGGTGGCTG AACGGGTGCT GAAGCAGAAA CACTGGCTAC AGGGCATTGA GTTGAGCCTT 
    GTCCCTCACT ATGATGTCTT AGAACCTGAG GCGCTCGCTG AGGGCGTCAG TGGCGGGGGT 
    CATTCAGCTA TGCAAGAATC TGGAGTCACT GGTCATGCTC CTACAGGAGC TGGAGGGCTG 
    GCCGGGGCTC TGACCATGGC TGTGGGCTCT GGGGAGGCAC CGCAACAATT AGGAACCCTT 
    CTAAGGGCAG GTCCTGTAGG AGCTCCAGGA CAAGCCCTGC CAATTGACTC GGGATCAATT 
    AGGATCCAGG GGAGTATGGG GTCTACAAGC CCAGTCGATC CAGTAGAGAG CTTTACAGAG 
    CTCCCAGAGC AAGTAGGACC CATGGCCTCA GACTCAGTGG GTGTTCAGGA GCAGGAGGGC 
    CTGGGGGAAG TTGCCACAGA CTCACCAGGG CAAGAGGGTC TAATGGGTCT AGTGGGGACA 
    GCCATGGAGT CTGTAGAGAC TGGGCTGGAG AGCCCTGGGT ATGGGGAGAT GCAGAAGCAA 
    GAGGGCCTGG TGGAAATGGT GATGTCAGTG GAACCAGGAG CCGTGCGCTT CCTGCAGCTT 
    TATTATGAGG ACCTCCTCGC CAGCCTGGAA GATGTTGCCC TTTTCCCACT TGAAGGAACG 
    GATGTGACTG GCTTTCGGCT GTGTGGAGCC AGGGACCCCT GCCAGGCAGC CCAAGAGTTG 
    CTGCAGAGTC TGCTGGGCAG CATCAGCTGC CACACACTGA ACATGAAGCA CCCAGGCAGT 
    GCCAGGTTCC TGCTGGGTGT GGAGGGGCAG CACCTTCTTC ACAGACTGGA GGCTCAGTTC 
    CAATGTGTCT TCGGGACAGA ACATCTGGCC AGCGCCACCC TGGACATAGA TCCTGAAAGG 
    ACAGATCCCA CTGAGGCCCT CCAAGTCCTC CATGGCCACA TTACAGGCAT CGATCAGGAG 
    AACATGAGAC TGGAGGACGT CCGAGAGCTG CTGGCTACCC TGGAGAGCCC ACATGGAGGG 
    GAGAACTGGG TGCCTCTGGA GATGGAGAAG GAGAAACCTG GAGGACCAAG AGAGACTGTT 
    GTAGAGCAGC AGGAGGAAAT CCCCACACTT GAGGCTGGGG AGGAACCTGT GGCCCTTAGC 
    ACCAGGGCAC CTGGGCAGTT AGAAGAAGAA GCCACACTTC AACTGGCTAT CCACCGGTCC 
    TTGGAGTCTC AAAGCCAGGT GGCAGATCAG CAGGAGGCTA ATGCACTAAG GCGAGCCATG 
    GCCCTCTCCC TGTTAGAAGC AGAAGAGGCC CTGGGTGAGG ACACAGGGGG CGAGGCCCAG 
    CTGGTGGTGC ACACATCCTT TGAGCAGGAT GTGGATGAAT TGAACCGGGC ATTATCCAAT 
    GCCTTGGAGG TACACCTTCG GGAGGAGACA GTGAGTCTCC AAGGGCGCAT GCTACCCCCG 
    GAGCTTGGGG CTCGTCTGGA AAGGTGTCAT GATGTGAATG CTACCCTCCA TGGCGACCAC 
    GTTGTCCTCC GTGGCTTTGG GGTACAGCCT GCCCGCGCGG CTCGCCACTT AGCTGCTCTG 
    CTTGTTGGCC CCTGGGACCA GAATTTGACC TTTCCTTTGG AGGCCTCAAA AACCAACTTG 
    TCTGAGCAGG GACTGAAGGA ACCCTTGGGC AGGCTGGAGG CCCTGGAAGA GAATTCCCAG 
    GAGTTCCAAG ATGTGGTGCG GGCCTTTTAT AGCACCCTGG ATGCTGTCCA CGGCAGGATC 
    CGCATTGTTC GAGTAGAACG TGTGTCACAC CCATTGCTGC AGCAACAGTA CCAGCTGCAT 
    CGGGAGCGGT TAATGCAGTG CTGCCAGCAA CGCCCAGTGG AGCAGGTCCT CTACCATGGC 
    ACTTCAGAGT CTGCAGTGCT CGACATCTGT GCGCACGGCT TCAATCGCAG TTTCTGTGGC 
    CGAAACGGCA CACTCTACGG ACAGGGCGTG TACTTCGCCA AGCGTGCCTC TCTGTCGGTA 
    CTGGATCGCT ACTCGCCTCC CAACGCAGAA GGCTACAAGG CAGTGTTTGT GGCACAGGTG 
    CTGACGGGTG ACTATGGACA GGGTTCCCGC GGTCTGAAGG CGCCTCCTTT GAGGGCCTCC 
    GGTCAGGTGC TTCGCTACGA CAGCGCTGTG GACTGCCTTC AGCAGCCCAG AATCTTTGTC 
    ATCTTTCACG ATACCCAAGC TTTACCGACT CATCTAATCA CCTGCAAGAA CATACTCCCG 
    GGTACCCCCT GA

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

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