ORF » Species Summary » Mus caroli » Xrn1 cDNA ORF clone

Xrn1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Xrn1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Xrn1 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
OMv09421 XM_021173230.1
Latest version!		 Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv76233 XM_029481985.1
Latest version!		 Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    Xrn1 ( XM_021173230.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021028889.1 Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA.
    Price & Availability↑
    CloneID OMv09421
    Clone ID Related Accession (Same CDS sequence) XM_021173230.1
    Accession Version XM_021173230.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4986bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product 5'-3' exoribonuclease 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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 Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGGAGTCC CCAAGTTTTA CCGATGGATC TCGGAGCGGT ACCCCTGCCT CAGCGAAGTG 
    GTGAAGGAGC ATCAGATTCC AGAATTTGAT AACTTGTACC TGGATATGAA TGGGATTATA 
    CATCAGTGTT CCCATCCTAA TGATGATGAT GTGCACTTCA GAATTTCAGA TGACAAAATC 
    TTTACTGACA TTTTTCACTA CTTGGAGGTG TTGTTTCGAA TTATTAAACC CAGGAAAGTG 
    TTCTTTATGG CTGTTGACGG TGTGGCTCCT CGAGCAAAAA TGAACCAGCA ACGTGGGAGG 
    CGTTTTAGGT CAGCCAAGGA GGCAGAAGAC AAAATTAAAA AAGCAATAGA AAAGGGAGAA 
    ACACTTCCTA CAGAAGCCAG ATTCGATTCC AACTGTATTA CGCCAGGGAC TGAATTCATG 
    GCCAGATTGC ATGAACATCT GAAGTATTTT GTAAATATGA AAATTTCCAC AGACAAATCA 
    TGGCAAGGTG TTACCATCTA CTTCTCAGGC CATGAGACTC CTGGAGAAGG AGAGCATAAA 
    ATCATGGAAT TTATCAGATC CGAGAAAGCA AAGCCAGATC ATGATCCAAA CACCAGACAT 
    TGTCTTTATG GCTTAGATGC TGACTTGATC ATGCTTGGAT TAACAAGTCA CGAGGCACAT 
    TTTTCTCTCT TAAGAGAAGA AGTTAGGTTT GGTGGAAAAA AAACACAAAG GGTATGTGCA 
    CCAGAAGAAA CGACATTTCA CCTCCTACAC TTGTCTTTAA TGAGAGAGTA TATTGATTAT 
    GAATTTTCAG CATTAAAGGA AAAGATCACA TTTAAATATG ATATTGAAAA AATTATAGAT 
    GATTGGATTT TGATGGGATT TCTTGTTGGC AATGATTTTA TCCCTCATCT ACCTCATTTA 
    CATATTAATC ATGATGCACT GCCTCTTCTT TATGGAACAT ATATTGCTAT CCTGCCAGAA 
    CTTGGAGGTT ATATTAATGA AAGTGGACAT CTCAACTTAC ATCGATTTGA GAGATACCTT 
    GTGAAACTAT CAGATTTTGA TCGGGAACAC TTCAGTGAAG TTTTTGTGGA CCTCAAGTGG 
    TTTGAAAGCA AAGTTGGTAA CAAATATCTC AATGAGGCAG CAGGTGCGGC AGCAGAAGAG 
    GCAAAGAACT GCAAGGAGAA GAGAAAACCG AAGGGTCAGG AAAATTCTTT AGGTTGGGCT 
    GCATTAGACA AAAGTGAAGG TGAAGGAGTA GCTTCTAGAG ATAACTTTGA AGATGAGACT 
    GAAGATGATG ATCTGTTTGA AACTGAATTT AGACAATATA AAAGAACATA CTACATGACG 
    AAGATGGGGG TCGACGTAGT ATCTGATGAG TTTCTGGCTA ATCAGGCTGC CTGTTATGTT 
    CAGGCTATAC AGTGGATCTT ACACTATTAC TATCATGGAG TGCAGTCCTG GAGCTGGTAC 
    TATCCCTATC ATTATGCACC CTTCCTATCT GATATCCGCA ATATCAGTAC ACTCAAAATC 
    CATTTTGAAC TAGGGAAACC CTTCAAGCCA TTCGAGCAGC TGCTTGCTGT ACTTCCATCG 
    GCTAGTAAAA ATTTGCTTCC TACATGCTAC CAGCATTTGA TGACNAGTGA AGACTCTCCA 
    ATTATAGAAT ATTATCCACC TGATTTTAAA ACTGATCTAA ATGGGAAACA ACAGGAATGG 
    GAAGCTGTGG TATTAATACC ATTTATTGAT GAGACACGAT TATTGGAAGC CATGGAGACA 
    TGTAACCACT CCCTCAAAAA AGAAGAGAGG AAAAGAAACC AACACAGTGA GTGCCTAATG 
    TGCTGGTACG ATAGAGACAC AGAGTTCACC TACTCCTCTC CATGGCCAGA AAAGTTCCCT 
    GCCATAGAAC GATGTTGTAC AAGGAAAGTA GAAAGTGAAA CAGTGTCTGA GTTTCATTGC 
    AGTTCATTGA GTATAGAGAA CATAGCTTCG GCGGTGCTGG GAAAGTCAGT CTTTGTTAAC 
    TGGCCTCATC TTGAAGAAGC TAGAGTTGTG GCAGTATCAG ATGGTGAAAC TAAGTTTTAC 
    ATAGAAGAAC CTCCAGGAAC ACAGAAGGTT TATTTGGGGA AAACTGCCCC ACCATCTAAA 
    GTCATCCAAC TTACAGATAA AGAACAATCG AACTGGACTA AAGAAATACA AGGAATTTCA 
    GAACAATACC TAAGAAGAAA GGGAATAATA ATAAATGAAA CATCTGCTGT TGTGTATGCT 
    CAGTTGCTCA CGGGTCGTAA ATATCAAATC GGTCAGAATG GTGAAGTCCG TCTAGAAAAA 
    CAGTGGTCAA AACAGATTCT TCCTTTCCTT TATCAAACTA TTGTTAAGGA CATCCGAGCT 
    TTTGACTCTC GTTTCTCCAA TATCAAAACA TTGGATGACT TGTTTCCACC GAGAAGTATG 
    GTCTTTATGC TTGGAACTCC TTATTATGGC TGCACTGGAG AAGTTCAGGA GTCAGGAGAT 
    GTGATTACAG AAGGGAGAAT CCGTGTGGTT TTCAGCATTC CTTGTGAACC AAATCTTGAT 
    GCTTTAATAC AGAATCAGCA TAAATACTCT ATAAAGTACA ACCCAGGATA TGTGTTGGCC 
    GGTCGCCTTG GAGTGAGTGG ATACCTTGTT TCAAGGTTTA CAGGAAGTAT TTTTATTGGA 
    AGAGGATCTA GGAGAAACCC TCATGGAGAC CATAAAGCAA ATGTGGGTTT AAATCTCAAA 
    TTCAACAAGA AAAATGAGGA AGTCCCTGGC TATACCAAGA AAGTGGGGAA CGAGTGGATG 
    TACTCATCGG CAGCAGAGCA GCTCCTCGCA GAGTACATCG AGAGAGCACC AGAACTGTTT 
    AGTTACATAG CAAAAAACAG CCAAGAGGAT GTATTCTATG AAGATGACAT CTGGCCTGGA 
    GAAAATGAGA ACGGGGCTGA GAAAGTTCAA GAAATTATTA CTTGGCTAAA AGGGCATCCT 
    GTCAGTACTC TGTCTCGGTC TTCTTGTGAC TTACACATTC TGGATGCAGC CATTGTTGAA 
    AAAATCGAGG AAGAAGTTGA GAAGTGCAAG CAAAGAAAGA GCAACAAGAA AGTCCGAGTG 
    ACAGTGAAGC CCCATTTGCT GTACAGACCC TTAGAGCAGC AGCATGGAGT CATTCCTGAT 
    CGGGATGCCG AGTTCCGGCT CTTTGATCGC GTTGTGAANG TGAGAGAGAG CTTCTCCGTG 
    CCAGTCGGCC TTCGAGGCAC CGTCATTGGA ATTAAAGGGG CTAGCAGAGA AGCTGATGTA 
    CTATTTGAAG TATTATTTGA TGAGGAATTT CCTGGAGGCT TAACAATAAG GTGCTCACCT 
    GGTAGGGGAT ACCGACTGCC AACAAGTGCC TTGGTGAACC TTTCTCATGG GAGTCGGTGT 
    GAAACTGGAA ACCAGAAGTT GACAGCCATT GTGAAACCAC AGCCGTCTGT GAGTCACTGT 
    AGTGCAGCTC CNTCCGGGCA CTTGGGAGGC CTCAACCACT CTCCTCAGTC GCTTTTTCTT 
    CCTACTCAGG TACCTACAAA AGGTGATGAT GAATTTTGCA ACATTTGGCA ATCTCTACAG 
    GGAGCTGGAA AAATTCAACA CTTGCAGCCG GCAGTACAAG AGAAGGGTGC AGTTCTACCT 
    CAAGAAATAA GTCAAGTACC TGAAGCTCAT AAATCAGGCT TTACTGACCA CAGTGTCAGA 
    CATCAGCAAA GAAAACACGA CTCTCAACGA AAATTTAAGG AAGAATATAA AAGTCCTCAA 
    GCTGAGTGTC AGAGTCAGAA GTTGTCCAGT AAACAGACTT GTGGAGGGTC TGCCAGATGT 
    GATATTAAAC TATTGAAGAG AAATGAAAGT CCAGGAGCGT CAGGAACCCG GAAGGCTGTA 
    ACTAGTTACC CGAGTGCAGT GCACAAGCCT CCCTCTGGAA TTGAGAACTT TTTAGCATCT 
    TTGAATNTCT CTAAGGAGAG TGAAGCACAG TTACCTCAGC ATGGAGAGCC TCCAGACGAG 
    GCGGATTTGT CCCCGCAGTC CTTTGCTATG AAAGGAACAC GGATGCTTAA AGAAATCCTG 
    AAAATTGATA GCCCTGACAC AAGAGACAGC AAGAATGATA TGAAGAAATC TGATAATGAA 
    GCCACTGTTT CTTCTAGAAG AGACGAGCGT GGAATGTCAT CACATCCTAA GCTAACATGC 
    CATATGAACA AGCCTCATGG GACTAATGAG TTCCAAAATG TGGCATCGGT NGACAGTGTG 
    TGTTGGCCAG GCCAGATGCC TCCTGTGTCC ACACCAGTAA CTGAACTTTC TCGAATTTGT 
    TCCCTTGTTG GAATGCCACA ACCTGATTTC TCCTTTCTGC GAACAACACA GACAATGACA 
    GTTTGTCAGG TAAAATTGTC TAATGGCTTA CTGGTACATG GGCCACAGTG CCACTCTGAA 
    AGTGAAGCCA AGGAGAGAGC TGCTCTTTTT GCTTTACAGC AACTGGGCTC CTTGGGTGTG 
    AGTTTTCCTT TGCCTCCACC CATATTTACA AATTATCCTC CTGCGGTGCC ACCTGGAGCC 
    GTCCCTCCTG TTTTTACCCA ACCTACTGCT AATATAATGC CTTCATCGTC TCATCTCTTT 
    GGCTCAGTGT CATGGAGACC ACCAGTGCCA GTTGCTGGGA ATGCCTTCCA CTATCCTTCA 
    TATCCTGGAG CCATGCCCTT GGCTGGAGGA GTGCCAGGCG GAGTGCACAG TCAGTTCATA 
    CCTCTGCAGG TTACCAAAAA AAGAGTTGCA AACAGAAAGA ATTTTGAGAA TAAGGAGGCC 
    CAGAGTTCTC AGGCCACACC ACTTCAGACT AACAAGCCAG GGTCTTCTGA AGCCACCAAA 
    ATGACTCCAC AAGAAAGTCC ACCAGCCTCT TCATCGTCCT CTCAGGCTGC CCAGCCCGTG 
    TCTCCTCATG TTGAAACTGC CTCCCAAGGC CATGTTGGGT CCCAACTGAG GTCAGCGCCA 
    AGCTCCTCAA GAAGGAAGTC GAGAAAACTG GCCGTCAACT TCAGCGTTTC TAAACCTTCG 
    GAATAA

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

    RefSeq XP_021028889.1
    CDS56..5041
    Translation

    Target ORF information:

    RefSeq Version XM_021173230.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021173230.1

    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
    ATGGGAGTCC CCAAGTTTTA CCGATGGATC TCGGAGCGGT ACCCCTGCCT CAGCGAAGTG 
    GTGAAGGAGC ATCAGATTCC AGAATTTGAT AACTTGTACC TGGATATGAA TGGGATTATA 
    CATCAGTGTT CCCATCCTAA TGATGATGAT GTGCACTTCA GAATTTCAGA TGACAAAATC 
    TTTACTGACA TTTTTCACTA CTTGGAGGTG TTGTTTCGAA TTATTAAACC CAGGAAAGTG 
    TTCTTTATGG CTGTTGACGG TGTGGCTCCT CGAGCAAAAA TGAACCAGCA ACGTGGGAGG 
    CGTTTTAGGT CAGCCAAGGA GGCAGAAGAC AAAATTAAAA AAGCAATAGA AAAGGGAGAA 
    ACACTTCCTA CAGAAGCCAG ATTCGATTCC AACTGTATTA CGCCAGGGAC TGAATTCATG 
    GCCAGATTGC ATGAACATCT GAAGTATTTT GTAAATATGA AAATTTCCAC AGACAAATCA 
    TGGCAAGGTG TTACCATCTA CTTCTCAGGC CATGAGACTC CTGGAGAAGG AGAGCATAAA 
    ATCATGGAAT TTATCAGATC CGAGAAAGCA AAGCCAGATC ATGATCCAAA CACCAGACAT 
    TGTCTTTATG GCTTAGATGC TGACTTGATC ATGCTTGGAT TAACAAGTCA CGAGGCACAT 
    TTTTCTCTCT TAAGAGAAGA AGTTAGGTTT GGTGGAAAAA AAACACAAAG GGTATGTGCA 
    CCAGAAGAAA CGACATTTCA CCTCCTACAC TTGTCTTTAA TGAGAGAGTA TATTGATTAT 
    GAATTTTCAG CATTAAAGGA AAAGATCACA TTTAAATATG ATATTGAAAA AATTATAGAT 
    GATTGGATTT TGATGGGATT TCTTGTTGGC AATGATTTTA TCCCTCATCT ACCTCATTTA 
    CATATTAATC ATGATGCACT GCCTCTTCTT TATGGAACAT ATATTGCTAT CCTGCCAGAA 
    CTTGGAGGTT ATATTAATGA AAGTGGACAT CTCAACTTAC ATCGATTTGA GAGATACCTT 
    GTGAAACTAT CAGATTTTGA TCGGGAACAC TTCAGTGAAG TTTTTGTGGA CCTCAAGTGG 
    TTTGAAAGCA AAGTTGGTAA CAAATATCTC AATGAGGCAG CAGGTGCGGC AGCAGAAGAG 
    GCAAAGAACT GCAAGGAGAA GAGAAAACCG AAGGGTCAGG AAAATTCTTT AGGTTGGGCT 
    GCATTAGACA AAAGTGAAGG TGAAGGAGTA GCTTCTAGAG ATAACTTTGA AGATGAGACT 
    GAAGATGATG ATCTGTTTGA AACTGAATTT AGACAATATA AAAGAACATA CTACATGACG 
    AAGATGGGGG TCGACGTAGT ATCTGATGAG TTTCTGGCTA ATCAGGCTGC CTGTTATGTT 
    CAGGCTATAC AGTGGATCTT ACACTATTAC TATCATGGAG TGCAGTCCTG GAGCTGGTAC 
    TATCCCTATC ATTATGCACC CTTCCTATCT GATATCCGCA ATATCAGTAC ACTCAAAATC 
    CATTTTGAAC TAGGGAAACC CTTCAAGCCA TTCGAGCAGC TGCTTGCTGT ACTTCCATCG 
    GCTAGTAAAA ATTTGCTTCC TACATGCTAC CAGCATTTGA TGACNAGTGA AGACTCTCCA 
    ATTATAGAAT ATTATCCACC TGATTTTAAA ACTGATCTAA ATGGGAAACA ACAGGAATGG 
    GAAGCTGTGG TATTAATACC ATTTATTGAT GAGACACGAT TATTGGAAGC CATGGAGACA 
    TGTAACCACT CCCTCAAAAA AGAAGAGAGG AAAAGAAACC AACACAGTGA GTGCCTAATG 
    TGCTGGTACG ATAGAGACAC AGAGTTCACC TACTCCTCTC CATGGCCAGA AAAGTTCCCT 
    GCCATAGAAC GATGTTGTAC AAGGAAAGTA GAAAGTGAAA CAGTGTCTGA GTTTCATTGC 
    AGTTCATTGA GTATAGAGAA CATAGCTTCG GCGGTGCTGG GAAAGTCAGT CTTTGTTAAC 
    TGGCCTCATC TTGAAGAAGC TAGAGTTGTG GCAGTATCAG ATGGTGAAAC TAAGTTTTAC 
    ATAGAAGAAC CTCCAGGAAC ACAGAAGGTT TATTTGGGGA AAACTGCCCC ACCATCTAAA 
    GTCATCCAAC TTACAGATAA AGAACAATCG AACTGGACTA AAGAAATACA AGGAATTTCA 
    GAACAATACC TAAGAAGAAA GGGAATAATA ATAAATGAAA CATCTGCTGT TGTGTATGCT 
    CAGTTGCTCA CGGGTCGTAA ATATCAAATC GGTCAGAATG GTGAAGTCCG TCTAGAAAAA 
    CAGTGGTCAA AACAGATTCT TCCTTTCCTT TATCAAACTA TTGTTAAGGA CATCCGAGCT 
    TTTGACTCTC GTTTCTCCAA TATCAAAACA TTGGATGACT TGTTTCCACC GAGAAGTATG 
    GTCTTTATGC TTGGAACTCC TTATTATGGC TGCACTGGAG AAGTTCAGGA GTCAGGAGAT 
    GTGATTACAG AAGGGAGAAT CCGTGTGGTT TTCAGCATTC CTTGTGAACC AAATCTTGAT 
    GCTTTAATAC AGAATCAGCA TAAATACTCT ATAAAGTACA ACCCAGGATA TGTGTTGGCC 
    GGTCGCCTTG GAGTGAGTGG ATACCTTGTT TCAAGGTTTA CAGGAAGTAT TTTTATTGGA 
    AGAGGATCTA GGAGAAACCC TCATGGAGAC CATAAAGCAA ATGTGGGTTT AAATCTCAAA 
    TTCAACAAGA AAAATGAGGA AGTCCCTGGC TATACCAAGA AAGTGGGGAA CGAGTGGATG 
    TACTCATCGG CAGCAGAGCA GCTCCTCGCA GAGTACATCG AGAGAGCACC AGAACTGTTT 
    AGTTACATAG CAAAAAACAG CCAAGAGGAT GTATTCTATG AAGATGACAT CTGGCCTGGA 
    GAAAATGAGA ACGGGGCTGA GAAAGTTCAA GAAATTATTA CTTGGCTAAA AGGGCATCCT 
    GTCAGTACTC TGTCTCGGTC TTCTTGTGAC TTACACATTC TGGATGCAGC CATTGTTGAA 
    AAAATCGAGG AAGAAGTTGA GAAGTGCAAG CAAAGAAAGA GCAACAAGAA AGTCCGAGTG 
    ACAGTGAAGC CCCATTTGCT GTACAGACCC TTAGAGCAGC AGCATGGAGT CATTCCTGAT 
    CGGGATGCCG AGTTCCGGCT CTTTGATCGC GTTGTGAANG TGAGAGAGAG CTTCTCCGTG 
    CCAGTCGGCC TTCGAGGCAC CGTCATTGGA ATTAAAGGGG CTAGCAGAGA AGCTGATGTA 
    CTATTTGAAG TATTATTTGA TGAGGAATTT CCTGGAGGCT TAACAATAAG GTGCTCACCT 
    GGTAGGGGAT ACCGACTGCC AACAAGTGCC TTGGTGAACC TTTCTCATGG GAGTCGGTGT 
    GAAACTGGAA ACCAGAAGTT GACAGCCATT GTGAAACCAC AGCCGTCTGT GAGTCACTGT 
    AGTGCAGCTC CNTCCGGGCA CTTGGGAGGC CTCAACCACT CTCCTCAGTC GCTTTTTCTT 
    CCTACTCAGG TACCTACAAA AGGTGATGAT GAATTTTGCA ACATTTGGCA ATCTCTACAG 
    GGAGCTGGAA AAATTCAACA CTTGCAGCCG GCAGTACAAG AGAAGGGTGC AGTTCTACCT 
    CAAGAAATAA GTCAAGTACC TGAAGCTCAT AAATCAGGCT TTACTGACCA CAGTGTCAGA 
    CATCAGCAAA GAAAACACGA CTCTCAACGA AAATTTAAGG AAGAATATAA AAGTCCTCAA 
    GCTGAGTGTC AGAGTCAGAA GTTGTCCAGT AAACAGACTT GTGGAGGGTC TGCCAGATGT 
    GATATTAAAC TATTGAAGAG AAATGAAAGT CCAGGAGCGT CAGGAACCCG GAAGGCTGTA 
    ACTAGTTACC CGAGTGCAGT GCACAAGCCT CCCTCTGGAA TTGAGAACTT TTTAGCATCT 
    TTGAATNTCT CTAAGGAGAG TGAAGCACAG TTACCTCAGC ATGGAGAGCC TCCAGACGAG 
    GCGGATTTGT CCCCGCAGTC CTTTGCTATG AAAGGAACAC GGATGCTTAA AGAAATCCTG 
    AAAATTGATA GCCCTGACAC AAGAGACAGC AAGAATGATA TGAAGAAATC TGATAATGAA 
    GCCACTGTTT CTTCTAGAAG AGACGAGCGT GGAATGTCAT CACATCCTAA GCTAACATGC 
    CATATGAACA AGCCTCATGG GACTAATGAG TTCCAAAATG TGGCATCGGT NGACAGTGTG 
    TGTTGGCCAG GCCAGATGCC TCCTGTGTCC ACACCAGTAA CTGAACTTTC TCGAATTTGT 
    TCCCTTGTTG GAATGCCACA ACCTGATTTC TCCTTTCTGC GAACAACACA GACAATGACA 
    GTTTGTCAGG TAAAATTGTC TAATGGCTTA CTGGTACATG GGCCACAGTG CCACTCTGAA 
    AGTGAAGCCA AGGAGAGAGC TGCTCTTTTT GCTTTACAGC AACTGGGCTC CTTGGGTGTG 
    AGTTTTCCTT TGCCTCCACC CATATTTACA AATTATCCTC CTGCGGTGCC ACCTGGAGCC 
    GTCCCTCCTG TTTTTACCCA ACCTACTGCT AATATAATGC CTTCATCGTC TCATCTCTTT 
    GGCTCAGTGT CATGGAGACC ACCAGTGCCA GTTGCTGGGA ATGCCTTCCA CTATCCTTCA 
    TATCCTGGAG CCATGCCCTT GGCTGGAGGA GTGCCAGGCG GAGTGCACAG TCAGTTCATA 
    CCTCTGCAGG TTACCAAAAA AAGAGTTGCA AACAGAAAGA ATTTTGAGAA TAAGGAGGCC 
    CAGAGTTCTC AGGCCACACC ACTTCAGACT AACAAGCCAG GGTCTTCTGA AGCCACCAAA 
    ATGACTCCAC AAGAAAGTCC ACCAGCCTCT TCATCGTCCT CTCAGGCTGC CCAGCCCGTG 
    TCTCCTCATG TTGAAACTGC CTCCCAAGGC CATGTTGGGT CCCAACTGAG GTCAGCGCCA 
    AGCTCCTCAA GAAGGAAGTC GAGAAAACTG GCCGTCAACT TCAGCGTTTC TAAACCTTCG 
    GAATAA

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

    Xrn1 ( XM_029481985.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029337845.1 Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA.
    Price & Availability↑
    CloneID OMv76233
    Clone ID Related Accession (Same CDS sequence) XM_029481985.1
    Accession Version XM_029481985.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4998bp)
    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 5'-3' exoribonuclease 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGGAGTCC CCAAGTTTTA CCGATGGATC TCGGAGCGGT ACCCCTGCCT CAGCGAAGTG 
    GTGAAGGAGC ATCAGATTCC AGAATTTGAT AACTTGTACC TGGATATGAA TGGGATTATA 
    CATCAGTGTT CCCATCCTAA TGATGATGAT GTGCACTTCA GAATTTCAGA TGACAAAATC 
    TTTACTGACA TTTTTCACTA CTTGGAGGTG TTGTTTCGAA TTATTAAACC CAGGAAAGTG 
    TTCTTTATGG CTGTTGACGG TGTGGCTCCT CGAGCAAAAA TGAACCAGCA ACGTGGGAGG 
    CGTTTTAGGT CAGCCAAGGA GGCAGAAGAC AAAATTAAAA AAGCAATAGA AAAGGGAGAA 
    ACACTTCCTA CAGAAGCCAG ATTCGATTCC AACTGTATTA CGCCAGGGAC TGAATTCATG 
    GCCAGATTGC ATGAACATCT GAAGTATTTT GTAAATATGA AAATTTCCAC AGACAAATCA 
    TGGCAAGGTG TTACCATCTA CTTCTCAGGC CATGAGACTC CTGGAGAAGG AGAGCATAAA 
    ATCATGGAAT TTATCAGATC CGAGAAAGCA AAGCCAGATC ATGATCCAAA CACCAGACAT 
    TGTCTTTATG GCTTAGATGC TGACTTGATC ATGCTTGGAT TAACAAGTCA CGAGGCACAT 
    TTTTCTCTCT TAAGAGAAGA AGTTAGGTTT GGTGGAAAAA AAACACAAAG GGTATGTGCA 
    CCAGAAGAAA CGACATTTCA CCTCCTACAC TTGTCTTTAA TGAGAGAGTA TATTGATTAT 
    GAATTTTCAG CATTAAAGGA AAAGATCACA TTTAAATATG ATATTGAAAA AATTATAGAT 
    GATTGGATTT TGATGGGATT TCTTGTTGGC AATGATTTTA TCCCTCATCT ACCTCATTTA 
    CATATTAATC ATGATGCACT GCCTCTTCTT TATGGAACAT ATATTGCTAT CCTGCCAGAA 
    CTTGGAGGTT ATATTAATGA AAGTGGACAT CTCAACTTAC ATCGATTTGA GAGATACCTT 
    GTGAAACTAT CAGATTTTGA TCGGGAACAC TTCAGTGAAG TTTTTGTGGA CCTCAAGTGG 
    TTTGAAAGCA AAGTTGGTAA CAAATATCTC AATGAGGCAG CAGGTGCGGC AGCAGAAGAG 
    GCAAAGAACT GCAAGGAGAA GAGAAAACCG AAGGGTCAGG AAAATTCTTT AGGTTGGGCT 
    GCATTAGACA AAAGTGAAGG TGAAGGAGTA GCTTCTAGAG ATAACTTTGA AGATGAGACT 
    GAAGATGATG ATCTGTTTGA AACTGAATTT AGACAATATA AAAGAACATA CTACATGACG 
    AAGATGGGGG TCGACGTAGT ATCTGATGAG TTTCTGGCTA ATCAGGCTGC CTGTTATGTT 
    CAGGCTATAC AGTGGATCTT ACACTATTAC TATCATGGAG TGCAGTCCTG GAGCTGGTAC 
    TATCCCTATC ATTATGCACC CTTCCTATCT GATATCCGCA ATATCAGTAC ACTCAAAATC 
    CATTTTGAAC TAGGGAAACC CTTCAAGCCA TTCGAGCAGC TGCTTGCTGT ACTTCCATCG 
    GCTAGTAAAA ATTTGCTTCC TACATGCTAC CAGCATTTGA TGACNAGTGA AGACTCTCCA 
    ATTATAGAAT ATTATCCACC TGATTTTAAA ACTGATCTAA ATGGGAAACA ACAGGAATGG 
    GAAGCTGTGG TATTAATACC ATTTATTGAT GAGACACGAT TATTGGAAGC CATGGAGACA 
    TGTAACCACT CCCTCAAAAA AGAAGAGAGG AAAAGAAACC AACACAGTGA GTGCCTAATG 
    TGCTGGTACG ATAGAGACAC AGAGTTCACC TACTCCTCTC CATGGCCAGA AAAGTTCCCT 
    GCCATAGAAC GATGTTGTAC AAGGAAAGTA GAAAGTGAAA CAGTGTCTGA GTTTCATTGC 
    AGTTCATTGA GTATAGAGAA CATAGCTTCG GCGGTGCTGG GAAAGTCAGT CTTTGTTAAC 
    TGGCCTCATC TTGAAGAAGC TAGAGTTGTG GCAGTATCAG ATGGTGAAAC TAAGTTTTAC 
    ATAGAAGAAC CTCCAGGAAC ACAGAAGGTT TATTTGGGGA AAACTGCCCC ACCATCTAAA 
    GTCATCCAAC TTACAGATAA AGAACAATCG AACTGGACTA AAGAAATACA AGGAATTTCA 
    GAACAATACC TAAGAAGAAA GGGAATAATA ATAAATGAAA CATCTGCTGT TGTGTATGCT 
    CAGTTGCTCA CGGGTCGTAA ATATCAAATC GGTCAGAATG GTGAAGTCCG TCTAGAAAAA 
    CAGTGGTCAA AACAGATTCT TCCTTTCCTT TATCAAACTA TTGTTAAGGA CATCCGAGCT 
    TTTGACTCTC GTTTCTCCAA TATCAAAACA TTGGATGACT TGTTTCCACC GAGAAGTATG 
    GTCTTTATGC TTGGAACTCC TTATTATGGC TGCACTGGAG AAGTTCAGGA GTCAGGAGAT 
    GTGATTACAG AAGGGAGAAT CCGTGTGGTT TTCAGCATTC CTTGTGAACC AAATCTTGAT 
    GCTTTAATAC AGAATCAGCA TAAATACTCT ATAAAGTACA ACCCAGGATA TGTGTTGGCC 
    GGTCGCCTTG GAGTGAGTGG ATACCTTGTT TCAAGGTTTA CAGGAAGTAT TTTTATTGGA 
    AGAGGATCTA GGAGAAACCC TCATGGAGAC CATAAAGCAA ATGTGGGTTT AAATCTCAAA 
    TTCAACAAGA AAAATGAGGA AGTCCCTGGC TATACCAAGA AAGTGGGGAA CGAGTGGATG 
    TACTCATCGG CAGCAGAGCA GCTCCTCGCA GAGTACATCG AGAGAGCACC AGAACTGTTT 
    AGTTACATAG CAAAAAACAG CCAAGAGGAT GTATTCTATG AAGATGACAT CTGGCCTGGA 
    GAAAATGAGA ACGGGGCTGA GAAAGTTCAA GAAATTATTA CTTGGCTAAA AGGGCATCCT 
    GTCAGTACTC TGTCTCGGTC TTCTTGTGAC TTACACATTC TGGATGCAGC CATTGTTGAA 
    AAAATCGAGG AAGAAGTTGA GAAGTGCAAG CAAAGAAAGA GCAACAAGAA AGTCCGAGTG 
    ACAGTGAAGC CCCATTTGCT GTACAGACCC TTAGAGCAGC AGCATGGAGT CATTCCTGAT 
    CGGGATGCCG AGTTCCGGCT CTTTGATCGC GTTGTGAANG TGAGAGAGAG CTTCTCCGTG 
    CCAGTCGGCC TTCGAGGCAC CGTCATTGGA ATTAAAGGGG CTAGCAGAGA AGCTGATGTA 
    CTATTTGAAG TATTATTTGA TGAGGAATTT CCTGGAGGCT TAACAATAAG GTGCTCACCT 
    GGTAGGGGAT ACCGACTGCC AACAAGTGCC TTGGTGAACC TTTCTCATGG GAGTCGGTGT 
    GAAACTGGAA ACCAGAAGTT GACAGCCATT GTGAAACCAC AGCCGTCTGT GAGTCACTGT 
    AGTGCAGCTC CNTCCGGGCA CTTGGGAGGC CTCAACCACT CTCCTCAGTC GCTTTTTCTT 
    CCTACTCAGG TACCTACAAA AGGTGATGAT GAATTTTGCA ACATTTGGCA ATCTCTACAG 
    GGAGCTGGAA AAATTCAACA CTTGCAGCCG GCAGTACAAG AGAAGGGTGC AGTTCTACCT 
    CAAGAAATAA GTCAAGTACC TGAAGCTCAT AAATCAGGCT TTACTGACCA CAGTGTCAGA 
    CATCAGCAAA GAAAACACGA CTCTCAACGA AAATTTAAGG AAGAATATAA AAGTCCTCAA 
    GCTGAGTGTC AGAGTCAGAA GTTGTCCAGT AAACAGACTT GTGGAGGGTC TGCCAGATGT 
    GATATTAAAC TATTGAAGAG AAATGAAAGT CCAGGAGCGT CAGGAACCCG GAAGGCTGTA 
    ACTAGTTACC CGAGTGCAGT GCACAAGCCT CCCTCTGGAA TTGAGAACTT TTTAGCATCT 
    TTGAATNTCT CTAAGGAGAG TGAAGCACAG TTACCTCAGC ATGGAGAGCC TCCAGACGAG 
    GCGGATTTGT CCCCGCAGTC CTTTGCTATG AAAGGAACAC GGATGCTTAA AGAAATCCTG 
    AAAATTGATA GCCCTGACAC AAGAGACAGC AAGAATGATA TGAAGAAATC TGATAATGAA 
    GCCACTGTTT CTTCTAGAAG AGACGAGCGT GGAATGTCAT CACATCCTAA GCTAAGTAAG 
    AAGCTGACAT GCCATATGAA CAAGCCTCAT GGGACTAATG AGTTCCAAAA TGTGGCATCG 
    GTNGACAGTG TGTGTTGGCC AGGCCAGATG CCTCCTGTGT CCACACCAGT AACTGAACTT 
    TCTCGAATTT GTTCCCTTGT TGGAATGCCA CAACCTGATT TCTCCTTTCT GCGAACAACA 
    CAGACAATGA CAGTTTGTCA GGTAAAATTG TCTAATGGCT TACTGGTACA TGGGCCACAG 
    TGCCACTCTG AAAGTGAAGC CAAGGAGAGA GCTGCTCTTT TTGCTTTACA GCAACTGGGC 
    TCCTTGGGTG TGAGTTTTCC TTTGCCTCCA CCCATATTTA CAAATTATCC TCCTGCGGTG 
    CCACCTGGAG CCGTCCCTCC TGTTTTTACC CAACCTACTG CTAATATAAT GCCTTCATCG 
    TCTCATCTCT TTGGCTCAGT GTCATGGAGA CCACCAGTGC CAGTTGCTGG GAATGCCTTC 
    CACTATCCTT CATATCCTGG AGCCATGCCC TTGGCTGGAG GAGTGCCAGG CGGAGTGCAC 
    AGTCAGTTCA TACCTCTGCA GGTTACCAAA AAAAGAGTTG CAAACAGAAA GAATTTTGAG 
    AATAAGGAGG CCCAGAGTTC TCAGGCCACA CCACTTCAGA CTAACAAGCC AGGGTCTTCT 
    GAAGCCACCA AAATGACTCC ACAAGAAAGT CCACCAGCCT CTTCATCGTC CTCTCAGGCT 
    GCCCAGCCCG TGTCTCCTCA TGTTGAAACT GCCTCCCAAG GCCATGTTGG GTCCCAACTG 
    AGGTCAGCGC CAAGCTCCTC AAGAAGGAAG TCGAGAAAAC TGGCCGTCAA CTTCAGCGTT 
    TCTAAACCTT CGGAATAA

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

    RefSeq XP_029337845.1
    CDS104..5101
    Translation

    Target ORF information:

    RefSeq Version XM_029481985.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli 5'-3' exoribonuclease 1 (Xrn1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029481985.1

    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
    ATGGGAGTCC CCAAGTTTTA CCGATGGATC TCGGAGCGGT ACCCCTGCCT CAGCGAAGTG 
    GTGAAGGAGC ATCAGATTCC AGAATTTGAT AACTTGTACC TGGATATGAA TGGGATTATA 
    CATCAGTGTT CCCATCCTAA TGATGATGAT GTGCACTTCA GAATTTCAGA TGACAAAATC 
    TTTACTGACA TTTTTCACTA CTTGGAGGTG TTGTTTCGAA TTATTAAACC CAGGAAAGTG 
    TTCTTTATGG CTGTTGACGG TGTGGCTCCT CGAGCAAAAA TGAACCAGCA ACGTGGGAGG 
    CGTTTTAGGT CAGCCAAGGA GGCAGAAGAC AAAATTAAAA AAGCAATAGA AAAGGGAGAA 
    ACACTTCCTA CAGAAGCCAG ATTCGATTCC AACTGTATTA CGCCAGGGAC TGAATTCATG 
    GCCAGATTGC ATGAACATCT GAAGTATTTT GTAAATATGA AAATTTCCAC AGACAAATCA 
    TGGCAAGGTG TTACCATCTA CTTCTCAGGC CATGAGACTC CTGGAGAAGG AGAGCATAAA 
    ATCATGGAAT TTATCAGATC CGAGAAAGCA AAGCCAGATC ATGATCCAAA CACCAGACAT 
    TGTCTTTATG GCTTAGATGC TGACTTGATC ATGCTTGGAT TAACAAGTCA CGAGGCACAT 
    TTTTCTCTCT TAAGAGAAGA AGTTAGGTTT GGTGGAAAAA AAACACAAAG GGTATGTGCA 
    CCAGAAGAAA CGACATTTCA CCTCCTACAC TTGTCTTTAA TGAGAGAGTA TATTGATTAT 
    GAATTTTCAG CATTAAAGGA AAAGATCACA TTTAAATATG ATATTGAAAA AATTATAGAT 
    GATTGGATTT TGATGGGATT TCTTGTTGGC AATGATTTTA TCCCTCATCT ACCTCATTTA 
    CATATTAATC ATGATGCACT GCCTCTTCTT TATGGAACAT ATATTGCTAT CCTGCCAGAA 
    CTTGGAGGTT ATATTAATGA AAGTGGACAT CTCAACTTAC ATCGATTTGA GAGATACCTT 
    GTGAAACTAT CAGATTTTGA TCGGGAACAC TTCAGTGAAG TTTTTGTGGA CCTCAAGTGG 
    TTTGAAAGCA AAGTTGGTAA CAAATATCTC AATGAGGCAG CAGGTGCGGC AGCAGAAGAG 
    GCAAAGAACT GCAAGGAGAA GAGAAAACCG AAGGGTCAGG AAAATTCTTT AGGTTGGGCT 
    GCATTAGACA AAAGTGAAGG TGAAGGAGTA GCTTCTAGAG ATAACTTTGA AGATGAGACT 
    GAAGATGATG ATCTGTTTGA AACTGAATTT AGACAATATA AAAGAACATA CTACATGACG 
    AAGATGGGGG TCGACGTAGT ATCTGATGAG TTTCTGGCTA ATCAGGCTGC CTGTTATGTT 
    CAGGCTATAC AGTGGATCTT ACACTATTAC TATCATGGAG TGCAGTCCTG GAGCTGGTAC 
    TATCCCTATC ATTATGCACC CTTCCTATCT GATATCCGCA ATATCAGTAC ACTCAAAATC 
    CATTTTGAAC TAGGGAAACC CTTCAAGCCA TTCGAGCAGC TGCTTGCTGT ACTTCCATCG 
    GCTAGTAAAA ATTTGCTTCC TACATGCTAC CAGCATTTGA TGACNAGTGA AGACTCTCCA 
    ATTATAGAAT ATTATCCACC TGATTTTAAA ACTGATCTAA ATGGGAAACA ACAGGAATGG 
    GAAGCTGTGG TATTAATACC ATTTATTGAT GAGACACGAT TATTGGAAGC CATGGAGACA 
    TGTAACCACT CCCTCAAAAA AGAAGAGAGG AAAAGAAACC AACACAGTGA GTGCCTAATG 
    TGCTGGTACG ATAGAGACAC AGAGTTCACC TACTCCTCTC CATGGCCAGA AAAGTTCCCT 
    GCCATAGAAC GATGTTGTAC AAGGAAAGTA GAAAGTGAAA CAGTGTCTGA GTTTCATTGC 
    AGTTCATTGA GTATAGAGAA CATAGCTTCG GCGGTGCTGG GAAAGTCAGT CTTTGTTAAC 
    TGGCCTCATC TTGAAGAAGC TAGAGTTGTG GCAGTATCAG ATGGTGAAAC TAAGTTTTAC 
    ATAGAAGAAC CTCCAGGAAC ACAGAAGGTT TATTTGGGGA AAACTGCCCC ACCATCTAAA 
    GTCATCCAAC TTACAGATAA AGAACAATCG AACTGGACTA AAGAAATACA AGGAATTTCA 
    GAACAATACC TAAGAAGAAA GGGAATAATA ATAAATGAAA CATCTGCTGT TGTGTATGCT 
    CAGTTGCTCA CGGGTCGTAA ATATCAAATC GGTCAGAATG GTGAAGTCCG TCTAGAAAAA 
    CAGTGGTCAA AACAGATTCT TCCTTTCCTT TATCAAACTA TTGTTAAGGA CATCCGAGCT 
    TTTGACTCTC GTTTCTCCAA TATCAAAACA TTGGATGACT TGTTTCCACC GAGAAGTATG 
    GTCTTTATGC TTGGAACTCC TTATTATGGC TGCACTGGAG AAGTTCAGGA GTCAGGAGAT 
    GTGATTACAG AAGGGAGAAT CCGTGTGGTT TTCAGCATTC CTTGTGAACC AAATCTTGAT 
    GCTTTAATAC AGAATCAGCA TAAATACTCT ATAAAGTACA ACCCAGGATA TGTGTTGGCC 
    GGTCGCCTTG GAGTGAGTGG ATACCTTGTT TCAAGGTTTA CAGGAAGTAT TTTTATTGGA 
    AGAGGATCTA GGAGAAACCC TCATGGAGAC CATAAAGCAA ATGTGGGTTT AAATCTCAAA 
    TTCAACAAGA AAAATGAGGA AGTCCCTGGC TATACCAAGA AAGTGGGGAA CGAGTGGATG 
    TACTCATCGG CAGCAGAGCA GCTCCTCGCA GAGTACATCG AGAGAGCACC AGAACTGTTT 
    AGTTACATAG CAAAAAACAG CCAAGAGGAT GTATTCTATG AAGATGACAT CTGGCCTGGA 
    GAAAATGAGA ACGGGGCTGA GAAAGTTCAA GAAATTATTA CTTGGCTAAA AGGGCATCCT 
    GTCAGTACTC TGTCTCGGTC TTCTTGTGAC TTACACATTC TGGATGCAGC CATTGTTGAA 
    AAAATCGAGG AAGAAGTTGA GAAGTGCAAG CAAAGAAAGA GCAACAAGAA AGTCCGAGTG 
    ACAGTGAAGC CCCATTTGCT GTACAGACCC TTAGAGCAGC AGCATGGAGT CATTCCTGAT 
    CGGGATGCCG AGTTCCGGCT CTTTGATCGC GTTGTGAANG TGAGAGAGAG CTTCTCCGTG 
    CCAGTCGGCC TTCGAGGCAC CGTCATTGGA ATTAAAGGGG CTAGCAGAGA AGCTGATGTA 
    CTATTTGAAG TATTATTTGA TGAGGAATTT CCTGGAGGCT TAACAATAAG GTGCTCACCT 
    GGTAGGGGAT ACCGACTGCC AACAAGTGCC TTGGTGAACC TTTCTCATGG GAGTCGGTGT 
    GAAACTGGAA ACCAGAAGTT GACAGCCATT GTGAAACCAC AGCCGTCTGT GAGTCACTGT 
    AGTGCAGCTC CNTCCGGGCA CTTGGGAGGC CTCAACCACT CTCCTCAGTC GCTTTTTCTT 
    CCTACTCAGG TACCTACAAA AGGTGATGAT GAATTTTGCA ACATTTGGCA ATCTCTACAG 
    GGAGCTGGAA AAATTCAACA CTTGCAGCCG GCAGTACAAG AGAAGGGTGC AGTTCTACCT 
    CAAGAAATAA GTCAAGTACC TGAAGCTCAT AAATCAGGCT TTACTGACCA CAGTGTCAGA 
    CATCAGCAAA GAAAACACGA CTCTCAACGA AAATTTAAGG AAGAATATAA AAGTCCTCAA 
    GCTGAGTGTC AGAGTCAGAA GTTGTCCAGT AAACAGACTT GTGGAGGGTC TGCCAGATGT 
    GATATTAAAC TATTGAAGAG AAATGAAAGT CCAGGAGCGT CAGGAACCCG GAAGGCTGTA 
    ACTAGTTACC CGAGTGCAGT GCACAAGCCT CCCTCTGGAA TTGAGAACTT TTTAGCATCT 
    TTGAATNTCT CTAAGGAGAG TGAAGCACAG TTACCTCAGC ATGGAGAGCC TCCAGACGAG 
    GCGGATTTGT CCCCGCAGTC CTTTGCTATG AAAGGAACAC GGATGCTTAA AGAAATCCTG 
    AAAATTGATA GCCCTGACAC AAGAGACAGC AAGAATGATA TGAAGAAATC TGATAATGAA 
    GCCACTGTTT CTTCTAGAAG AGACGAGCGT GGAATGTCAT CACATCCTAA GCTAAGTAAG 
    AAGCTGACAT GCCATATGAA CAAGCCTCAT GGGACTAATG AGTTCCAAAA TGTGGCATCG 
    GTNGACAGTG TGTGTTGGCC AGGCCAGATG CCTCCTGTGT CCACACCAGT AACTGAACTT 
    TCTCGAATTT GTTCCCTTGT TGGAATGCCA CAACCTGATT TCTCCTTTCT GCGAACAACA 
    CAGACAATGA CAGTTTGTCA GGTAAAATTG TCTAATGGCT TACTGGTACA TGGGCCACAG 
    TGCCACTCTG AAAGTGAAGC CAAGGAGAGA GCTGCTCTTT TTGCTTTACA GCAACTGGGC 
    TCCTTGGGTG TGAGTTTTCC TTTGCCTCCA CCCATATTTA CAAATTATCC TCCTGCGGTG 
    CCACCTGGAG CCGTCCCTCC TGTTTTTACC CAACCTACTG CTAATATAAT GCCTTCATCG 
    TCTCATCTCT TTGGCTCAGT GTCATGGAGA CCACCAGTGC CAGTTGCTGG GAATGCCTTC 
    CACTATCCTT CATATCCTGG AGCCATGCCC TTGGCTGGAG GAGTGCCAGG CGGAGTGCAC 
    AGTCAGTTCA TACCTCTGCA GGTTACCAAA AAAAGAGTTG CAAACAGAAA GAATTTTGAG 
    AATAAGGAGG CCCAGAGTTC TCAGGCCACA CCACTTCAGA CTAACAAGCC AGGGTCTTCT 
    GAAGCCACCA AAATGACTCC ACAAGAAAGT CCACCAGCCT CTTCATCGTC CTCTCAGGCT 
    GCCCAGCCCG TGTCTCCTCA TGTTGAAACT GCCTCCCAAG GCCATGTTGG GTCCCAACTG 
    AGGTCAGCGC CAAGCTCCTC AAGAAGGAAG TCGAGAAAAC TGGCCGTCAA CTTCAGCGTT 
    TCTAAACCTT CGGAATAA

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文