Rpgrip1l cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Rpgrip1l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Rpgrip1l 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
OMv07821 XM_021171160.1
Latest version!
Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv75576 XM_029480845.1
Latest version!
Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75576 XM_029480846.1
Latest version!
Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75577 XM_029480847.1
Latest version!
Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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)
    CloneID OMv07821
    Clone ID Related Accession (Same CDS sequence) XM_021171160.1
    Accession Version XM_021171160.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3795bp)
    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 fantom isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGACCAAAA TGAGAAACTG
    GTTCAAGAGA ATCGAGATCT ACAGCTGCAG TGTCTGCAGC AAAAGCAGCG GCTGCATGAA
    CTTCAGAACC GCATGAAGTT CTTCAACCAG GAGAGTGACA TCAATGCTGA AGACCTCAGT
    GAAGCGCTCC TGCTTATAAA GGCTCAAAAA GAACAAAAAA ATGGAGATCT TTCATTTTTA
    GAAAAAGTGG ACAGCAAAAT CAATAAAGAT CTAGACCGAT CCATGAAAGA GCTTCAAGCA
    ACTCATGCAG AAACAGTACA AGAACTTGAA AAGACAAGAA ACATGTTAAT TATGCAACAT
    AAAATAAATA AAGACTATCA GATGGAAGTT GAAACAGTGA CTCAGAAGAT GGAAAATTTG
    CAACAAGATT ATGAACTCAA AGTGGAACAA TATGTTCATC TTCTCGATAT CAGGGCTGCA
    CGCATCCAAA AGCTTGAAGC CCAGTTAAAG GATATTGCCT ATGGCACTAA GCAGTACAAA
    TTTAAACCAG AAATCATGCC AGATGACTCA GTTGATGAAT TTGATGAAAC CATCCACCTA
    GAACGAGGAG AAAATCTATT TGAAATCCAC ATCAACAAAG TCACCTTTTC TTCCGAAGTC
    CTGCGGGCAT CTGGTGATAA AGAGCTTGTC ACTTTCTGTA CCTACGCTTT CTATGACTTT
    GAACTGCAGA CAACTCCCAT AGTGCGAGGC CTTTACCCGG AGTATAACTT CACTTCTCAG
    TATCTGGTCC ACGTCAATGA CTTATTTTTG CAGTACATTC AGAAGAACAC TGTCACGCTG
    GAGCTCCACC AAGCCCACAG CACAGATTAC GAAACAATTG CAGCGTGTCA GTTGAGATTC
    CATGAGATTC TAGAAAAAAG TGGTAGAATT TTTTGCACAA CAAGCTTAGT TGGAACTAAA
    GGAGACATCC CAAATTTTGG CACAGTAGAA TACTGGTTCC GATTAAGAGT TCCCATGGAT
    CAAGCTATTC GACTTTATCG TGAGCGGGCA AAGGCATTAG GATACATAAC ATCAAATTTT
    AAGAAGCCAG AGAAAATGCA ATTGTCGAGT CAGCAAGCAG CCACAACTGC TCGGATCAGC
    CCAGCAGAGT CCACAGACGG CAACTTGAAT GAACTTCATG TTACAGTAAA ATGCTGCACC
    GGCCTCCAGT CCCGAGCGAG CCACCTGCAG CCACACGCAT ATGTGGTATA CAAGTTTTTT
    GATTTTCCAG ACCATGATAC AGCCATCGTT CCCAGTAGCA ATGACCCACA GTTTGATGAC
    CACATGTGTT TCCCAGTGCC GATGAATATG GATTTGGATC GGTACCTTAA GTCAGAGTCT
    CTGAGTTTCT ATGTTTTTGA TGATAGTGAT ACCCAGGAGA ATATTTACAT GGGAAAAGTC
    AATGTGCCTC TGATTTCCCT GGCACACGAC AGGTGTATCT CAGGAATATT TGAGTTGATG
    GATAAGGAAA AGCATGCTGC AGGAACTATC CAAGTTATAT TGAAATGGAA ATTCACCTAC
    CTTCCACCAA GTGGATCAAT AACTACTGAA GATCTTGGAA AGTTCATTTG CAGAGAAGAG
    CCAGAGGCTG TTCAGAGACT ACCTCCAAAG TCCTCAGATG TTACATCAGT TGTAGCACCA
    AAACCTAAAC CAAGACAACG TTTAACATTT GTGGACAAAA AGGTCTCTTT TGCAGATACC
    ATGTCACACC CGAGTCCTGA GACGTCTCCT CCCCCTAAAG ATATAAAAGA CAGTTCTCCA
    GAAGTGGGAC CAAAACCAGA AAATAGTATG TCAGCTGTTG TGTATCCTTC CAAGGAAAGT
    GGTGTGGCTA AGGTAGAAGA AAATGTGGGG GAAATGCAAC AAGGGAAAGA AGACGACATC
    TCTTTCCTAT CTGAGGGCCA GCTTGCCTCA CAAAGTGTGG CTTCCTCTGA AGATGAAACA
    GAAATAACTG AAGAATTGGA ACCAGAAGAT GAAGACAGAT CAGCTTCGGA CAGTGATGAC
    TGTATCATTC CAAGTTCTGT CTCCACGAAT ACCAAACAGC CATCAGAAGA AATTCGGATT
    GAGATCATAG CTCTGAACCT TAATGATTCT CAGATAACCA GGGAGGATAC TATTCAGCGA
    CTCTTCATTG AGTGCCGGTT CTACAGTCTT CCCGCTGAGG AGACTCCTAT GTCCCTGCCC
    AAACCCCAGA GTGGACAGTG GGTCTACTAT AACTATTCCA ATGTGATCTA CCTGGGTAAA
    GAAAACAACT CAGCGGTGAG AGACATCTTA AAAGCCATCC TGCAAAGGCG AGAACTGCCT
    CACAGAAGTG TGCGCTTCAC CGTGGTCAGT GATCCTCCCG AGGACGAGCA GGACCTAGAA
    TGTGAGGACA TTGGGGTTGC CCATGTTGAC CTTGCTGACC TGTTTCAGAA AGGAAGAGAC
    ATCATAGAGC AAGATATTGA TGTTCTCGAT GCCCGAACAG ACGGTGGCAC CATCGGCAAA
    CTGAAGGTGA CTGTGGAAGC ACTTCACGCC CTACGGTCTG TCTACGAGCA ATATAGAAAG
    GACTTGGAGG CCTGA

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

    RefSeq XP_021026819.1
    CDS67..3861
    Translation

    Target ORF information:

    RefSeq Version XM_021171160.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021171160.1

    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
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGACCAAAA TGAGAAACTG
    GTTCAAGAGA ATCGAGATCT ACAGCTGCAG TGTCTGCAGC AAAAGCAGCG GCTGCATGAA
    CTTCAGAACC GCATGAAGTT CTTCAACCAG GAGAGTGACA TCAATGCTGA AGACCTCAGT
    GAAGCGCTCC TGCTTATAAA GGCTCAAAAA GAACAAAAAA ATGGAGATCT TTCATTTTTA
    GAAAAAGTGG ACAGCAAAAT CAATAAAGAT CTAGACCGAT CCATGAAAGA GCTTCAAGCA
    ACTCATGCAG AAACAGTACA AGAACTTGAA AAGACAAGAA ACATGTTAAT TATGCAACAT
    AAAATAAATA AAGACTATCA GATGGAAGTT GAAACAGTGA CTCAGAAGAT GGAAAATTTG
    CAACAAGATT ATGAACTCAA AGTGGAACAA TATGTTCATC TTCTCGATAT CAGGGCTGCA
    CGCATCCAAA AGCTTGAAGC CCAGTTAAAG GATATTGCCT ATGGCACTAA GCAGTACAAA
    TTTAAACCAG AAATCATGCC AGATGACTCA GTTGATGAAT TTGATGAAAC CATCCACCTA
    GAACGAGGAG AAAATCTATT TGAAATCCAC ATCAACAAAG TCACCTTTTC TTCCGAAGTC
    CTGCGGGCAT CTGGTGATAA AGAGCTTGTC ACTTTCTGTA CCTACGCTTT CTATGACTTT
    GAACTGCAGA CAACTCCCAT AGTGCGAGGC CTTTACCCGG AGTATAACTT CACTTCTCAG
    TATCTGGTCC ACGTCAATGA CTTATTTTTG CAGTACATTC AGAAGAACAC TGTCACGCTG
    GAGCTCCACC AAGCCCACAG CACAGATTAC GAAACAATTG CAGCGTGTCA GTTGAGATTC
    CATGAGATTC TAGAAAAAAG TGGTAGAATT TTTTGCACAA CAAGCTTAGT TGGAACTAAA
    GGAGACATCC CAAATTTTGG CACAGTAGAA TACTGGTTCC GATTAAGAGT TCCCATGGAT
    CAAGCTATTC GACTTTATCG TGAGCGGGCA AAGGCATTAG GATACATAAC ATCAAATTTT
    AAGAAGCCAG AGAAAATGCA ATTGTCGAGT CAGCAAGCAG CCACAACTGC TCGGATCAGC
    CCAGCAGAGT CCACAGACGG CAACTTGAAT GAACTTCATG TTACAGTAAA ATGCTGCACC
    GGCCTCCAGT CCCGAGCGAG CCACCTGCAG CCACACGCAT ATGTGGTATA CAAGTTTTTT
    GATTTTCCAG ACCATGATAC AGCCATCGTT CCCAGTAGCA ATGACCCACA GTTTGATGAC
    CACATGTGTT TCCCAGTGCC GATGAATATG GATTTGGATC GGTACCTTAA GTCAGAGTCT
    CTGAGTTTCT ATGTTTTTGA TGATAGTGAT ACCCAGGAGA ATATTTACAT GGGAAAAGTC
    AATGTGCCTC TGATTTCCCT GGCACACGAC AGGTGTATCT CAGGAATATT TGAGTTGATG
    GATAAGGAAA AGCATGCTGC AGGAACTATC CAAGTTATAT TGAAATGGAA ATTCACCTAC
    CTTCCACCAA GTGGATCAAT AACTACTGAA GATCTTGGAA AGTTCATTTG CAGAGAAGAG
    CCAGAGGCTG TTCAGAGACT ACCTCCAAAG TCCTCAGATG TTACATCAGT TGTAGCACCA
    AAACCTAAAC CAAGACAACG TTTAACATTT GTGGACAAAA AGGTCTCTTT TGCAGATACC
    ATGTCACACC CGAGTCCTGA GACGTCTCCT CCCCCTAAAG ATATAAAAGA CAGTTCTCCA
    GAAGTGGGAC CAAAACCAGA AAATAGTATG TCAGCTGTTG TGTATCCTTC CAAGGAAAGT
    GGTGTGGCTA AGGTAGAAGA AAATGTGGGG GAAATGCAAC AAGGGAAAGA AGACGACATC
    TCTTTCCTAT CTGAGGGCCA GCTTGCCTCA CAAAGTGTGG CTTCCTCTGA AGATGAAACA
    GAAATAACTG AAGAATTGGA ACCAGAAGAT GAAGACAGAT CAGCTTCGGA CAGTGATGAC
    TGTATCATTC CAAGTTCTGT CTCCACGAAT ACCAAACAGC CATCAGAAGA AATTCGGATT
    GAGATCATAG CTCTGAACCT TAATGATTCT CAGATAACCA GGGAGGATAC TATTCAGCGA
    CTCTTCATTG AGTGCCGGTT CTACAGTCTT CCCGCTGAGG AGACTCCTAT GTCCCTGCCC
    AAACCCCAGA GTGGACAGTG GGTCTACTAT AACTATTCCA ATGTGATCTA CCTGGGTAAA
    GAAAACAACT CAGCGGTGAG AGACATCTTA AAAGCCATCC TGCAAAGGCG AGAACTGCCT
    CACAGAAGTG TGCGCTTCAC CGTGGTCAGT GATCCTCCCG AGGACGAGCA GGACCTAGAA
    TGTGAGGACA TTGGGGTTGC CCATGTTGAC CTTGCTGACC TGTTTCAGAA AGGAAGAGAC
    ATCATAGAGC AAGATATTGA TGTTCTCGAT GCCCGAACAG ACGGTGGCAC CATCGGCAAA
    CTGAAGGTGA CTGTGGAAGC ACTTCACGCC CTACGGTCTG TCTACGAGCA ATATAGAAAG
    GACTTGGAGG CCTGA

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

    CloneID OMv75576
    Clone ID Related Accession (Same CDS sequence) XM_029480846.1 , XM_029480845.1
    Accession Version XM_029480846.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 fantom isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAGACGTCTC CTCCCCCTAA AGATATAAAA
    GACAGTTCTC CAGAAGTGGG ACCAAAACCA GAAAATAGTA TGTCAGCTGT TGTGTATCCT
    TCCAAGGAAA GTGGTGTGGC TAAGGTAGAA GAAAATGTGG GGGAAATGCA ACAAGGGAAA
    GAAGACGACA TCTCTTTCCT ATCTGAGGGC CAGCTTGCCT CACAAAGTGT GGCTTCCTCT
    GAAGATGAAA CAGAAATAAC TGAAGAATTG GAACCAGAAG ATGAAGACAG ATCAGCTTCG
    GACAGTGATG ACTGTATCAT TCCAAGTTCT GTCTCCACGA ATACCAAACA GCCATCAGAA
    GAAATTCGGA TTGAGATCAT AGCTCTGAAC CTTAATGATT CTCAGATAAC CAGGGAGGAT
    ACTATTCAGC GACTCTTCAT TGAGTGCCGG TTCTACAGTC TTCCCGCTGA GGAGACTCCT
    ATGTCCCTGC CCAAACCCCA GAGTGGACAG TGGGTCTACT ATAACTATTC CAATGTGATC
    TACCTGGGTA AAGAAAACAA CTCAGCGGTG AGAGACATCT TAAAAGCCAT CCTGCAAAGG
    CGAGAACTGC CTCACAGAAG TGTGCGCTTC ACCGTGGTCA GTGATCCTCC CGAGGACGAG
    CAGGACCTAG AATGTGAGGA CATTGGGGTT GCCCATGTTG ACCTTGCTGA CCTGTTTCAG
    AAAGGAAGAG ACATCATAGA GCAAGATATT GATGTTCTCG ATGCCCGAAC AGACGGTGGC
    ACCATCGGCA AACTGAAGGT GACTGTGGAA GCACTTCACG CCCTACGGTC TGTCTACGAG
    CAATATAGAA AGGACTTGGA GGCCTGA

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

    RefSeq XP_029336706.1
    CDS185..3991
    Translation

    Target ORF information:

    RefSeq Version XM_029480846.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480846.1

    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
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAGACGTCTC CTCCCCCTAA AGATATAAAA
    GACAGTTCTC CAGAAGTGGG ACCAAAACCA GAAAATAGTA TGTCAGCTGT TGTGTATCCT
    TCCAAGGAAA GTGGTGTGGC TAAGGTAGAA GAAAATGTGG GGGAAATGCA ACAAGGGAAA
    GAAGACGACA TCTCTTTCCT ATCTGAGGGC CAGCTTGCCT CACAAAGTGT GGCTTCCTCT
    GAAGATGAAA CAGAAATAAC TGAAGAATTG GAACCAGAAG ATGAAGACAG ATCAGCTTCG
    GACAGTGATG ACTGTATCAT TCCAAGTTCT GTCTCCACGA ATACCAAACA GCCATCAGAA
    GAAATTCGGA TTGAGATCAT AGCTCTGAAC CTTAATGATT CTCAGATAAC CAGGGAGGAT
    ACTATTCAGC GACTCTTCAT TGAGTGCCGG TTCTACAGTC TTCCCGCTGA GGAGACTCCT
    ATGTCCCTGC CCAAACCCCA GAGTGGACAG TGGGTCTACT ATAACTATTC CAATGTGATC
    TACCTGGGTA AAGAAAACAA CTCAGCGGTG AGAGACATCT TAAAAGCCAT CCTGCAAAGG
    CGAGAACTGC CTCACAGAAG TGTGCGCTTC ACCGTGGTCA GTGATCCTCC CGAGGACGAG
    CAGGACCTAG AATGTGAGGA CATTGGGGTT GCCCATGTTG ACCTTGCTGA CCTGTTTCAG
    AAAGGAAGAG ACATCATAGA GCAAGATATT GATGTTCTCG ATGCCCGAAC AGACGGTGGC
    ACCATCGGCA AACTGAAGGT GACTGTGGAA GCACTTCACG CCCTACGGTC TGTCTACGAG
    CAATATAGAA AGGACTTGGA GGCCTGA

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

    CloneID OMv75576
    Clone ID Related Accession (Same CDS sequence) XM_029480846.1 , XM_029480845.1
    Accession Version XM_029480845.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 fantom isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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 Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAGACGTCTC CTCCCCCTAA AGATATAAAA
    GACAGTTCTC CAGAAGTGGG ACCAAAACCA GAAAATAGTA TGTCAGCTGT TGTGTATCCT
    TCCAAGGAAA GTGGTGTGGC TAAGGTAGAA GAAAATGTGG GGGAAATGCA ACAAGGGAAA
    GAAGACGACA TCTCTTTCCT ATCTGAGGGC CAGCTTGCCT CACAAAGTGT GGCTTCCTCT
    GAAGATGAAA CAGAAATAAC TGAAGAATTG GAACCAGAAG ATGAAGACAG ATCAGCTTCG
    GACAGTGATG ACTGTATCAT TCCAAGTTCT GTCTCCACGA ATACCAAACA GCCATCAGAA
    GAAATTCGGA TTGAGATCAT AGCTCTGAAC CTTAATGATT CTCAGATAAC CAGGGAGGAT
    ACTATTCAGC GACTCTTCAT TGAGTGCCGG TTCTACAGTC TTCCCGCTGA GGAGACTCCT
    ATGTCCCTGC CCAAACCCCA GAGTGGACAG TGGGTCTACT ATAACTATTC CAATGTGATC
    TACCTGGGTA AAGAAAACAA CTCAGCGGTG AGAGACATCT TAAAAGCCAT CCTGCAAAGG
    CGAGAACTGC CTCACAGAAG TGTGCGCTTC ACCGTGGTCA GTGATCCTCC CGAGGACGAG
    CAGGACCTAG AATGTGAGGA CATTGGGGTT GCCCATGTTG ACCTTGCTGA CCTGTTTCAG
    AAAGGAAGAG ACATCATAGA GCAAGATATT GATGTTCTCG ATGCCCGAAC AGACGGTGGC
    ACCATCGGCA AACTGAAGGT GACTGTGGAA GCACTTCACG CCCTACGGTC TGTCTACGAG
    CAATATAGAA AGGACTTGGA GGCCTGA

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

    RefSeq XP_029336705.1
    CDS59..3865
    Translation

    Target ORF information:

    RefSeq Version XM_029480845.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480845.1

    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
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAGACGTCTC CTCCCCCTAA AGATATAAAA
    GACAGTTCTC CAGAAGTGGG ACCAAAACCA GAAAATAGTA TGTCAGCTGT TGTGTATCCT
    TCCAAGGAAA GTGGTGTGGC TAAGGTAGAA GAAAATGTGG GGGAAATGCA ACAAGGGAAA
    GAAGACGACA TCTCTTTCCT ATCTGAGGGC CAGCTTGCCT CACAAAGTGT GGCTTCCTCT
    GAAGATGAAA CAGAAATAAC TGAAGAATTG GAACCAGAAG ATGAAGACAG ATCAGCTTCG
    GACAGTGATG ACTGTATCAT TCCAAGTTCT GTCTCCACGA ATACCAAACA GCCATCAGAA
    GAAATTCGGA TTGAGATCAT AGCTCTGAAC CTTAATGATT CTCAGATAAC CAGGGAGGAT
    ACTATTCAGC GACTCTTCAT TGAGTGCCGG TTCTACAGTC TTCCCGCTGA GGAGACTCCT
    ATGTCCCTGC CCAAACCCCA GAGTGGACAG TGGGTCTACT ATAACTATTC CAATGTGATC
    TACCTGGGTA AAGAAAACAA CTCAGCGGTG AGAGACATCT TAAAAGCCAT CCTGCAAAGG
    CGAGAACTGC CTCACAGAAG TGTGCGCTTC ACCGTGGTCA GTGATCCTCC CGAGGACGAG
    CAGGACCTAG AATGTGAGGA CATTGGGGTT GCCCATGTTG ACCTTGCTGA CCTGTTTCAG
    AAAGGAAGAG ACATCATAGA GCAAGATATT GATGTTCTCG ATGCCCGAAC AGACGGTGGC
    ACCATCGGCA AACTGAAGGT GACTGTGGAA GCACTTCACG CCCTACGGTC TGTCTACGAG
    CAATATAGAA AGGACTTGGA GGCCTGA

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

    CloneID OMv75577
    Clone ID Related Accession (Same CDS sequence) XM_029480847.1
    Accession Version XM_029480847.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3711bp)
    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 fantom isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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 Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAAAGTGGTG TGGCTAAGGT AGAAGAAAAT
    GTGGGGGAAA TGCAACAAGG GAAAGAAGAC GACATCTCTT TCCTATCTGA GGGCCAGCTT
    GCCTCACAAA GTGTGGCTTC CTCTGAAGAT GAAACAGAAA TAACTGAAGA ATTGGAACCA
    GAAGATGAAG ACAGATCAGC TTCGGACAGT GATGACTGTA TCATTCCAAG TTCTGTCTCC
    ACGAATACCA AACAGCCATC AGAAGAAATT CGGATTGAGA TCATAGCTCT GAACCTTAAT
    GATTCTCAGA TAACCAGGGA GGATACTATT CAGCGACTCT TCATTGAGTG CCGGTTCTAC
    AGTCTTCCCG CTGAGGAGAC TCCTATGTCC CTGCCCAAAC CCCAGAGTGG ACAGTGGGTC
    TACTATAACT ATTCCAATGT GATCTACCTG GGTAAAGAAA ACAACTCAGC GGTGAGAGAC
    ATCTTAAAAG CCATCCTGCA AAGGCGAGAA CTGCCTCACA GAAGTGTGCG CTTCACCGTG
    GTCAGTGATC CTCCCGAGGA CGAGCAGGAC CTAGAATGTG AGGACATTGG GGTTGCCCAT
    GTTGACCTTG CTGACCTGTT TCAGAAAGGA AGAGACATCA TAGAGCAAGA TATTGATGTT
    CTCGATGCCC GAACAGACGG TGGCACCATC GGCAAACTGA AGGTGACTGT GGAAGCACTT
    CACGCCCTAC GGTCTGTCTA CGAGCAATAT AGAAAGGACT TGGAGGCCTG A

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

    RefSeq XP_029336707.1
    CDS59..3769
    Translation

    Target ORF information:

    RefSeq Version XM_029480847.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli RPGRIP1 like (Rpgrip1l), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480847.1

    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
    ATGTCTGGCC CAAGTGACGA GACAGCAGGA GACCTGCCGG TGAAAGATAC AGGTCTAAAC 
    CTCTTTGGAG TTGGAGGGTT ACAAGAAACC TCAACTGCAC GCACAGTGAA GACTCGCCAG
    GCAGTGTCAC GTGTCAGTCG TGAAGAACTG GAAGACAGAT TTTTGCGTTT GCATGATGAG
    AACATTTTAC TTAAACAGCA TGCCCGCAAG CAAGAGGATA AAATTAAAAG AATGGCCACC
    AAGTTAATAC GGCTAGTTAA TGACAAGAAA AGATATGAGC GGGTTGGTGG CGGCCCCAAG
    CGGCTGGGAC GAGATGTGGA AATGGAAGAA ATGATTGAGC AGCTGCAAGA AAAAGTTCAT
    GAGCTTGAAA GACAAAATGA AGTTCTCAAA AACAGGCTGA TATCAGCCAA ACAGCAGCTC
    CAAGTCCAGG GGCACAGGCA GACGTCGTAC AGTCGAGTGC AGGCTCGAGT TAACACCGGC
    CGCCGGAGAG CAAGTGCCAG TGCAGGCTCG CAGGAATGCC CTGGGAAAGG TATAAGATTT
    CAAAATGGAG ATGAAGCAGA AACTGTACAA CCCACGCTCA CAAAATACAG CAATAGTTTA
    CTTGAAGAAG CCAGAGGAGA AATAAGAAAT TTAGAAAATG TTATTCAGTC ACAGAGAGGC
    CAGATAGAAG AGTTAGAGCA CTTGGCAGAG ATCCTGAAAA CTCAGTTGAA GAGAAAAGAA
    AATGAAATTG AGCTATCTCT TCTTCAGCTT CGAGAACAGC AAGCTACAGA TCAGAGGTCA
    AATATTCGGG ACAATGTAGA AATGATTAAG CTTCATAAAC AACTAGTGGA GAAAAGCAAT
    GCTCTTTCAG TCATAGAAGG AAAATTTATT CAGCTTCAAG AGAAGCAAAG AACACTCAGG
    ATCAGCCATG ATGCCTTGAT GGCCAATGGA GATGAGCTGA ACATGCAGCT TAAGGAGCAG
    CGTCTGAAGT GCTGCAGCCT TGAGAAGCAG CTGCACTCGG TGAGGTTTTC AGAAAGGAGA
    GTAGAGGAGC TGCAGGATAG AATTAATGAT TTAGAAAAGG AGCGAGAACT ATTAAAGGAA
    AACTATGATA AACTTTATAA CAGTGCCTTC AGTGCTGCCC ATGAAGAGCA GTGGAAGTTA
    AAGGAGCAGC AGATGAAAGT GCAGATTGCT CAGCTCGAAA CTGCCTTAAA ATCTGATCTT
    ACAGACAAAA CCGAAGTCCT TGACAAACTA AAGACTGAAA GAGGACCCTT AATAAACCAA
    AATGAGAAAC TGGTTCAAGA GAATCGAGAT CTACAGCTGC AGTGTCTGCA GCAAAAGCAG
    CGGCTGCATG AACTTCAGAA CCGCATGAAG TTCTTCAACC AGGAGAGTGA CATCAATGCT
    GAAGACCTCA GTGAAGCGCT CCTGCTTATA AAGGCTCAAA AAGAACAAAA AAATGGAGAT
    CTTTCATTTT TAGAAAAAGT GGACAGCAAA ATCAATAAAG ATCTAGACCG ATCCATGAAA
    GAGCTTCAAG CAACTCATGC AGAAACAGTA CAAGAACTTG AAAAGACAAG AAACATGTTA
    ATTATGCAAC ATAAAATAAA TAAAGACTAT CAGATGGAAG TTGAAACAGT GACTCAGAAG
    ATGGAAAATT TGCAACAAGA TTATGAACTC AAAGTGGAAC AATATGTTCA TCTTCTCGAT
    ATCAGGGCTG CACGCATCCA AAAGCTTGAA GCCCAGTTAA AGGATATTGC CTATGGCACT
    AAGCAGTACA AATTTAAACC AGAAATCATG CCAGATGACT CAGTTGATGA ATTTGATGAA
    ACCATCCACC TAGAACGAGG AGAAAATCTA TTTGAAATCC ACATCAACAA AGTCACCTTT
    TCTTCCGAAG TCCTGCGGGC ATCTGGTGAT AAAGAGCTTG TCACTTTCTG TACCTACGCT
    TTCTATGACT TTGAACTGCA GACAACTCCC ATAGTGCGAG GCCTTTACCC GGAGTATAAC
    TTCACTTCTC AGTATCTGGT CCACGTCAAT GACTTATTTT TGCAGTACAT TCAGAAGAAC
    ACTGTCACGC TGGAGCTCCA CCAAGCCCAC AGCACAGATT ACGAAACAAT TGCAGCGTGT
    CAGTTGAGAT TCCATGAGAT TCTAGAAAAA AGTGGTAGAA TTTTTTGCAC AACAAGCTTA
    GTTGGAACTA AAGGAGACAT CCCAAATTTT GGCACAGTAG AATACTGGTT CCGATTAAGA
    GTTCCCATGG ATCAAGCTAT TCGACTTTAT CGTGAGCGGG CAAAGGCATT AGGATACATA
    ACATCAAATT TTAAGAAGCC AGAGAAAATG CAATTGTCGA GTCAGCAAGC AGCCACAACT
    GCTCGGATCA GCCCAGCAGA GTCCACAGAC GGCAACTTGA ATGAACTTCA TGTTACAGTA
    AAATGCTGCA CCGGCCTCCA GTCCCGAGCG AGCCACCTGC AGCCACACGC ATATGTGGTA
    TACAAGTTTT TTGATTTTCC AGACCATGAT ACAGCCATCG TTCCCAGTAG CAATGACCCA
    CAGTTTGATG ACCACATGTG TTTCCCAGTG CCGATGAATA TGGATTTGGA TCGGTACCTT
    AAGTCAGAGT CTCTGAGTTT CTATGTTTTT GATGATAGTG ATACCCAGGA GAATATTTAC
    ATGGGAAAAG TCAATGTGCC TCTGATTTCC CTGGCACACG ACAGGTGTAT CTCAGGAATA
    TTTGAGTTGA TGGATAAGGA AAAGCATGCT GCAGGAACTA TCCAAGTTAT ATTGAAATGG
    AAATTCACCT ACCTTCCACC AAGTGGATCA ATAACTACTG AAGATCTTGG AAAGTTCATT
    TGCAGAGAAG AGCCAGAGGC TGTTCAGAGA CTACCTCCAA AGTCCTCAGA TGTTACATCA
    GTTGTAGCAC CAAAACCTAA ACCAAGACAA CGTTTAACAT TTGTGGACAA AAAGGTCTCT
    TTTGCAGATA CCATGTCACA CCCGAGTCCT GAAAGTGGTG TGGCTAAGGT AGAAGAAAAT
    GTGGGGGAAA TGCAACAAGG GAAAGAAGAC GACATCTCTT TCCTATCTGA GGGCCAGCTT
    GCCTCACAAA GTGTGGCTTC CTCTGAAGAT GAAACAGAAA TAACTGAAGA ATTGGAACCA
    GAAGATGAAG ACAGATCAGC TTCGGACAGT GATGACTGTA TCATTCCAAG TTCTGTCTCC
    ACGAATACCA AACAGCCATC AGAAGAAATT CGGATTGAGA TCATAGCTCT GAACCTTAAT
    GATTCTCAGA TAACCAGGGA GGATACTATT CAGCGACTCT TCATTGAGTG CCGGTTCTAC
    AGTCTTCCCG CTGAGGAGAC TCCTATGTCC CTGCCCAAAC CCCAGAGTGG ACAGTGGGTC
    TACTATAACT ATTCCAATGT GATCTACCTG GGTAAAGAAA ACAACTCAGC GGTGAGAGAC
    ATCTTAAAAG CCATCCTGCA AAGGCGAGAA CTGCCTCACA GAAGTGTGCG CTTCACCGTG
    GTCAGTGATC CTCCCGAGGA CGAGCAGGAC CTAGAATGTG AGGACATTGG GGTTGCCCAT
    GTTGACCTTG CTGACCTGTT TCAGAAAGGA AGAGACATCA TAGAGCAAGA TATTGATGTT
    CTCGATGCCC GAACAGACGG TGGCACCATC GGCAAACTGA AGGTGACTGT GGAAGCACTT
    CACGCCCTAC GGTCTGTCTA CGAGCAATAT AGAAAGGACT TGGAGGCCTG A

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