Met cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Met gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Met 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
OMv02543 XM_021164365.2
Latest version!
Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv02544 XM_021164366.1
Latest version!
Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv74068 XM_029478168.1
Latest version!
Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv74069 XM_029478169.1
Latest version!
Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OMv02543 XM_021164365.1 Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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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 OMv02543
    Clone ID Related Accession (Same CDS sequence) XM_021164365.1 , XM_021164365.2
    Accession Version XM_021164365.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4140bp)
    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 hepatocyte growth factor receptor isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) 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##

    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
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GATCTGGGCA GTGAATTAGT TCGCTATGAC GCCAGAGTAC ACACTCCTCA TTTGGATAGG
    CTTGTAAGTG CCCGAAGTGT AAGTCCAACT ACAGAGATGG TTTCAAATGA GTCTGTAGAC
    TACAGAGCTA CTTTTCCAGA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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

    RefSeq XP_021020024.1
    CDS352..4491
    Translation

    Target ORF information:

    RefSeq Version XM_021164365.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021164365.1

    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
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GATCTGGGCA GTGAATTAGT TCGCTATGAC GCCAGAGTAC ACACTCCTCA TTTGGATAGG
    CTTGTAAGTG CCCGAAGTGT AAGTCCAACT ACAGAGATGG TTTCAAATGA GTCTGTAGAC
    TACAGAGCTA CTTTTCCAGA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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

    CloneID OMv02543
    Clone ID Related Accession (Same CDS sequence) XM_021164365.1 , XM_021164365.2
    Accession Version XM_021164365.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4140bp)
    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 hepatocyte growth factor receptor isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021164365.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GATCTGGGCA GTGAATTAGT TCGCTATGAC GCCAGAGTAC ACACTCCTCA TTTGGATAGG
    CTTGTAAGTG CCCGAAGTGT AAGTCCAACT ACAGAGATGG TTTCAAATGA GTCTGTAGAC
    TACAGAGCTA CTTTTCCAGA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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

    RefSeq XP_021020024.1
    CDS455..4594
    Translation

    Target ORF information:

    RefSeq Version XM_021164365.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021164365.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GATCTGGGCA GTGAATTAGT TCGCTATGAC GCCAGAGTAC ACACTCCTCA TTTGGATAGG
    CTTGTAAGTG CCCGAAGTGT AAGTCCAACT ACAGAGATGG TTTCAAATGA GTCTGTAGAC
    TACAGAGCTA CTTTTCCAGA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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

    CloneID OMv02544
    Clone ID Related Accession (Same CDS sequence) XM_021164366.1
    Accession Version XM_021164366.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3999bp)
    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 hepatocyte growth factor receptor isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) 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##

    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
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GACCAGTTTC CCAACTCCTC TCAGAATGGA GCATGCAGAC AAGTGCAATA TCCTCTGACA
    GACCTGTCCC CTATCCTGAC GAGTGGAGAC TCTGATATAT CCAGCCCATT ACTACAAAAC
    ACTGTTCACA TTGACCTCAG TGCCCTAAAT CCAGAGCTGG TCCAAGCAGT TCAGCATGTA
    GTGATTGGAC CCAGCAGCCT GATTGTGCAT TTCAATGAAG TCATAGGAAG AGGGCATTTT
    GGCTGTGTCT ATCATGGGAC TTTGCTGGAC AATGACGGAA AGAAAATTCA CTGTGCTGTG
    AAATCCTTGA ATAGAATCAC AGATATAGAA GAGGTCTCCC AGTTTCTGAC TGAGGGAATC
    ATCATGAAAG ACTTCAGCCA TCCCAATGTT CTCTCACTCT TGGGAATCTG CCTGCGGAGT
    GAAGGGTCTC CTCTAGTGGT CCTGCCCTAT ATGAAACATG GAGATCTTCG AAATTTCATT
    CGAAACGAGA CTCATAATCC AACTGTGAAA GATCTTATAG GATTTGGCCT TCAAGTAGCC
    AAAGGCATGA AATATCTTGC CAGCAAAAAG TTTGTCCACA GAGACTTAGC TGCAAGAAAT
    TGCATGTTGG ATGAAAAATT CACTGTCAAG GTTGCTGATT TCGGTCTTGC CAGAGACATG
    TATGATAAAG AGTACTATAG TGTCCACAAC AAGACGGGTG CCAAGCTACC AGTCAAGTGG
    ATGGCTTTAG AGAGTCTGCA AACACAGAAG TTCACCACCA AGTCAGATGT GTGGTCCTTT
    GGTGTGCTCC TCTGGGAGCT CATGACGAGA GGAGCCCCTC CTTACCCCGA CGTGAACACA
    TTTGATATCA CTATCTACCT GCTGCAAGGC AGAAGACTCT TGCAGCCAGA ATACTGTCCA
    GATGCCTTGT ACGAAGTGAT GCTAAAATGC TGGCACCCCA AAGCGGAAAT GCGCCCATCC
    TTTTCTGAAC TGGTCTCCAG GATATCCTCA ATCTTCTCCA CGTTCATTGG GGAACACTAC
    GTCCACGTGA ACGCTACTTA TGTGAATGTA AAATGTGTTG CTCCATATCC TTCTCTGTTG
    CCATCCCAAG ACAACATTGA TGGCGAGGGG AACACATGA

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

    RefSeq XP_021020025.1
    CDS352..4350
    Translation

    Target ORF information:

    RefSeq Version XM_021164366.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021164366.1

    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
    ATGAAGGCTC CCACCGTGCT GGCACCTGGC ATTCTGGTGC TGCTGTTGAC CTTGGTGCAG 
    AGGAGCCATG GGGAGTGCAA GGAGGCCCTA GTGAAGTCTG AGATGAACGT GAACATGAAG
    TATCAGCTCC CCAACTTCAC GGCAGAAACC CCCATCCAGA ATGTCGTCCT ACACGGCCAT
    CATATTTATC TCGGAGCCAC AAACTACATT TATGTTTTAA ATGACAAAGA CCTTCAGAAG
    GTATCTGAAT TCAAGACCGG GCCCGTGTTG GAACACCCAG ATTGTTTACC TTGTCAGGAC
    TGCAGCAGCA AAGCCAATTC ATCAGGAGGG GTTTGGAAAG ACAACATCAA CATGGCTCTG
    CTTGTTGACA CATACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCAA CAGAGGGACC
    TGCCGGCGGC ATGTCCTTCC TCCTGACAAT TCTGCTGACA TACAGTCCGA GGTTCACTGC
    ATGTTCTCCC CAGAAGAAGA GTCAGGGCAG TGTCCTGACT GTGTAGTGAG TGCCCTTGGA
    GCCAAAGTCC TCCTATCAGA AAAGGACCGC TTCATCAATT TCTTTGTGGG GAATACGATC
    AATTCCTCCT ATCCTCCTGG TTATTCACTG CATTCAATAT CGGTGAGACG GCTGAAGGAA
    ACCCAAGATG GTTTTAAGTT TTTGACCGAC CAGTCCTATA TTGATGTCTT ACCAGAATTC
    CAAGATTCCT ATCCCATAAA GTACATACAT GCCTTCGAAA GCAACCATTT TATTTACTTT
    CTGACTGTCC AAAAGGAAAC TCTAGATGCT CAGAGTTTTC ATACAAGAAT AATCAGGTTC
    TGTTCCGTAG ACTCTGGATT GCACTCCTAC ATGGAAATGC CCCTGGAATG CATTCTGACA
    GAAAAAAGAA GAAAGAGATC CACAAGGGAA GAAGTGTTTA ACATCCTCCA AGCTGCTTAT
    GTCAGTAAAC CAGGGGCCAA TCTTGCTAAG CAAATAGGAG CTAGCCCTTC TGATGACATT
    CTCTACGGGG TGTTTGCACA AAGCAAGCCA GATTCTGCTG AACCTGTGAA TCGATCAGCA
    GTCTGTGCAT TCCCCATCAA ATATGTCAAT GACTTCTTCA ACAAGATTGT CAACAAAAAC
    AATGTGAGAT GTCTCCAGCA TTTTTACGGA CCCAACCATG AGCACTGTTT CAATAGGACC
    CTGCTGAGAA ACTCTTCGGG CTGTGAGGCG CGCAGTGACG AGTATCGGAC AGAGTTCACC
    ACGGCTTTGC AGCGCGTCGA CTTATTCATG GGCCGGCTCA ACCAAGTGCT CCTGACATCC
    ATCTCCACCT TCATCAAAGG TGACCTCACC ATTGCTAATC TAGGGACGTC AGAAGGTCGC
    TTCATGCAGG TGGTGCTCTC TCGGACGGCA CACTTCACTC CTCATGTGAA CTTCCTCCTC
    GATTCCCATC CTGTATCTCC AGAAGTGATT GTTGAGCATC CATCAAATCA AAACGGCTAT
    ACATTGGTTG TCACAGGAAA GAAGATCACC AAGATTCCAT TGAATGGCCT GGGCTGTGGA
    CATTTCCAAT CCTGCAGTCA GTGTCTCTCT GCCCCTTACT TTATACAGTG TGGCTGGTGC
    CACAATCAAT GTGTGCGTTC TGATGAATGC CCCAGTGGTA CATGGACTCA AGAGATTTGT
    CTGCCAGCAG TTTATAAGGT GTTCCCCACC AGTGCACCCC TTGAAGGAGG AACAGTGTTG
    ACCATATGTG GCTGGGACTT TGGATTCAGG AAGAATAATA AATTTGATTT AAGGAAAACC
    AAAGTTCTGC TTGGCAATGA GAGCTGTACC TTGACCTTAA GCGAGAGCAC GACAAATACG
    TTGAAATGCA CAGTTGGTCC CGCGATGAGT GAGCACTTCA ATGTGTCTGT AATTATCTCA
    AACAGTCGAG AGACAACGCA ATACAGTGCA TTCTCCTATG TAGATCCTGT AATAACAAGC
    ATTTCTCCGA GGTACGGCCC TCAGGCTGGA GGCACCTTAC TCACTCTTAC TGGGAAATAC
    CTCAACAGTG GCAATTCTAG ACACATTTCA ATTGGAGGGA AAACATGTAC TTTAAAAAGT
    GTATCAGATA GTATTCTTGA ATGCTACACC CCAGCCCAAA CTATCTCTGA TGAGTTTCCT
    GTGAAATTGA AGATTGACTT GGCTAACCGA GAGACCAGCA GCTTCAGTTA CCGGGAAGAC
    CCCGTTGTCT ATGAAATCCA CCCGACCAAA TCTTTTATTA GTGGTGGAAG CACAATAACG
    GGTATTGGGA AGACCCTGGA CTCGGTTAGC CTCCCAAAGC TGGTAATAGC TGTGCATGAA
    GTGGGCGTGA ACTACACAGT GGCATGTCAG CATCGCTCAA ATTCAGAGAT CATCTGCTGC
    ACTACTCCTT CACTGAAACA GCTGGGCCTG CAACTCCCCC TGAAGACCAA AGCCTTCTTC
    CTGTTAGACG GGATTCTTTC CAAACACTTT GATCTCACTT ATGTGCATAA TCCTGTGTTT
    GAGCCTTTTG AAAAGCCAGT AATGATCTCA ATGGGCAATG AAAATGTAGT GGAAATTAAG
    GGAAACAATA TTGACCCTGA AGCAGTTAAA GGTGAAGTGT TAAAAGTTGG AAATCAGAGC
    TGCGAGAGTC TCCACTGGCA CTCTGGAGCT GTGTTGTGTA CAGTCCCCAG TGACCTGCTC
    AAACTGAACA GCGAGCTAAA TATAGAGTGG AAGCAAGCAG TCTCTTCAAC TGTTCTTGGA
    AAAGTGATCG TTCAACCGGA TCAGAATTTT GCAGGATTGA TCATTGGTGC GGTCTCAATA
    TCAGTAGTAG TTTTGTTATT ATCCGGGCTC TTCCTGTGGA TGAGAAAGAG AAAGCATAAA
    GACCAGTTTC CCAACTCCTC TCAGAATGGA GCATGCAGAC AAGTGCAATA TCCTCTGACA
    GACCTGTCCC CTATCCTGAC GAGTGGAGAC TCTGATATAT CCAGCCCATT ACTACAAAAC
    ACTGTTCACA TTGACCTCAG TGCCCTAAAT CCAGAGCTGG TCCAAGCAGT TCAGCATGTA
    GTGATTGGAC CCAGCAGCCT GATTGTGCAT TTCAATGAAG TCATAGGAAG AGGGCATTTT
    GGCTGTGTCT ATCATGGGAC TTTGCTGGAC AATGACGGAA AGAAAATTCA CTGTGCTGTG
    AAATCCTTGA ATAGAATCAC AGATATAGAA GAGGTCTCCC AGTTTCTGAC TGAGGGAATC
    ATCATGAAAG ACTTCAGCCA TCCCAATGTT CTCTCACTCT TGGGAATCTG CCTGCGGAGT
    GAAGGGTCTC CTCTAGTGGT CCTGCCCTAT ATGAAACATG GAGATCTTCG AAATTTCATT
    CGAAACGAGA CTCATAATCC AACTGTGAAA GATCTTATAG GATTTGGCCT TCAAGTAGCC
    AAAGGCATGA AATATCTTGC CAGCAAAAAG TTTGTCCACA GAGACTTAGC TGCAAGAAAT
    TGCATGTTGG ATGAAAAATT CACTGTCAAG GTTGCTGATT TCGGTCTTGC CAGAGACATG
    TATGATAAAG AGTACTATAG TGTCCACAAC AAGACGGGTG CCAAGCTACC AGTCAAGTGG
    ATGGCTTTAG AGAGTCTGCA AACACAGAAG TTCACCACCA AGTCAGATGT GTGGTCCTTT
    GGTGTGCTCC TCTGGGAGCT CATGACGAGA GGAGCCCCTC CTTACCCCGA CGTGAACACA
    TTTGATATCA CTATCTACCT GCTGCAAGGC AGAAGACTCT TGCAGCCAGA ATACTGTCCA
    GATGCCTTGT ACGAAGTGAT GCTAAAATGC TGGCACCCCA AAGCGGAAAT GCGCCCATCC
    TTTTCTGAAC TGGTCTCCAG GATATCCTCA ATCTTCTCCA CGTTCATTGG GGAACACTAC
    GTCCACGTGA ACGCTACTTA TGTGAATGTA AAATGTGTTG CTCCATATCC TTCTCTGTTG
    CCATCCCAAG ACAACATTGA TGGCGAGGGG AACACATGA

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

    CloneID OMv74068
    Clone ID Related Accession (Same CDS sequence) XM_029478168.1
    Accession Version XM_029478168.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 hepatocyte growth factor receptor isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGCTCGCTG AGCCAAGGGA TGGCTGTGGA GAGAAAGCTG ACGGTTTAGC AGAACACTTG 
    GCATGTGATC AACTCCTCAC AATGAAGGCT CCCACCGTGC TGGCACCTGG CATTCTGGTG
    CTGCTGTTGA CCTTGGTGCA GAGGAGCCAT GGGGAGTGCA AGGAGGCCCT AGTGAAGTCT
    GAGATGAACG TGAACATGAA GTATCAGCTC CCCAACTTCA CGGCAGAAAC CCCCATCCAG
    AATGTCGTCC TACACGGCCA TCATATTTAT CTCGGAGCCA CAAACTACAT TTATGTTTTA
    AATGACAAAG ACCTTCAGAA GGTATCTGAA TTCAAGACCG GGCCCGTGTT GGAACACCCA
    GATTGTTTAC CTTGTCAGGA CTGCAGCAGC AAAGCCAATT CATCAGGAGG GGTTTGGAAA
    GACAACATCA ACATGGCTCT GCTTGTTGAC ACATACTATG ATGATCAACT CATTAGCTGT
    GGCAGTGTCA ACAGAGGGAC CTGCCGGCGG CATGTCCTTC CTCCTGACAA TTCTGCTGAC
    ATACAGTCCG AGGTTCACTG CATGTTCTCC CCAGAAGAAG AGTCAGGGCA GTGTCCTGAC
    TGTGTAGTGA GTGCCCTTGG AGCCAAAGTC CTCCTATCAG AAAAGGACCG CTTCATCAAT
    TTCTTTGTGG GGAATACGAT CAATTCCTCC TATCCTCCTG GTTATTCACT GCATTCAATA
    TCGGTGAGAC GGCTGAAGGA AACCCAAGAT GGTTTTAAGT TTTTGACCGA CCAGTCCTAT
    ATTGATGTCT TACCAGAATT CCAAGATTCC TATCCCATAA AGTACATACA TGCCTTCGAA
    AGCAACCATT TTATTTACTT TCTGACTGTC CAAAAGGAAA CTCTAGATGC TCAGAGTTTT
    CATACAAGAA TAATCAGGTT CTGTTCCGTA GACTCTGGAT TGCACTCCTA CATGGAAATG
    CCCCTGGAAT GCATTCTGAC AGAAAAAAGA AGAAAGAGAT CCACAAGGGA AGAAGTGTTT
    AACATCCTCC AAGCTGCTTA TGTCAGTAAA CCAGGGGCCA ATCTTGCTAA GCAAATAGGA
    GCTAGCCCTT CTGATGACAT TCTCTACGGG GTGTTTGCAC AAAGCAAGCC AGATTCTGCT
    GAACCTGTGA ATCGATCAGC AGTCTGTGCA TTCCCCATCA AATATGTCAA TGACTTCTTC
    AACAAGATTG TCAACAAAAA CAATGTGAGA TGTCTCCAGC ATTTTTACGG ACCCAACCAT
    GAGCACTGTT TCAATAGGAC CCTGCTGAGA AACTCTTCGG GCTGTGAGGC GCGCAGTGAC
    GAGTATCGGA CAGAGTTCAC CACGGCTTTG CAGCGCGTCG ACTTATTCAT GGGCCGGCTC
    AACCAAGTGC TCCTGACATC CATCTCCACC TTCATCAAAG GTGACCTCAC CATTGCTAAT
    CTAGGGACGT CAGAAGGTCG CTTCATGCAG GTGGTGCTCT CTCGGACGGC ACACTTCACT
    CCTCATGTGA ACTTCCTCCT CGATTCCCAT CCTGTATCTC CAGAAGTGAT TGTTGAGCAT
    CCATCAAATC AAAACGGCTA TACATTGGTT GTCACAGGAA AGAAGATCAC CAAGATTCCA
    TTGAATGGCC TGGGCTGTGG ACATTTCCAA TCCTGCAGTC AGTGTCTCTC TGCCCCTTAC
    TTTATACAGT GTGGCTGGTG CCACAATCAA TGTGTGCGTT CTGATGAATG CCCCAGTGGT
    ACATGGACTC AAGAGATTTG TCTGCCAGCA GTTTATAAGG TGTTCCCCAC CAGTGCACCC
    CTTGAAGGAG GAACAGTGTT GACCATATGT GGCTGGGACT TTGGATTCAG GAAGAATAAT
    AAATTTGATT TAAGGAAAAC CAAAGTTCTG CTTGGCAATG AGAGCTGTAC CTTGACCTTA
    AGCGAGAGCA CGACAAATAC GTTGAAATGC ACAGTTGGTC CCGCGATGAG TGAGCACTTC
    AATGTGTCTG TAATTATCTC AAACAGTCGA GAGACAACGC AATACAGTGC ATTCTCCTAT
    GTAGATCCTG TAATAACAAG CATTTCTCCG AGGTACGGCC CTCAGGCTGG AGGCACCTTA
    CTCACTCTTA CTGGGAAATA CCTCAACAGT GGCAATTCTA GACACATTTC AATTGGAGGG
    AAAACATGTA CTTTAAAAAG TGTATCAGAT AGTATTCTTG AATGCTACAC CCCAGCCCAA
    ACTATCTCTG ATGAGTTTCC TGTGAAATTG AAGATTGACT TGGCTAACCG AGAGACCAGC
    AGCTTCAGTT ACCGGGAAGA CCCCGTTGTC TATGAAATCC ACCCGACCAA ATCTTTTATT
    AGTGGTGGAA GCACAATAAC GGGTATTGGG AAGACCCTGG ACTCGGTTAG CCTCCCAAAG
    CTGGTAATAG CTGTGCATGA AGTGGGCGTG AACTACACAG TGGCATGTCA GCATCGCTCA
    AATTCAGAGA TCATCTGCTG CACTACTCCT TCACTGAAAC AGCTGGGCCT GCAACTCCCC
    CTGAAGACCA AAGCCTTCTT CCTGTTAGAC GGGATTCTTT CCAAACACTT TGATCTCACT
    TATGTGCATA ATCCTGTGTT TGAGCCTTTT GAAAAGCCAG TAATGATCTC AATGGGCAAT
    GAAAATGTAG TGGAAATTAA GGGAAACAAT ATTGACCCTG AAGCAGTTAA AGGTGAAGTG
    TTAAAAGTTG GAAATCAGAG CTGCGAGAGT CTCCACTGGC ACTCTGGAGC TGTGTTGTGT
    ACAGTCCCCA GTGACCTGCT CAAACTGAAC AGCGAGCTAA ATATAGAGTG GAAGCAAGCA
    GTCTCTTCAA CTGTTCTTGG AAAAGTGATC GTTCAACCGG ATCAGAATTT TGCAGGATTG
    ATCATTGGTG CGGTCTCAAT ATCAGTAGTA GTTTTGTTAT TATCCGGGCT CTTCCTGTGG
    ATGAGAAAGA GAAAGCATAA AGATCTGGGC AGTGAATTAG TTCGCTATGA CGCCAGAGTA
    CACACTCCTC ATTTGGATAG GCTTGTAAGT GCCCGAAGTG TAAGTCCAAC TACAGAGATG
    GTTTCAAATG AGTCTGTAGA CTACAGAGCT ACTTTTCCAG AAGACCAGTT TCCCAACTCC
    TCTCAGAATG GAGCATGCAG ACAAGTGCAA TATCCTCTGA CAGACCTGTC CCCTATCCTG
    ACGAGTGGAG ACTCTGATAT ATCCAGCCCA TTACTACAAA ACACTGTTCA CATTGACCTC
    AGTGCCCTAA ATCCAGAGCT GGTCCAAGCA GTTCAGCATG TAGTGATTGG ACCCAGCAGC
    CTGATTGTGC ATTTCAATGA AGTCATAGGA AGAGGGCATT TTGGCTGTGT CTATCATGGG
    ACTTTGCTGG ACAATGACGG AAAGAAAATT CACTGTGCTG TGAAATCCTT GAATAGAATC
    ACAGATATAG AAGAGGTCTC CCAGTTTCTG ACTGAGGGAA TCATCATGAA AGACTTCAGC
    CATCCCAATG TTCTCTCACT CTTGGGAATC TGCCTGCGGA GTGAAGGGTC TCCTCTAGTG
    GTCCTGCCCT ATATGAAACA TGGAGATCTT CGAAATTTCA TTCGAAACGA GACTCATAAT
    CCAACTGTGA AAGATCTTAT AGGATTTGGC CTTCAAGTAG CCAAAGGCAT GAAATATCTT
    GCCAGCAAAA AGTTTGTCCA CAGAGACTTA GCTGCAAGAA ATTGCATGTT GGATGAAAAA
    TTCACTGTCA AGGTTGCTGA TTTCGGTCTT GCCAGAGACA TGTATGATAA AGAGTACTAT
    AGTGTCCACA ACAAGACGGG TGCCAAGCTA CCAGTCAAGT GGATGGCTTT AGAGAGTCTG
    CAAACACAGA AGTTCACCAC CAAGTCAGAT GTGTGGTCCT TTGGTGTGCT CCTCTGGGAG
    CTCATGACGA GAGGAGCCCC TCCTTACCCC GACGTGAACA CATTTGATAT CACTATCTAC
    CTGCTGCAAG GCAGAAGACT CTTGCAGCCA GAATACTGTC CAGATGCCTT GTACGAAGTG
    ATGCTAAAAT GCTGGCACCC CAAAGCGGAA ATGCGCCCAT CCTTTTCTGA ACTGGTCTCC
    AGGATATCCT CAATCTTCTC CACGTTCATT GGGGAACACT ACGTCCACGT GAACGCTACT
    TATGTGAATG TAAAATGTGT TGCTCCATAT CCTTCTCTGT TGCCATCCCA AGACAACATT
    GATGGCGAGG GGAACACATG A

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

    RefSeq XP_029334028.1
    CDS261..4481
    Translation

    Target ORF information:

    RefSeq Version XM_029478168.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029478168.1

    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
    ATGCTCGCTG AGCCAAGGGA TGGCTGTGGA GAGAAAGCTG ACGGTTTAGC AGAACACTTG 
    GCATGTGATC AACTCCTCAC AATGAAGGCT CCCACCGTGC TGGCACCTGG CATTCTGGTG
    CTGCTGTTGA CCTTGGTGCA GAGGAGCCAT GGGGAGTGCA AGGAGGCCCT AGTGAAGTCT
    GAGATGAACG TGAACATGAA GTATCAGCTC CCCAACTTCA CGGCAGAAAC CCCCATCCAG
    AATGTCGTCC TACACGGCCA TCATATTTAT CTCGGAGCCA CAAACTACAT TTATGTTTTA
    AATGACAAAG ACCTTCAGAA GGTATCTGAA TTCAAGACCG GGCCCGTGTT GGAACACCCA
    GATTGTTTAC CTTGTCAGGA CTGCAGCAGC AAAGCCAATT CATCAGGAGG GGTTTGGAAA
    GACAACATCA ACATGGCTCT GCTTGTTGAC ACATACTATG ATGATCAACT CATTAGCTGT
    GGCAGTGTCA ACAGAGGGAC CTGCCGGCGG CATGTCCTTC CTCCTGACAA TTCTGCTGAC
    ATACAGTCCG AGGTTCACTG CATGTTCTCC CCAGAAGAAG AGTCAGGGCA GTGTCCTGAC
    TGTGTAGTGA GTGCCCTTGG AGCCAAAGTC CTCCTATCAG AAAAGGACCG CTTCATCAAT
    TTCTTTGTGG GGAATACGAT CAATTCCTCC TATCCTCCTG GTTATTCACT GCATTCAATA
    TCGGTGAGAC GGCTGAAGGA AACCCAAGAT GGTTTTAAGT TTTTGACCGA CCAGTCCTAT
    ATTGATGTCT TACCAGAATT CCAAGATTCC TATCCCATAA AGTACATACA TGCCTTCGAA
    AGCAACCATT TTATTTACTT TCTGACTGTC CAAAAGGAAA CTCTAGATGC TCAGAGTTTT
    CATACAAGAA TAATCAGGTT CTGTTCCGTA GACTCTGGAT TGCACTCCTA CATGGAAATG
    CCCCTGGAAT GCATTCTGAC AGAAAAAAGA AGAAAGAGAT CCACAAGGGA AGAAGTGTTT
    AACATCCTCC AAGCTGCTTA TGTCAGTAAA CCAGGGGCCA ATCTTGCTAA GCAAATAGGA
    GCTAGCCCTT CTGATGACAT TCTCTACGGG GTGTTTGCAC AAAGCAAGCC AGATTCTGCT
    GAACCTGTGA ATCGATCAGC AGTCTGTGCA TTCCCCATCA AATATGTCAA TGACTTCTTC
    AACAAGATTG TCAACAAAAA CAATGTGAGA TGTCTCCAGC ATTTTTACGG ACCCAACCAT
    GAGCACTGTT TCAATAGGAC CCTGCTGAGA AACTCTTCGG GCTGTGAGGC GCGCAGTGAC
    GAGTATCGGA CAGAGTTCAC CACGGCTTTG CAGCGCGTCG ACTTATTCAT GGGCCGGCTC
    AACCAAGTGC TCCTGACATC CATCTCCACC TTCATCAAAG GTGACCTCAC CATTGCTAAT
    CTAGGGACGT CAGAAGGTCG CTTCATGCAG GTGGTGCTCT CTCGGACGGC ACACTTCACT
    CCTCATGTGA ACTTCCTCCT CGATTCCCAT CCTGTATCTC CAGAAGTGAT TGTTGAGCAT
    CCATCAAATC AAAACGGCTA TACATTGGTT GTCACAGGAA AGAAGATCAC CAAGATTCCA
    TTGAATGGCC TGGGCTGTGG ACATTTCCAA TCCTGCAGTC AGTGTCTCTC TGCCCCTTAC
    TTTATACAGT GTGGCTGGTG CCACAATCAA TGTGTGCGTT CTGATGAATG CCCCAGTGGT
    ACATGGACTC AAGAGATTTG TCTGCCAGCA GTTTATAAGG TGTTCCCCAC CAGTGCACCC
    CTTGAAGGAG GAACAGTGTT GACCATATGT GGCTGGGACT TTGGATTCAG GAAGAATAAT
    AAATTTGATT TAAGGAAAAC CAAAGTTCTG CTTGGCAATG AGAGCTGTAC CTTGACCTTA
    AGCGAGAGCA CGACAAATAC GTTGAAATGC ACAGTTGGTC CCGCGATGAG TGAGCACTTC
    AATGTGTCTG TAATTATCTC AAACAGTCGA GAGACAACGC AATACAGTGC ATTCTCCTAT
    GTAGATCCTG TAATAACAAG CATTTCTCCG AGGTACGGCC CTCAGGCTGG AGGCACCTTA
    CTCACTCTTA CTGGGAAATA CCTCAACAGT GGCAATTCTA GACACATTTC AATTGGAGGG
    AAAACATGTA CTTTAAAAAG TGTATCAGAT AGTATTCTTG AATGCTACAC CCCAGCCCAA
    ACTATCTCTG ATGAGTTTCC TGTGAAATTG AAGATTGACT TGGCTAACCG AGAGACCAGC
    AGCTTCAGTT ACCGGGAAGA CCCCGTTGTC TATGAAATCC ACCCGACCAA ATCTTTTATT
    AGTGGTGGAA GCACAATAAC GGGTATTGGG AAGACCCTGG ACTCGGTTAG CCTCCCAAAG
    CTGGTAATAG CTGTGCATGA AGTGGGCGTG AACTACACAG TGGCATGTCA GCATCGCTCA
    AATTCAGAGA TCATCTGCTG CACTACTCCT TCACTGAAAC AGCTGGGCCT GCAACTCCCC
    CTGAAGACCA AAGCCTTCTT CCTGTTAGAC GGGATTCTTT CCAAACACTT TGATCTCACT
    TATGTGCATA ATCCTGTGTT TGAGCCTTTT GAAAAGCCAG TAATGATCTC AATGGGCAAT
    GAAAATGTAG TGGAAATTAA GGGAAACAAT ATTGACCCTG AAGCAGTTAA AGGTGAAGTG
    TTAAAAGTTG GAAATCAGAG CTGCGAGAGT CTCCACTGGC ACTCTGGAGC TGTGTTGTGT
    ACAGTCCCCA GTGACCTGCT CAAACTGAAC AGCGAGCTAA ATATAGAGTG GAAGCAAGCA
    GTCTCTTCAA CTGTTCTTGG AAAAGTGATC GTTCAACCGG ATCAGAATTT TGCAGGATTG
    ATCATTGGTG CGGTCTCAAT ATCAGTAGTA GTTTTGTTAT TATCCGGGCT CTTCCTGTGG
    ATGAGAAAGA GAAAGCATAA AGATCTGGGC AGTGAATTAG TTCGCTATGA CGCCAGAGTA
    CACACTCCTC ATTTGGATAG GCTTGTAAGT GCCCGAAGTG TAAGTCCAAC TACAGAGATG
    GTTTCAAATG AGTCTGTAGA CTACAGAGCT ACTTTTCCAG AAGACCAGTT TCCCAACTCC
    TCTCAGAATG GAGCATGCAG ACAAGTGCAA TATCCTCTGA CAGACCTGTC CCCTATCCTG
    ACGAGTGGAG ACTCTGATAT ATCCAGCCCA TTACTACAAA ACACTGTTCA CATTGACCTC
    AGTGCCCTAA ATCCAGAGCT GGTCCAAGCA GTTCAGCATG TAGTGATTGG ACCCAGCAGC
    CTGATTGTGC ATTTCAATGA AGTCATAGGA AGAGGGCATT TTGGCTGTGT CTATCATGGG
    ACTTTGCTGG ACAATGACGG AAAGAAAATT CACTGTGCTG TGAAATCCTT GAATAGAATC
    ACAGATATAG AAGAGGTCTC CCAGTTTCTG ACTGAGGGAA TCATCATGAA AGACTTCAGC
    CATCCCAATG TTCTCTCACT CTTGGGAATC TGCCTGCGGA GTGAAGGGTC TCCTCTAGTG
    GTCCTGCCCT ATATGAAACA TGGAGATCTT CGAAATTTCA TTCGAAACGA GACTCATAAT
    CCAACTGTGA AAGATCTTAT AGGATTTGGC CTTCAAGTAG CCAAAGGCAT GAAATATCTT
    GCCAGCAAAA AGTTTGTCCA CAGAGACTTA GCTGCAAGAA ATTGCATGTT GGATGAAAAA
    TTCACTGTCA AGGTTGCTGA TTTCGGTCTT GCCAGAGACA TGTATGATAA AGAGTACTAT
    AGTGTCCACA ACAAGACGGG TGCCAAGCTA CCAGTCAAGT GGATGGCTTT AGAGAGTCTG
    CAAACACAGA AGTTCACCAC CAAGTCAGAT GTGTGGTCCT TTGGTGTGCT CCTCTGGGAG
    CTCATGACGA GAGGAGCCCC TCCTTACCCC GACGTGAACA CATTTGATAT CACTATCTAC
    CTGCTGCAAG GCAGAAGACT CTTGCAGCCA GAATACTGTC CAGATGCCTT GTACGAAGTG
    ATGCTAAAAT GCTGGCACCC CAAAGCGGAA ATGCGCCCAT CCTTTTCTGA ACTGGTCTCC
    AGGATATCCT CAATCTTCTC CACGTTCATT GGGGAACACT ACGTCCACGT GAACGCTACT
    TATGTGAATG TAAAATGTGT TGCTCCATAT CCTTCTCTGT TGCCATCCCA AGACAACATT
    GATGGCGAGG GGAACACATG A

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

    CloneID OMv74069
    Clone ID Related Accession (Same CDS sequence) XM_029478169.1
    Accession Version XM_029478169.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4080bp)
    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 hepatocyte growth factor receptor isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034575.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTCGCTG AGCCAAGGGA TGGCTGTGGA GAGAAAGCTG ACGGTTTAGC AGAACACTTG 
    GCATGTGATC AACTCCTCAC AATGAAGGCT CCCACCGTGC TGGCACCTGG CATTCTGGTG
    CTGCTGTTGA CCTTGGTGCA GAGGAGCCAT GGGGAGTGCA AGGAGGCCCT AGTGAAGTCT
    GAGATGAACG TGAACATGAA GTATCAGCTC CCCAACTTCA CGGCAGAAAC CCCCATCCAG
    AATGTCGTCC TACACGGCCA TCATATTTAT CTCGGAGCCA CAAACTACAT TTATGTTTTA
    AATGACAAAG ACCTTCAGAA GGTATCTGAA TTCAAGACCG GGCCCGTGTT GGAACACCCA
    GATTGTTTAC CTTGTCAGGA CTGCAGCAGC AAAGCCAATT CATCAGGAGG GGTTTGGAAA
    GACAACATCA ACATGGCTCT GCTTGTTGAC ACATACTATG ATGATCAACT CATTAGCTGT
    GGCAGTGTCA ACAGAGGGAC CTGCCGGCGG CATGTCCTTC CTCCTGACAA TTCTGCTGAC
    ATACAGTCCG AGGTTCACTG CATGTTCTCC CCAGAAGAAG AGTCAGGGCA GTGTCCTGAC
    TGTGTAGTGA GTGCCCTTGG AGCCAAAGTC CTCCTATCAG AAAAGGACCG CTTCATCAAT
    TTCTTTGTGG GGAATACGAT CAATTCCTCC TATCCTCCTG GTTATTCACT GCATTCAATA
    TCGGTGAGAC GGCTGAAGGA AACCCAAGAT GGTTTTAAGT TTTTGACCGA CCAGTCCTAT
    ATTGATGTCT TACCAGAATT CCAAGATTCC TATCCCATAA AGTACATACA TGCCTTCGAA
    AGCAACCATT TTATTTACTT TCTGACTGTC CAAAAGGAAA CTCTAGATGC TCAGAGTTTT
    CATACAAGAA TAATCAGGTT CTGTTCCGTA GACTCTGGAT TGCACTCCTA CATGGAAATG
    CCCCTGGAAT GCATTCTGAC AGAAAAAAGA AGAAAGAGAT CCACAAGGGA AGAAGTGTTT
    AACATCCTCC AAGCTGCTTA TGTCAGTAAA CCAGGGGCCA ATCTTGCTAA GCAAATAGGA
    GCTAGCCCTT CTGATGACAT TCTCTACGGG GTGTTTGCAC AAAGCAAGCC AGATTCTGCT
    GAACCTGTGA ATCGATCAGC AGTCTGTGCA TTCCCCATCA AATATGTCAA TGACTTCTTC
    AACAAGATTG TCAACAAAAA CAATGTGAGA TGTCTCCAGC ATTTTTACGG ACCCAACCAT
    GAGCACTGTT TCAATAGGAC CCTGCTGAGA AACTCTTCGG GCTGTGAGGC GCGCAGTGAC
    GAGTATCGGA CAGAGTTCAC CACGGCTTTG CAGCGCGTCG ACTTATTCAT GGGCCGGCTC
    AACCAAGTGC TCCTGACATC CATCTCCACC TTCATCAAAG GTGACCTCAC CATTGCTAAT
    CTAGGGACGT CAGAAGGTCG CTTCATGCAG GTGGTGCTCT CTCGGACGGC ACACTTCACT
    CCTCATGTGA ACTTCCTCCT CGATTCCCAT CCTGTATCTC CAGAAGTGAT TGTTGAGCAT
    CCATCAAATC AAAACGGCTA TACATTGGTT GTCACAGGAA AGAAGATCAC CAAGATTCCA
    TTGAATGGCC TGGGCTGTGG ACATTTCCAA TCCTGCAGTC AGTGTCTCTC TGCCCCTTAC
    TTTATACAGT GTGGCTGGTG CCACAATCAA TGTGTGCGTT CTGATGAATG CCCCAGTGGT
    ACATGGACTC AAGAGATTTG TCTGCCAGCA GTTTATAAGG TGTTCCCCAC CAGTGCACCC
    CTTGAAGGAG GAACAGTGTT GACCATATGT GGCTGGGACT TTGGATTCAG GAAGAATAAT
    AAATTTGATT TAAGGAAAAC CAAAGTTCTG CTTGGCAATG AGAGCTGTAC CTTGACCTTA
    AGCGAGAGCA CGACAAATAC GTTGAAATGC ACAGTTGGTC CCGCGATGAG TGAGCACTTC
    AATGTGTCTG TAATTATCTC AAACAGTCGA GAGACAACGC AATACAGTGC ATTCTCCTAT
    GTAGATCCTG TAATAACAAG CATTTCTCCG AGGTACGGCC CTCAGGCTGG AGGCACCTTA
    CTCACTCTTA CTGGGAAATA CCTCAACAGT GGCAATTCTA GACACATTTC AATTGGAGGG
    AAAACATGTA CTTTAAAAAG TGTATCAGAT AGTATTCTTG AATGCTACAC CCCAGCCCAA
    ACTATCTCTG ATGAGTTTCC TGTGAAATTG AAGATTGACT TGGCTAACCG AGAGACCAGC
    AGCTTCAGTT ACCGGGAAGA CCCCGTTGTC TATGAAATCC ACCCGACCAA ATCTTTTATT
    AGTGGTGGAA GCACAATAAC GGGTATTGGG AAGACCCTGG ACTCGGTTAG CCTCCCAAAG
    CTGGTAATAG CTGTGCATGA AGTGGGCGTG AACTACACAG TGGCATGTCA GCATCGCTCA
    AATTCAGAGA TCATCTGCTG CACTACTCCT TCACTGAAAC AGCTGGGCCT GCAACTCCCC
    CTGAAGACCA AAGCCTTCTT CCTGTTAGAC GGGATTCTTT CCAAACACTT TGATCTCACT
    TATGTGCATA ATCCTGTGTT TGAGCCTTTT GAAAAGCCAG TAATGATCTC AATGGGCAAT
    GAAAATGTAG TGGAAATTAA GGGAAACAAT ATTGACCCTG AAGCAGTTAA AGGTGAAGTG
    TTAAAAGTTG GAAATCAGAG CTGCGAGAGT CTCCACTGGC ACTCTGGAGC TGTGTTGTGT
    ACAGTCCCCA GTGACCTGCT CAAACTGAAC AGCGAGCTAA ATATAGAGTG GAAGCAAGCA
    GTCTCTTCAA CTGTTCTTGG AAAAGTGATC GTTCAACCGG ATCAGAATTT TGCAGGATTG
    ATCATTGGTG CGGTCTCAAT ATCAGTAGTA GTTTTGTTAT TATCCGGGCT CTTCCTGTGG
    ATGAGAAAGA GAAAGCATAA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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

    RefSeq XP_029334029.1
    CDS265..4344
    Translation

    Target ORF information:

    RefSeq Version XM_029478169.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli MET proto-oncogene, receptor tyrosine kinase (Met), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029478169.1

    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
    ATGCTCGCTG AGCCAAGGGA TGGCTGTGGA GAGAAAGCTG ACGGTTTAGC AGAACACTTG 
    GCATGTGATC AACTCCTCAC AATGAAGGCT CCCACCGTGC TGGCACCTGG CATTCTGGTG
    CTGCTGTTGA CCTTGGTGCA GAGGAGCCAT GGGGAGTGCA AGGAGGCCCT AGTGAAGTCT
    GAGATGAACG TGAACATGAA GTATCAGCTC CCCAACTTCA CGGCAGAAAC CCCCATCCAG
    AATGTCGTCC TACACGGCCA TCATATTTAT CTCGGAGCCA CAAACTACAT TTATGTTTTA
    AATGACAAAG ACCTTCAGAA GGTATCTGAA TTCAAGACCG GGCCCGTGTT GGAACACCCA
    GATTGTTTAC CTTGTCAGGA CTGCAGCAGC AAAGCCAATT CATCAGGAGG GGTTTGGAAA
    GACAACATCA ACATGGCTCT GCTTGTTGAC ACATACTATG ATGATCAACT CATTAGCTGT
    GGCAGTGTCA ACAGAGGGAC CTGCCGGCGG CATGTCCTTC CTCCTGACAA TTCTGCTGAC
    ATACAGTCCG AGGTTCACTG CATGTTCTCC CCAGAAGAAG AGTCAGGGCA GTGTCCTGAC
    TGTGTAGTGA GTGCCCTTGG AGCCAAAGTC CTCCTATCAG AAAAGGACCG CTTCATCAAT
    TTCTTTGTGG GGAATACGAT CAATTCCTCC TATCCTCCTG GTTATTCACT GCATTCAATA
    TCGGTGAGAC GGCTGAAGGA AACCCAAGAT GGTTTTAAGT TTTTGACCGA CCAGTCCTAT
    ATTGATGTCT TACCAGAATT CCAAGATTCC TATCCCATAA AGTACATACA TGCCTTCGAA
    AGCAACCATT TTATTTACTT TCTGACTGTC CAAAAGGAAA CTCTAGATGC TCAGAGTTTT
    CATACAAGAA TAATCAGGTT CTGTTCCGTA GACTCTGGAT TGCACTCCTA CATGGAAATG
    CCCCTGGAAT GCATTCTGAC AGAAAAAAGA AGAAAGAGAT CCACAAGGGA AGAAGTGTTT
    AACATCCTCC AAGCTGCTTA TGTCAGTAAA CCAGGGGCCA ATCTTGCTAA GCAAATAGGA
    GCTAGCCCTT CTGATGACAT TCTCTACGGG GTGTTTGCAC AAAGCAAGCC AGATTCTGCT
    GAACCTGTGA ATCGATCAGC AGTCTGTGCA TTCCCCATCA AATATGTCAA TGACTTCTTC
    AACAAGATTG TCAACAAAAA CAATGTGAGA TGTCTCCAGC ATTTTTACGG ACCCAACCAT
    GAGCACTGTT TCAATAGGAC CCTGCTGAGA AACTCTTCGG GCTGTGAGGC GCGCAGTGAC
    GAGTATCGGA CAGAGTTCAC CACGGCTTTG CAGCGCGTCG ACTTATTCAT GGGCCGGCTC
    AACCAAGTGC TCCTGACATC CATCTCCACC TTCATCAAAG GTGACCTCAC CATTGCTAAT
    CTAGGGACGT CAGAAGGTCG CTTCATGCAG GTGGTGCTCT CTCGGACGGC ACACTTCACT
    CCTCATGTGA ACTTCCTCCT CGATTCCCAT CCTGTATCTC CAGAAGTGAT TGTTGAGCAT
    CCATCAAATC AAAACGGCTA TACATTGGTT GTCACAGGAA AGAAGATCAC CAAGATTCCA
    TTGAATGGCC TGGGCTGTGG ACATTTCCAA TCCTGCAGTC AGTGTCTCTC TGCCCCTTAC
    TTTATACAGT GTGGCTGGTG CCACAATCAA TGTGTGCGTT CTGATGAATG CCCCAGTGGT
    ACATGGACTC AAGAGATTTG TCTGCCAGCA GTTTATAAGG TGTTCCCCAC CAGTGCACCC
    CTTGAAGGAG GAACAGTGTT GACCATATGT GGCTGGGACT TTGGATTCAG GAAGAATAAT
    AAATTTGATT TAAGGAAAAC CAAAGTTCTG CTTGGCAATG AGAGCTGTAC CTTGACCTTA
    AGCGAGAGCA CGACAAATAC GTTGAAATGC ACAGTTGGTC CCGCGATGAG TGAGCACTTC
    AATGTGTCTG TAATTATCTC AAACAGTCGA GAGACAACGC AATACAGTGC ATTCTCCTAT
    GTAGATCCTG TAATAACAAG CATTTCTCCG AGGTACGGCC CTCAGGCTGG AGGCACCTTA
    CTCACTCTTA CTGGGAAATA CCTCAACAGT GGCAATTCTA GACACATTTC AATTGGAGGG
    AAAACATGTA CTTTAAAAAG TGTATCAGAT AGTATTCTTG AATGCTACAC CCCAGCCCAA
    ACTATCTCTG ATGAGTTTCC TGTGAAATTG AAGATTGACT TGGCTAACCG AGAGACCAGC
    AGCTTCAGTT ACCGGGAAGA CCCCGTTGTC TATGAAATCC ACCCGACCAA ATCTTTTATT
    AGTGGTGGAA GCACAATAAC GGGTATTGGG AAGACCCTGG ACTCGGTTAG CCTCCCAAAG
    CTGGTAATAG CTGTGCATGA AGTGGGCGTG AACTACACAG TGGCATGTCA GCATCGCTCA
    AATTCAGAGA TCATCTGCTG CACTACTCCT TCACTGAAAC AGCTGGGCCT GCAACTCCCC
    CTGAAGACCA AAGCCTTCTT CCTGTTAGAC GGGATTCTTT CCAAACACTT TGATCTCACT
    TATGTGCATA ATCCTGTGTT TGAGCCTTTT GAAAAGCCAG TAATGATCTC AATGGGCAAT
    GAAAATGTAG TGGAAATTAA GGGAAACAAT ATTGACCCTG AAGCAGTTAA AGGTGAAGTG
    TTAAAAGTTG GAAATCAGAG CTGCGAGAGT CTCCACTGGC ACTCTGGAGC TGTGTTGTGT
    ACAGTCCCCA GTGACCTGCT CAAACTGAAC AGCGAGCTAA ATATAGAGTG GAAGCAAGCA
    GTCTCTTCAA CTGTTCTTGG AAAAGTGATC GTTCAACCGG ATCAGAATTT TGCAGGATTG
    ATCATTGGTG CGGTCTCAAT ATCAGTAGTA GTTTTGTTAT TATCCGGGCT CTTCCTGTGG
    ATGAGAAAGA GAAAGCATAA AGACCAGTTT CCCAACTCCT CTCAGAATGG AGCATGCAGA
    CAAGTGCAAT ATCCTCTGAC AGACCTGTCC CCTATCCTGA CGAGTGGAGA CTCTGATATA
    TCCAGCCCAT TACTACAAAA CACTGTTCAC ATTGACCTCA GTGCCCTAAA TCCAGAGCTG
    GTCCAAGCAG TTCAGCATGT AGTGATTGGA CCCAGCAGCC TGATTGTGCA TTTCAATGAA
    GTCATAGGAA GAGGGCATTT TGGCTGTGTC TATCATGGGA CTTTGCTGGA CAATGACGGA
    AAGAAAATTC ACTGTGCTGT GAAATCCTTG AATAGAATCA CAGATATAGA AGAGGTCTCC
    CAGTTTCTGA CTGAGGGAAT CATCATGAAA GACTTCAGCC ATCCCAATGT TCTCTCACTC
    TTGGGAATCT GCCTGCGGAG TGAAGGGTCT CCTCTAGTGG TCCTGCCCTA TATGAAACAT
    GGAGATCTTC GAAATTTCAT TCGAAACGAG ACTCATAATC CAACTGTGAA AGATCTTATA
    GGATTTGGCC TTCAAGTAGC CAAAGGCATG AAATATCTTG CCAGCAAAAA GTTTGTCCAC
    AGAGACTTAG CTGCAAGAAA TTGCATGTTG GATGAAAAAT TCACTGTCAA GGTTGCTGAT
    TTCGGTCTTG CCAGAGACAT GTATGATAAA GAGTACTATA GTGTCCACAA CAAGACGGGT
    GCCAAGCTAC CAGTCAAGTG GATGGCTTTA GAGAGTCTGC AAACACAGAA GTTCACCACC
    AAGTCAGATG TGTGGTCCTT TGGTGTGCTC CTCTGGGAGC TCATGACGAG AGGAGCCCCT
    CCTTACCCCG ACGTGAACAC ATTTGATATC ACTATCTACC TGCTGCAAGG CAGAAGACTC
    TTGCAGCCAG AATACTGTCC AGATGCCTTG TACGAAGTGA TGCTAAAATG CTGGCACCCC
    AAAGCGGAAA TGCGCCCATC CTTTTCTGAA CTGGTCTCCA GGATATCCTC AATCTTCTCC
    ACGTTCATTG GGGAACACTA CGTCCACGTG AACGCTACTT ATGTGAATGT AAAATGTGTT
    GCTCCATATC CTTCTCTGTT GCCATCCCAA GACAACATTG ATGGCGAGGG GAACACATGA

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