Patj cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Patj gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Patj 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
OMv41795 XM_021159453.1
Latest version!
Mus caroli PATJ, crumbs cell polarity complex component (Patj), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $342.30
$489.00
OMv72801 XM_029475857.1
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OMv72802 XM_021159453.2
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OMv41794 XM_021159452.2
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv41794 XM_029475854.1
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv41794 XM_029475855.1
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv41794 XM_029475852.1
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OMv72800 XM_029475856.1
Latest version!
Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
View Old Accession Versions >>
OMv41794 XM_021159452.1 Mus caroli PATJ, crumbs cell polarity complex component (Patj), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
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 OMv41795
    Clone ID Related Accession (Same CDS sequence) XM_021159453.1
    Accession Version XM_021159453.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1749bp)
    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 inaD-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    ATGGTCCACG GGGGCTTCCC AGAAAAGATC AGGCAACGAT ATGCAGACCT GCCGGGAGAA 
    TTACACATTA TCGAACTGGA AAAGGACAAG AATGGACTGG GGCTCAGTCT TGCTGGCAAT
    AAGGACAGGT CACGGATGAG CATCTTCGTG GTGGGGATTA ATCCAGAGGG ACCTGCTGCT
    GCAGATGGAC GGATGCGGAT TGGAGACGAG CTGCTAGAGA TAAACAATCA GATTCTTTAT
    GGAAGAAGTC ATCAGAACGC ATCTGCCATT ATTAAGACCG CCCCAACCAG GGTCAAACTG
    GTTTTCATTA GAAACGAAGA TGCAGTCAGT CAGATGGCCG TCACTCCCTT CCCGGAGCTA
    TCACATTCCC CATCGCCTGT TGAGGATCTG GGTGGCACTG AACCTGTCAG TAGTGAAGAG
    GAGAGCAGTG TGGATGCTAA ACACCTGCCT GCACCAGAAA GCTCCAAACC GGAAGACCTG
    TCCCAGGTGG TTGATGACAA CATGGTGGCA GAGCAGCAGA AGGCATCGGA GTCACCTGAC
    AGTGCTGCCT GCCAGATAAA ACAGCAGACA TATTCAACAC AAGTCTCCTC CAGCTCACAA
    GATATCCCAT CATCACCAAC TCCATTGTGT CAGTCAGCAC ATGCAGATGT CACAGGCTCT
    GGTAACTTCC AGGCTACTCT CCCAGTGGAC CCTGCTCCAC TCTCGGTGGA CCCTGCAACA
    TGTCCCATCG TCCCTGGCCA GGAAATGATC ATAGAAATAT CCAAGGGGCG CTCCGGGCTT
    GGGCTCAGCA TTGTTGGAGG AAAAGACACA CCTTTGGATG CTATAGTTAT CCATGAAGTC
    TATGAAGAAG GTGCAGCTGC CAGAGATGGA AGATTATGGG CTGGAGACCA GATATTAGAG
    GTTAATGGGG TTGATCTGCG GAGCTCCAGC CATGAAGAAG CCATCACAGC CCTGAGGCAG
    ACTCCCCAGA AGGTGCGGCT GGTGGTATAC AGAGATGAAG CACAGTACAG AGACGAGGAG
    AACTTGGAGG TGTTCCTTGT GGACCTGCAG AAGAAGACTG GCCGAGGACT AGGCCTGAGC
    ATTGTTGGGA AACGGAGTGG AAGTGGAGTG TTTATTTCTG ACATTGTGAA AGGCGGGGCC
    GCAGACCTCG ATGGAAGGTT AATTCGAGGA GACCAGATCT TGTCTGTGAA TGGAGAGGAC
    TTGAGACACG CCTCACAAGA GACAGTGGCC ACCATCCTGA AGTGTGTCCA GGGCCTTGTC
    CAGCTGGAGA TTGGGAGACT CCGCGCCGGT TCCTGGGCCG CCTCGAGGAA GACCTCGCAG
    AACAGCCAGG GGGATCAGCA CAGTGCACAC AGCAGCTGTC GGCCTTCCTT TGCCCCGGTC
    ATCACCAGCC TACAAAACCT GGTTGGCACA AAACGATCTT CAGATCCTCC CCAGAAATGC
    ACAGAGGAGG AACCAAGGAC TGTAGAGATA ATCAGAGAGC TCTGCGATGC CCTTGGGATC
    AGTATCGCTG GAGGAAAGGG GAGTCCTTTA GGAGATATCC CCATATTTAT TGCCATGATT
    CAGGCCAACG GAGTGGCCGC ACGGACCCAG AAGCTTAAGG TTGGAGATCG GATTGTGAGC
    ATTAATGGAC AACCTCTGGA TGGACTGTCT CACACAGATG CCGTTAATCT ACTGAAGAAT
    GCCTTCGGGC GCATTATCCT GCAGGTATTG CGATCAATGG AGAACCAGCT GGCAGAGGCA
    GATAAATGA

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

    RefSeq XP_021015112.1
    CDS353..2101
    Translation

    Target ORF information:

    RefSeq Version XM_021159453.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ, crumbs cell polarity complex component (Patj), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021159453.1

    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
    ATGGTCCACG GGGGCTTCCC AGAAAAGATC AGGCAACGAT ATGCAGACCT GCCGGGAGAA 
    TTACACATTA TCGAACTGGA AAAGGACAAG AATGGACTGG GGCTCAGTCT TGCTGGCAAT
    AAGGACAGGT CACGGATGAG CATCTTCGTG GTGGGGATTA ATCCAGAGGG ACCTGCTGCT
    GCAGATGGAC GGATGCGGAT TGGAGACGAG CTGCTAGAGA TAAACAATCA GATTCTTTAT
    GGAAGAAGTC ATCAGAACGC ATCTGCCATT ATTAAGACCG CCCCAACCAG GGTCAAACTG
    GTTTTCATTA GAAACGAAGA TGCAGTCAGT CAGATGGCCG TCACTCCCTT CCCGGAGCTA
    TCACATTCCC CATCGCCTGT TGAGGATCTG GGTGGCACTG AACCTGTCAG TAGTGAAGAG
    GAGAGCAGTG TGGATGCTAA ACACCTGCCT GCACCAGAAA GCTCCAAACC GGAAGACCTG
    TCCCAGGTGG TTGATGACAA CATGGTGGCA GAGCAGCAGA AGGCATCGGA GTCACCTGAC
    AGTGCTGCCT GCCAGATAAA ACAGCAGACA TATTCAACAC AAGTCTCCTC CAGCTCACAA
    GATATCCCAT CATCACCAAC TCCATTGTGT CAGTCAGCAC ATGCAGATGT CACAGGCTCT
    GGTAACTTCC AGGCTACTCT CCCAGTGGAC CCTGCTCCAC TCTCGGTGGA CCCTGCAACA
    TGTCCCATCG TCCCTGGCCA GGAAATGATC ATAGAAATAT CCAAGGGGCG CTCCGGGCTT
    GGGCTCAGCA TTGTTGGAGG AAAAGACACA CCTTTGGATG CTATAGTTAT CCATGAAGTC
    TATGAAGAAG GTGCAGCTGC CAGAGATGGA AGATTATGGG CTGGAGACCA GATATTAGAG
    GTTAATGGGG TTGATCTGCG GAGCTCCAGC CATGAAGAAG CCATCACAGC CCTGAGGCAG
    ACTCCCCAGA AGGTGCGGCT GGTGGTATAC AGAGATGAAG CACAGTACAG AGACGAGGAG
    AACTTGGAGG TGTTCCTTGT GGACCTGCAG AAGAAGACTG GCCGAGGACT AGGCCTGAGC
    ATTGTTGGGA AACGGAGTGG AAGTGGAGTG TTTATTTCTG ACATTGTGAA AGGCGGGGCC
    GCAGACCTCG ATGGAAGGTT AATTCGAGGA GACCAGATCT TGTCTGTGAA TGGAGAGGAC
    TTGAGACACG CCTCACAAGA GACAGTGGCC ACCATCCTGA AGTGTGTCCA GGGCCTTGTC
    CAGCTGGAGA TTGGGAGACT CCGCGCCGGT TCCTGGGCCG CCTCGAGGAA GACCTCGCAG
    AACAGCCAGG GGGATCAGCA CAGTGCACAC AGCAGCTGTC GGCCTTCCTT TGCCCCGGTC
    ATCACCAGCC TACAAAACCT GGTTGGCACA AAACGATCTT CAGATCCTCC CCAGAAATGC
    ACAGAGGAGG AACCAAGGAC TGTAGAGATA ATCAGAGAGC TCTGCGATGC CCTTGGGATC
    AGTATCGCTG GAGGAAAGGG GAGTCCTTTA GGAGATATCC CCATATTTAT TGCCATGATT
    CAGGCCAACG GAGTGGCCGC ACGGACCCAG AAGCTTAAGG TTGGAGATCG GATTGTGAGC
    ATTAATGGAC AACCTCTGGA TGGACTGTCT CACACAGATG CCGTTAATCT ACTGAAGAAT
    GCCTTCGGGC GCATTATCCT GCAGGTATTG CGATCAATGG AGAACCAGCT GGCAGAGGCA
    GATAAATGA

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

    CloneID OMv72801
    Clone ID Related Accession (Same CDS sequence) XM_029475857.1
    Accession Version XM_029475857.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2976bp)
    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 inaD-like protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    ATGGGCAGCA GCTCGGAAGC CTGGGAAATG CATGAGTTCC TGAGCCCTCC AATGGAGGGC 
    AGGGGTGAGG AAAGAGAAAT GCTTGTCGAT GAGGAGTATG AACTTTATCA AGATCACCTC
    CGGGCCATGG AGTCAAACCC ACCACCACCA CACATTCGGG AGGCCGCTCC TGCATCTCCC
    ATGCTGGAAC TCCAGGCTGG CACCCAGTGG CTGCATGCTA ACCTCTCAGG AGGCGAAATG
    CTAGAGTGTC ACGATGCAGA GTCCATGATG AGTGCCTATC CCCAGGAGAT GCAGCAGTAT
    AGCTACAGCA CTGCAGACAT GATGGAAGAA ACGTTTGGCC TTGATTCCCG GCCCCCCATA
    CCGTCCTCTG AAGGAAATGG TCAACATGGC AGATTTGATG ACATGGAACA CCTTCATTCA
    CTAACGAGCA GCAGCCTGGA TTTAGGCATG ATGATTCCAA GTGATCTGCA AGGTCCTGGC
    GTGCTTGTTG ATCTTCCAGC TGTTGCTCAA AGAAGAGAAC AGGAAGATTT GCCTCTGTAC
    CGACTCCCCA GCACCCACGT TGTCACCAAG CCCACATCAC ACATGGGACT GGTGTCTTCA
    CGGCATGCAA ATGCTGCATG TGAATTACCG GAGAGAGAGG AAGGAGAAGG AGAGGAGACA
    CCGAACTTCA GCCACTGGGG TCCACCAAGA ATTGTTGAAA TTTTTAGAGA ACCTAATGTG
    TCTCTTGGCA TCAGCATCGT TGGTGGACAG ACAGTTATAA AACGCCTCAA GAATGGAGAG
    GAGCTCAAGG GGATATTCAT CAAACAAGTG TTAGAGGACA GTCCTGCAGG GAAGACCAAG
    GCGCTGAAAA CCGGAGATAA AATTCTTGAG GTGTCTGGTG TAGACCTGCA GAACGCCTCG
    CATGCAGAAG CCGTGGAGGC AATCAAGAGT GCGGGAAACC CTGTGGTGTT CGTGGTACAG
    AGCCTGTCAT CCACTCCAAG GGTCATCCCA ACTGTGAATA ACAAAGGCAA AACACCTGCC
    ACTAACCAGG ATCAAAACAC TCAAGAAAGG AAAGCTAAGA GGCACGGAAC AGCTCCACCT
    CCAATGAAGC TGCCCCCGCC TTACAGAGCT CCATCTGCAG ACATGGAGGA ACGTGAAGAA
    GACTGTGCGC TGACCGACAA AAAGATCAGG CAACGATATG CAGACCTGCC GGGAGAATTA
    CACATTATCG AACTGGAAAA GGACAAGAAT GGACTGGGGC TCAGTCTTGC TGGCAATAAG
    GACAGGTCAC GGATGAGCAT CTTCGTGGTG GGGATTAATC CAGAGGGACC TGCTGCTGCA
    GATGGACGGA TGCGGATTGG AGACGAGCTG CTAGAGATAA ACAATCAGAT TCTTTATGGA
    AGAAGTCATC AGAACGCATC TGCCATTATT AAGACCGCCC CAACCAGGGT CAAACTGGTT
    TTCATTAGAA ACGAAGATGC AGTCAGTCAG ATGGCCGTCA CTCCCTTCCC GGAGCTATCA
    CATTCCCCAT CGCCTGTTGA GGATCTGGGT GGCACTGAAC CTGTCAGTAG TGAAGAGGAG
    AGCAGTGTGG ATGCTAAACA CCTGCCTGCA CCAGAAAGCT CCAAACCGGA AGACCTGTCC
    CAGGTGGTTG ATGACAACAT GGTGGCAGAG CAGCAGAAGG CATCGGAGTC ACCTGACAGT
    GCTGCCTGCC AGATAAAACA GCAGACATAT TCAACACAAG TCTCCTCCAG CTCACAAGAT
    ATCCCATCAT CACCAACTCC ATTGTGTCAG TCAGCACATG CAGATGTCAC AGGCTCTGGT
    AACTTCCAGG CTACTCTCCC AGTGGACCCT GCTCCACTCT CGGTGGACCC TGCAACATGT
    CCCATCGTCC CTGGCCAGGA AATGATCATA GAAATATCCA AGGGGCGCTC CGGGCTTGGG
    CTCAGCATTG TTGGAGGAAA AGACACACCT TTGGATGCTA TAGTTATCCA TGAAGTCTAT
    GAAGAAGGTG CAGCTGCCAG AGATGGAAGA TTATGGGCTG GAGACCAGAT ATTAGAGGTT
    AATGGGGTTG ATCTGCGGAG CTCCAGCCAT GAAGAAGCCA TCACAGCCCT GAGGCAGACT
    CCCCAGAAGG TGCGGCTGGT GGTATACAGA GATGAAGCAC AGTACAGAGA CGAGGAGAAC
    TTGGAGGTGT TCCTTGTGGA CCTGCAGAAG AAGACTGGCC GAGGACTAGG CCTGAGCATT
    GTTGGGAAAC GGAGTGGAAG TGGAGTGTTT ATTTCTGACA TTGTGAAAGG CGGGGCCGCA
    GACCTCGATG GAAGGTTAAT TCGAGGAGAC CAGATCTTGT CTGTGAATGG AGAGGACTTG
    AGACACGCCT CACAAGAGAC AGTGGCCACC ATCCTGAAGT GTGTCCAGGG CCTTGTCCAG
    CTGGAGATTG GGAGACTCCG CGCCGGTTCC TGGGCCGCCT CGAGGAAGAC CTCGCAGAAC
    AGCCAGGGGG ATCAGCACAG TGCACACAGC AGCTGTCGGC CTTCCTTTGC CCCGGTCATC
    ACCAGCCTAC AAAACCTGGT TGGCACAAAA CGATCTTCAG ATCCTCCCCA GAAATGCACA
    GAGGAGGAAC CAAGGACTGT AGAGATAATC AGAGAGCTCT GCGATGCCCT TGGGATCAGT
    ATCGCTGGAG GAAAGGGGAG TCCTTTAGGA GATATCCCCA TATTTATTGC CATGATTCAG
    GCCAACGGAG TGGCCGCACG GACCCAGAAG CTTAAGGTTG GAGATCGGAT TGTGAGCATT
    AATGGACAAC CTCTGGATGG ACTGTCTCAC ACAGATGCCG TTAATCTACT GAAGAATGCC
    TTCGGGCGCA TTATCCTGCA GGTTGTGGCA GATACCAACA TAAGTGCCAT AGCGACCCAG
    CTGGAAATCA TGTCTGCAGG CTCCCAGCTT GGCTCCCCGA CTGCTGACCG ACATCCGGAA
    GACCCAGAGG AGCAGATGCA GAGGACGGCT GATTAA

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

    RefSeq XP_029331717.1
    CDS2166..5141
    Translation

    Target ORF information:

    RefSeq Version XM_029475857.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029475857.1

    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
    ATGGGCAGCA GCTCGGAAGC CTGGGAAATG CATGAGTTCC TGAGCCCTCC AATGGAGGGC 
    AGGGGTGAGG AAAGAGAAAT GCTTGTCGAT GAGGAGTATG AACTTTATCA AGATCACCTC
    CGGGCCATGG AGTCAAACCC ACCACCACCA CACATTCGGG AGGCCGCTCC TGCATCTCCC
    ATGCTGGAAC TCCAGGCTGG CACCCAGTGG CTGCATGCTA ACCTCTCAGG AGGCGAAATG
    CTAGAGTGTC ACGATGCAGA GTCCATGATG AGTGCCTATC CCCAGGAGAT GCAGCAGTAT
    AGCTACAGCA CTGCAGACAT GATGGAAGAA ACGTTTGGCC TTGATTCCCG GCCCCCCATA
    CCGTCCTCTG AAGGAAATGG TCAACATGGC AGATTTGATG ACATGGAACA CCTTCATTCA
    CTAACGAGCA GCAGCCTGGA TTTAGGCATG ATGATTCCAA GTGATCTGCA AGGTCCTGGC
    GTGCTTGTTG ATCTTCCAGC TGTTGCTCAA AGAAGAGAAC AGGAAGATTT GCCTCTGTAC
    CGACTCCCCA GCACCCACGT TGTCACCAAG CCCACATCAC ACATGGGACT GGTGTCTTCA
    CGGCATGCAA ATGCTGCATG TGAATTACCG GAGAGAGAGG AAGGAGAAGG AGAGGAGACA
    CCGAACTTCA GCCACTGGGG TCCACCAAGA ATTGTTGAAA TTTTTAGAGA ACCTAATGTG
    TCTCTTGGCA TCAGCATCGT TGGTGGACAG ACAGTTATAA AACGCCTCAA GAATGGAGAG
    GAGCTCAAGG GGATATTCAT CAAACAAGTG TTAGAGGACA GTCCTGCAGG GAAGACCAAG
    GCGCTGAAAA CCGGAGATAA AATTCTTGAG GTGTCTGGTG TAGACCTGCA GAACGCCTCG
    CATGCAGAAG CCGTGGAGGC AATCAAGAGT GCGGGAAACC CTGTGGTGTT CGTGGTACAG
    AGCCTGTCAT CCACTCCAAG GGTCATCCCA ACTGTGAATA ACAAAGGCAA AACACCTGCC
    ACTAACCAGG ATCAAAACAC TCAAGAAAGG AAAGCTAAGA GGCACGGAAC AGCTCCACCT
    CCAATGAAGC TGCCCCCGCC TTACAGAGCT CCATCTGCAG ACATGGAGGA ACGTGAAGAA
    GACTGTGCGC TGACCGACAA AAAGATCAGG CAACGATATG CAGACCTGCC GGGAGAATTA
    CACATTATCG AACTGGAAAA GGACAAGAAT GGACTGGGGC TCAGTCTTGC TGGCAATAAG
    GACAGGTCAC GGATGAGCAT CTTCGTGGTG GGGATTAATC CAGAGGGACC TGCTGCTGCA
    GATGGACGGA TGCGGATTGG AGACGAGCTG CTAGAGATAA ACAATCAGAT TCTTTATGGA
    AGAAGTCATC AGAACGCATC TGCCATTATT AAGACCGCCC CAACCAGGGT CAAACTGGTT
    TTCATTAGAA ACGAAGATGC AGTCAGTCAG ATGGCCGTCA CTCCCTTCCC GGAGCTATCA
    CATTCCCCAT CGCCTGTTGA GGATCTGGGT GGCACTGAAC CTGTCAGTAG TGAAGAGGAG
    AGCAGTGTGG ATGCTAAACA CCTGCCTGCA CCAGAAAGCT CCAAACCGGA AGACCTGTCC
    CAGGTGGTTG ATGACAACAT GGTGGCAGAG CAGCAGAAGG CATCGGAGTC ACCTGACAGT
    GCTGCCTGCC AGATAAAACA GCAGACATAT TCAACACAAG TCTCCTCCAG CTCACAAGAT
    ATCCCATCAT CACCAACTCC ATTGTGTCAG TCAGCACATG CAGATGTCAC AGGCTCTGGT
    AACTTCCAGG CTACTCTCCC AGTGGACCCT GCTCCACTCT CGGTGGACCC TGCAACATGT
    CCCATCGTCC CTGGCCAGGA AATGATCATA GAAATATCCA AGGGGCGCTC CGGGCTTGGG
    CTCAGCATTG TTGGAGGAAA AGACACACCT TTGGATGCTA TAGTTATCCA TGAAGTCTAT
    GAAGAAGGTG CAGCTGCCAG AGATGGAAGA TTATGGGCTG GAGACCAGAT ATTAGAGGTT
    AATGGGGTTG ATCTGCGGAG CTCCAGCCAT GAAGAAGCCA TCACAGCCCT GAGGCAGACT
    CCCCAGAAGG TGCGGCTGGT GGTATACAGA GATGAAGCAC AGTACAGAGA CGAGGAGAAC
    TTGGAGGTGT TCCTTGTGGA CCTGCAGAAG AAGACTGGCC GAGGACTAGG CCTGAGCATT
    GTTGGGAAAC GGAGTGGAAG TGGAGTGTTT ATTTCTGACA TTGTGAAAGG CGGGGCCGCA
    GACCTCGATG GAAGGTTAAT TCGAGGAGAC CAGATCTTGT CTGTGAATGG AGAGGACTTG
    AGACACGCCT CACAAGAGAC AGTGGCCACC ATCCTGAAGT GTGTCCAGGG CCTTGTCCAG
    CTGGAGATTG GGAGACTCCG CGCCGGTTCC TGGGCCGCCT CGAGGAAGAC CTCGCAGAAC
    AGCCAGGGGG ATCAGCACAG TGCACACAGC AGCTGTCGGC CTTCCTTTGC CCCGGTCATC
    ACCAGCCTAC AAAACCTGGT TGGCACAAAA CGATCTTCAG ATCCTCCCCA GAAATGCACA
    GAGGAGGAAC CAAGGACTGT AGAGATAATC AGAGAGCTCT GCGATGCCCT TGGGATCAGT
    ATCGCTGGAG GAAAGGGGAG TCCTTTAGGA GATATCCCCA TATTTATTGC CATGATTCAG
    GCCAACGGAG TGGCCGCACG GACCCAGAAG CTTAAGGTTG GAGATCGGAT TGTGAGCATT
    AATGGACAAC CTCTGGATGG ACTGTCTCAC ACAGATGCCG TTAATCTACT GAAGAATGCC
    TTCGGGCGCA TTATCCTGCA GGTTGTGGCA GATACCAACA TAAGTGCCAT AGCGACCCAG
    CTGGAAATCA TGTCTGCAGG CTCCCAGCTT GGCTCCCCGA CTGCTGACCG ACATCCGGAA
    GACCCAGAGG AGCAGATGCA GAGGACGGCT GATTAA

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

    CloneID OMv72802
    Clone ID Related Accession (Same CDS sequence) XM_021159453.2
    Accession Version XM_021159453.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1839bp)
    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 inaD-like protein isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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_021159453.1. ##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
    ATGGTCCACG GGGGCTTCCC AGAAAAGATC AGGCAACGAT ATGCAGACCT GCCGGGAGAA 
    TTACACATTA TCGAACTGGA AAAGGACAAG AATGGACTGG GGCTCAGTCT TGCTGGCAAT
    AAGGACAGGT CACGGATGAG CATCTTCGTG GTGGGGATTA ATCCAGAGGG ACCTGCTGCT
    GCAGATGGAC GGATGCGGAT TGGAGACGAG CTGCTAGAGA TAAACAATCA GATTCTTTAT
    GGAAGAAGTC ATCAGAACGC ATCTGCCATT ATTAAGACCG CCCCAACCAG GGTCAAACTG
    GTTTTCATTA GAAACGAAGA TGCAGTCAGT CAGATGGCCG TCACTCCCTT CCCGGAGCTA
    TCACATTCCC CATCGCCTGT TGAGGATCTG GGTGGCACTG AACCTGTCAG TAGTGAAGAG
    GAGAGCAGTG TGGATGCTAA ACACCTGCCT GCACCAGAAA GCTCCAAACC GGAAGACCTG
    TCCCAGGTGG TTGATGACAA CATGGTGGCA GAGCAGCAGA AGGCATCGGA GTCACCTGAC
    AGTGCTGCCT GCCAGATAAA ACAGCAGACA TATTCAACAC AAGTCTCCTC CAGCTCACAA
    GATATCCCAT CATCACCAAC TCCATTGTGT CAGTCAGCAC ATGCAGATGT CACAGGCTCT
    GGTAACTTCC AGGCTACTCT CCCAGTGGAC CCTGCTCCAC TCTCGGTGGA CCCTGCAACA
    TGTCCCATCG TCCCTGGCCA GGAAATGATC ATAGAAATAT CCAAGGGGCG CTCCGGGCTT
    GGGCTCAGCA TTGTTGGAGG AAAAGACACA CCTTTGGATG CTATAGTTAT CCATGAAGTC
    TATGAAGAAG GTGCAGCTGC CAGAGATGGA AGATTATGGG CTGGAGACCA GATATTAGAG
    GTTAATGGGG TTGATCTGCG GAGCTCCAGC CATGAAGAAG CCATCACAGC CCTGAGGCAG
    ACTCCCCAGA AGGTGCGGCT GGTGGTATAC AGAGATGAAG CACAGTACAG AGACGAGGAG
    AACTTGGAGG TGTTCCTTGT GGACCTGCAG AAGAAGACTG GCCGAGGACT AGGCCTGAGC
    ATTGTTGGGA AACGGAGTGG AAGTGGAGTG TTTATTTCTG ACATTGTGAA AGGCGGGGCC
    GCAGACCTCG ATGGAAGGTT AATTCGAGGA GACCAGATCT TGTCTGTGAA TGGAGAGGAC
    TTGAGACACG CCTCACAAGA GACAGTGGCC ACCATCCTGA AGTGTGTCCA GGGCCTTGTC
    CAGCTGGAGA TTGGGAGACT CCGCGCCGGT TCCTGGGCCG CCTCGAGGAA GACCTCGCAG
    AACAGCCAGG GGGATCAGCA CAGTGCACAC AGCAGCTGTC GGCCTTCCTT TGCCCCGGTC
    ATCACCAGCC TACAAAACCT GGTTGGCACA AAACGATCTT CAGATCCTCC CCAGAAATGC
    ACAGAGGAGG AACCAAGGAC TGTAGAGATA ATCAGAGAGC TCTGCGATGC CCTTGGGATC
    AGTATCGCTG GAGGAAAGGG GAGTCCTTTA GGAGATATCC CCATATTTAT TGCCATGATT
    CAGGCCAACG GAGTGGCCGC ACGGACCCAG AAGCTTAAGG TTGGAGATCG GATTGTGAGC
    ATTAATGGAC AACCTCTGGA TGGACTGTCT CACACAGATG CCGTTAATCT ACTGAAGAAT
    GCCTTCGGGC GCATTATCCT GCAGGTTGTG GCAGATACCA ACATAAGTGC CATAGCGACC
    CAGCTGGAAA TCATGTCTGC AGGCTCCCAG CTTGGCTCCC CGACTGCTGA CCGACATCCG
    GAAGACCCAG AGGAGCAGAT GCAGAGGACG GCTGATTAA

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

    RefSeq XP_021015112.2
    CDS353..2191
    Translation

    Target ORF information:

    RefSeq Version XM_021159453.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021159453.2

    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
    ATGGTCCACG GGGGCTTCCC AGAAAAGATC AGGCAACGAT ATGCAGACCT GCCGGGAGAA 
    TTACACATTA TCGAACTGGA AAAGGACAAG AATGGACTGG GGCTCAGTCT TGCTGGCAAT
    AAGGACAGGT CACGGATGAG CATCTTCGTG GTGGGGATTA ATCCAGAGGG ACCTGCTGCT
    GCAGATGGAC GGATGCGGAT TGGAGACGAG CTGCTAGAGA TAAACAATCA GATTCTTTAT
    GGAAGAAGTC ATCAGAACGC ATCTGCCATT ATTAAGACCG CCCCAACCAG GGTCAAACTG
    GTTTTCATTA GAAACGAAGA TGCAGTCAGT CAGATGGCCG TCACTCCCTT CCCGGAGCTA
    TCACATTCCC CATCGCCTGT TGAGGATCTG GGTGGCACTG AACCTGTCAG TAGTGAAGAG
    GAGAGCAGTG TGGATGCTAA ACACCTGCCT GCACCAGAAA GCTCCAAACC GGAAGACCTG
    TCCCAGGTGG TTGATGACAA CATGGTGGCA GAGCAGCAGA AGGCATCGGA GTCACCTGAC
    AGTGCTGCCT GCCAGATAAA ACAGCAGACA TATTCAACAC AAGTCTCCTC CAGCTCACAA
    GATATCCCAT CATCACCAAC TCCATTGTGT CAGTCAGCAC ATGCAGATGT CACAGGCTCT
    GGTAACTTCC AGGCTACTCT CCCAGTGGAC CCTGCTCCAC TCTCGGTGGA CCCTGCAACA
    TGTCCCATCG TCCCTGGCCA GGAAATGATC ATAGAAATAT CCAAGGGGCG CTCCGGGCTT
    GGGCTCAGCA TTGTTGGAGG AAAAGACACA CCTTTGGATG CTATAGTTAT CCATGAAGTC
    TATGAAGAAG GTGCAGCTGC CAGAGATGGA AGATTATGGG CTGGAGACCA GATATTAGAG
    GTTAATGGGG TTGATCTGCG GAGCTCCAGC CATGAAGAAG CCATCACAGC CCTGAGGCAG
    ACTCCCCAGA AGGTGCGGCT GGTGGTATAC AGAGATGAAG CACAGTACAG AGACGAGGAG
    AACTTGGAGG TGTTCCTTGT GGACCTGCAG AAGAAGACTG GCCGAGGACT AGGCCTGAGC
    ATTGTTGGGA AACGGAGTGG AAGTGGAGTG TTTATTTCTG ACATTGTGAA AGGCGGGGCC
    GCAGACCTCG ATGGAAGGTT AATTCGAGGA GACCAGATCT TGTCTGTGAA TGGAGAGGAC
    TTGAGACACG CCTCACAAGA GACAGTGGCC ACCATCCTGA AGTGTGTCCA GGGCCTTGTC
    CAGCTGGAGA TTGGGAGACT CCGCGCCGGT TCCTGGGCCG CCTCGAGGAA GACCTCGCAG
    AACAGCCAGG GGGATCAGCA CAGTGCACAC AGCAGCTGTC GGCCTTCCTT TGCCCCGGTC
    ATCACCAGCC TACAAAACCT GGTTGGCACA AAACGATCTT CAGATCCTCC CCAGAAATGC
    ACAGAGGAGG AACCAAGGAC TGTAGAGATA ATCAGAGAGC TCTGCGATGC CCTTGGGATC
    AGTATCGCTG GAGGAAAGGG GAGTCCTTTA GGAGATATCC CCATATTTAT TGCCATGATT
    CAGGCCAACG GAGTGGCCGC ACGGACCCAG AAGCTTAAGG TTGGAGATCG GATTGTGAGC
    ATTAATGGAC AACCTCTGGA TGGACTGTCT CACACAGATG CCGTTAATCT ACTGAAGAAT
    GCCTTCGGGC GCATTATCCT GCAGGTTGTG GCAGATACCA ACATAAGTGC CATAGCGACC
    CAGCTGGAAA TCATGTCTGC AGGCTCCCAG CTTGGCTCCC CGACTGCTGA CCGACATCCG
    GAAGACCCAG AGGAGCAGAT GCAGAGGACG GCTGATTAA

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

    CloneID OMv41794
    Clone ID Related Accession (Same CDS sequence) XM_021159452.1 , XM_021159452.2 , XM_029475852.1 , XM_029475854.1 , XM_029475855.1
    Accession Version XM_021159452.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5505bp)
    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 inaD-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    RefSeq XP_021015111.1
    CDS134..5638
    Translation

    Target ORF information:

    RefSeq Version XM_021159452.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ, crumbs cell polarity complex component (Patj), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021159452.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    CloneID OMv41794
    Clone ID Related Accession (Same CDS sequence) XM_021159452.1 , XM_021159452.2 , XM_029475852.1 , XM_029475854.1 , XM_029475855.1
    Accession Version XM_021159452.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5505bp)
    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 inaD-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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_021159452.1. ##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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    RefSeq XP_021015111.1
    CDS137..5641
    Translation

    Target ORF information:

    RefSeq Version XM_021159452.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021159452.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    CloneID OMv41794
    Clone ID Related Accession (Same CDS sequence) XM_021159452.1 , XM_021159452.2 , XM_029475852.1 , XM_029475854.1 , XM_029475855.1
    Accession Version XM_029475852.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5505bp)
    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 inaD-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    RefSeq XP_029331712.1
    CDS370..5874
    Translation

    Target ORF information:

    RefSeq Version XM_029475852.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029475852.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    CloneID OMv41794
    Clone ID Related Accession (Same CDS sequence) XM_021159452.1 , XM_021159452.2 , XM_029475852.1 , XM_029475854.1 , XM_029475855.1
    Accession Version XM_029475854.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5505bp)
    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 inaD-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    RefSeq XP_029331714.1
    CDS176..5680
    Translation

    Target ORF information:

    RefSeq Version XM_029475854.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029475854.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    CloneID OMv41794
    Clone ID Related Accession (Same CDS sequence) XM_021159452.1 , XM_021159452.2 , XM_029475852.1 , XM_029475854.1 , XM_029475855.1
    Accession Version XM_029475855.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5505bp)
    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 inaD-like protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    RefSeq XP_029331715.1
    CDS54..5558
    Translation

    Target ORF information:

    RefSeq Version XM_029475855.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029475855.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGATGCTAT AGTTATCCAT
    GAAGTCTATG AAGAAGGTGC AGCTGCCAGA GATGGAAGAT TATGGGCTGG AGACCAGATA
    TTAGAGGTTA ATGGGGTTGA TCTGCGGAGC TCCAGCCATG AAGAAGCCAT CACAGCCCTG
    AGGCAGACTC CCCAGAAGGT GCGGCTGGTG GTATACAGAG ATGAAGCACA GTACAGAGAC
    GAGGAGAACT TGGAGGTGTT CCTTGTGGAC CTGCAGAAGA AGACTGGCCG AGGACTAGGC
    CTGAGCATTG TTGGGAAACG GAGTGGAAGT GGAGTGTTTA TTTCTGACAT TGTGAAAGGC
    GGGGCCGCAG ACCTCGATGG AAGGTTAATT CGAGGAGACC AGATCTTGTC TGTGAATGGA
    GAGGACTTGA GACACGCCTC ACAAGAGACA GTGGCCACCA TCCTGAAGTG TGTCCAGGGC
    CTTGTCCAGC TGGAGATTGG GAGACTCCGC GCCGGTTCCT GGGCCGCCTC GAGGAAGACC
    TCGCAGAACA GCCAGGGGGA TCAGCACAGT GCACACAGCA GCTGTCGGCC TTCCTTTGCC
    CCGGTCATCA CCAGCCTACA AAACCTGGTT GGCACAAAAC GATCTTCAGA TCCTCCCCAG
    AAATGCACAG AGGAGGAACC AAGGACTGTA GAGATAATCA GAGAGCTCTG CGATGCCCTT
    GGGATCAGTA TCGCTGGAGG AAAGGGGAGT CCTTTAGGAG ATATCCCCAT ATTTATTGCC
    ATGATTCAGG CCAACGGAGT GGCCGCACGG ACCCAGAAGC TTAAGGTTGG AGATCGGATT
    GTGAGCATTA ATGGACAACC TCTGGATGGA CTGTCTCACA CAGATGCCGT TAATCTACTG
    AAGAATGCCT TCGGGCGCAT TATCCTGCAG GTTGTGGCAG ATACCAACAT AAGTGCCATA
    GCGACCCAGC TGGAAATCAT GTCTGCAGGC TCCCAGCTTG GCTCCCCGAC TGCTGACCGA
    CATCCGGAAG ACCCAGAGGA GCAGATGCAG AGGACGGCTG ATTAA

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

    CloneID OMv72800
    Clone ID Related Accession (Same CDS sequence) XM_029475856.1
    Accession Version XM_029475856.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5421bp)
    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 inaD-like protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034573.1) 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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGTTAATGG GGTTGATCTG
    CGGAGCTCCA GCCATGAAGA AGCCATCACA GCCCTGAGGC AGACTCCCCA GAAGGTGCGG
    CTGGTGGTAT ACAGAGATGA AGCACAGTAC AGAGACGAGG AGAACTTGGA GGTGTTCCTT
    GTGGACCTGC AGAAGAAGAC TGGCCGAGGA CTAGGCCTGA GCATTGTTGG GAAACGGAGT
    GGAAGTGGAG TGTTTATTTC TGACATTGTG AAAGGCGGGG CCGCAGACCT CGATGGAAGG
    TTAATTCGAG GAGACCAGAT CTTGTCTGTG AATGGAGAGG ACTTGAGACA CGCCTCACAA
    GAGACAGTGG CCACCATCCT GAAGTGTGTC CAGGGCCTTG TCCAGCTGGA GATTGGGAGA
    CTCCGCGCCG GTTCCTGGGC CGCCTCGAGG AAGACCTCGC AGAACAGCCA GGGGGATCAG
    CACAGTGCAC ACAGCAGCTG TCGGCCTTCC TTTGCCCCGG TCATCACCAG CCTACAAAAC
    CTGGTTGGCA CAAAACGATC TTCAGATCCT CCCCAGAAAT GCACAGAGGA GGAACCAAGG
    ACTGTAGAGA TAATCAGAGA GCTCTGCGAT GCCCTTGGGA TCAGTATCGC TGGAGGAAAG
    GGGAGTCCTT TAGGAGATAT CCCCATATTT ATTGCCATGA TTCAGGCCAA CGGAGTGGCC
    GCACGGACCC AGAAGCTTAA GGTTGGAGAT CGGATTGTGA GCATTAATGG ACAACCTCTG
    GATGGACTGT CTCACACAGA TGCCGTTAAT CTACTGAAGA ATGCCTTCGG GCGCATTATC
    CTGCAGGTTG TGGCAGATAC CAACATAAGT GCCATAGCGA CCCAGCTGGA AATCATGTCT
    GCAGGCTCCC AGCTTGGCTC CCCGACTGCT GACCGACATC CGGAAGACCC AGAGGAGCAG
    ATGCAGAGGA CGGCTGATTA A

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

    RefSeq XP_029331716.1
    CDS137..5557
    Translation

    Target ORF information:

    RefSeq Version XM_029475856.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli PATJ crumbs cell polarity complex component (Patj), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029475856.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    ATGCCTGAAA ACCCTGCTGC AGAGAAAATG CAGGTCCTGC AGGTCCTGGA TCGCCTGAGA 
    GGGAAGCTGC AGGAGAAGGG AGACACGACG CAGAACGAGA AGCTGTCTGC GTTTTACGAG
    ACCCTGAAGA GCCCCCTCTT CAACCAGATC CTTACACTGC AGCAGTCCAT CAAGCAGCTG
    AAGGGACAGC TTAGCCACAT CCCCTCAGAT TGCTCAGCCA ACTTTGACTT TTCTCGCAAG
    GGCTTGCTAG TGTTCACAGA TGGTTCCATT ACAAACGGGA ATACCCACAG GCCTTGTAGT
    AATGTGACTG CATCTGAATT GTTGCCCTGG ACTCAAAAGT CAGGAAGTGA AGACTTTAAC
    TCAGTCATTC AGCAGATGGC TCAGGGCCGG CACGTTGAGT ATATAGATAT TGAGCGTCCT
    TCCACTGGAG GCCTTGGGTT CAGTGTGGTG GCTCTGAGAA GCCGAAGCCT GCGATTAATT
    GATATCTTTG TGAAGGAAGT CCATCCCGGG AGTGCAGCAG ACAGGGATCA CAGATTGAAG
    GAAAATGACC AGATTTTGGC CATTAATGAC ACCCCATTGG ATCAGAATAT TTCCCATCAG
    CAGGCGATTG CATTACTACA ACAAGACTCT GGATCTCTGC GGCTGGTTGT GGCCAGGGAA
    GTGGGCCACA CACAGGGCCG AGCATCCACC AGCTCAGCTG ATACAACTCT GCCAGAATCG
    GTGTGTTGGG GCCACACGGA AGAGGTTGAG CTCATTAACG ATGGCTCTGG ATTAGGTTTT
    GGGATAGTTG GAGGGAAATC CAGCGGCGTG GTCGTGAGGA CTATTGTTCC TGGAGGACTG
    GCAGACCGAG ATGGAAGACT GCAGACAGGG GATCACATCT TGAAGATTGG TGGTACAAAT
    GTTCAAGGAA TGACCAGTGA ACAAGTTGCT CAAGTGCTAA GGAACTGTGG GAATTCAGTG
    AGGATGCTGG TGGCCAGAGA CCCTGTGGGT GAAATTGCAG TAACACCTCC TACCCCTGTA
    TCCTTACCTG TTGCCCTACC TGCTGTAGCC ACAAGGACCC TTGATTCTGA CAGGTCTCCT
    TTTGAAACTT ACAATGTTGA ACTTGTTAAG AAAGATGGGC AGAGTCTTGG GATTAGAATT
    GTTGGCTATG TTGGAACAGC TCATCCAGGG GAAGCTTCCG GGATTTATGT GAAAAGTATA
    ATTCCAGGCA GCGCTGCCTA CCACAATGGC CAAATTCAAG TGAATGATAA AATCGTGGCT
    GTGGATGGTG TGAATATTCA GGGTTTTGCT AATCAGGATG TTGTTGAAGT ATTGCGGAAT
    GCTGGGCAGG TGGTACACCT GACCCTTGTT CGAAGGAAAA CATCTTTATC TGCTTCTCCG
    GTTGAGCACT CTTCAAGCAG AGAAACTGTT GCAGAACCAC CAGAACCACC AGAACGAACA
    GCATCCCCAA AACCAGAAAC TAATTTGAGT GTGGAAGCAG AGGAAATCGG AGAAAGACTG
    GATAATCTAA AAAACAACAC TGTACAAGCC TTAGAAAAAC CAGATGTATA TCCAGAAAAA
    GTTCCAGGCT CTCCAGAAAA TGAGCTGAAA TCCAGATGGG AAAACCTACT GGGCCCAGAT
    TATGAAGTAA TGGTAGCCAC TTTGGACACT CAGATTGCAG ATGATGAGGA GCTACAGAAG
    TACTCGAAGC TGCTGCCTAT CCACACGCTC AGGCTTGGTA TGGAAGTCGA CTCCTTCGAC
    GGGCACCACT ATATCTCCTC AGTCGCTCCT GGGGGTCCTG TGGATACCCT GAACCTCCTT
    CAGCCAGAGG ATGAACTTCT TGAGGTCAAC GGCATGCAGC TTTATGGGAA GTCTCGCCGA
    GAAGCAGTCT CCTTCCTTAA AGAAGTGCCC CCACCATTTA CCTTGGTCTG CTGCCGCCGG
    CTGTTTGATG ATGAGGCCTC AGTTGATGAG CCAAGAACCA TGGAGCCTGC TCTTCTTGAG
    GCCGAGGTTG ACCACAATGT AGATGTCAAC ACTGAAGATG ATGATGATGG AGAATTAGCC
    CTGTGGTCTC CTGAAGTCAA GACTGTGGAG CTGGTGAAAG ACTGCAAAGG CTTAGGATTC
    AGTATTTTGG ATTATCAGGA CCCCCTGGAT CCCACGCGCT CAGTGATTGT GATTCGCTCC
    TTGGTGGCAG ATGGTGTAGC GGAAAGAAGT GGAGAACTTT TACCTGGAGA TCGCCTAGTC
    TCCGTCAATG AGTTCTCCTT GGACAATGCC ACTCTTGCTG AGGCTGTGGA AGTGCTGAAG
    GCTGTACCCC CCGGTGTGGT GCACCTCGGC ATCTGTAAGC CTTTGGTGGA AGATGAGAAG
    GAAGAACATT TTAGTTTACA TTCTAACAAC AATGGTGACA ACAGCGAGCC TCCAGAGACT
    GTTCATGAGA TCCACTCGTC TTTAATCCTT GAGGCACCCC AGGGATTTAG AGATGAGCCA
    TATCTTGAAG AACTCGTGGA TGAACCTTTT CTAGATTTGG GAAAGTCTTT GCAGTTCCAA
    CAAAAAGACA TGGGCAGCAG CTCGGAAGCC TGGGAAATGC ATGAGTTCCT GAGCCCTCCA
    ATGGAGGGCA GGGGTGAGGA AAGAGAAATG CTTGTCGATG AGGAGTATGA ACTTTATCAA
    GATCACCTCC GGGCCATGGA GTCAAACCCA CCACCACCAC ACATTCGGGA GGCCGCTCCT
    GCATCTCCCA TGCTGGAACT CCAGGCTGGC ACCCAGTGGC TGCATGCTAA CCTCTCAGGA
    GGCGAAATGC TAGAGTGTCA CGATGCAGAG TCCATGATGA GTGCCTATCC CCAGGAGATG
    CAGCAGTATA GCTACAGCAC TGCAGACATG ATGGAAGAAA CGTTTGGCCT TGATTCCCGG
    CCCCCCATAC CGTCCTCTGA AGGAAATGGT CAACATGGCA GATTTGATGA CATGGAACAC
    CTTCATTCAC TAACGAGCAG CAGCCTGGAT TTAGGCATGA TGATTCCAAG TGATCTGCAA
    GGTCCTGGCG TGCTTGTTGA TCTTCCAGCT GTTGCTCAAA GAAGAGAACA GGAAGATTTG
    CCTCTGTACC GACTCCCCAG CACCCACGTT GTCACCAAGC CCACATCACA CATGGGACTG
    GTGTCTTCAC GGCATGCAAA TGCTGCATGT GAATTACCGG AGAGAGAGGA AGGAGAAGGA
    GAGGAGACAC CGAACTTCAG CCACTGGGGT CCACCAAGAA TTGTTGAAAT TTTTAGAGAA
    CCTAATGTGT CTCTTGGCAT CAGCATCGTT GGTGGACAGA CAGTTATAAA ACGCCTCAAG
    AATGGAGAGG AGCTCAAGGG GATATTCATC AAACAAGTGT TAGAGGACAG TCCTGCAGGG
    AAGACCAAGG CGCTGAAAAC CGGAGATAAA ATTCTTGAGG TGTCTGGTGT AGACCTGCAG
    AACGCCTCGC ATGCAGAAGC CGTGGAGGCA ATCAAGAGTG CGGGAAACCC TGTGGTGTTC
    GTGGTACAGA GCCTGTCATC CACTCCAAGG GTCATCCCAA CTGTGAATAA CAAAGGCAAA
    ACACCTGCCA CTAACCAGGA TCAAAACACT CAAGAAAGGA AAGCTAAGAG GCACGGAACA
    GCTCCACCTC CAATGAAGCT GCCCCCGCCT TACAGAGCTC CATCTGCAGA CATGGAGGAA
    CGTGAAGAAG ACTGTGCGCT GACCGACAAA AAGATCAGGC AACGATATGC AGACCTGCCG
    GGAGAATTAC ACATTATCGA ACTGGAAAAG GACAAGAATG GACTGGGGCT CAGTCTTGCT
    GGCAATAAGG ACAGGTCACG GATGAGCATC TTCGTGGTGG GGATTAATCC AGAGGGACCT
    GCTGCTGCAG ATGGACGGAT GCGGATTGGA GACGAGCTGC TAGAGATAAA CAATCAGATT
    CTTTATGGAA GAAGTCATCA GAACGCATCT GCCATTATTA AGACCGCCCC AACCAGGGTC
    AAACTGGTTT TCATTAGAAA CGAAGATGCA GTCAGTCAGA TGGCCGTCAC TCCCTTCCCG
    GAGCTATCAC ATTCCCCATC GCCTGTTGAG GATCTGGGTG GCACTGAACC TGTCAGTAGT
    GAAGAGGAGA GCAGTGTGGA TGCTAAACAC CTGCCTGCAC CAGAAAGCTC CAAACCGGAA
    GACCTGTCCC AGGTGGTTGA TGACAACATG GTGGCAGAGC AGCAGAAGGC ATCGGAGTCA
    CCTGACAGTG CTGCCTGCCA GATAAAACAG CAGACATATT CAACACAAGT CTCCTCCAGC
    TCACAAGATA TCCCATCATC ACCAACTCCA TTGTGTCAGT CAGCACATGC AGATGTCACA
    GGCTCTGGTA ACTTCCAGGC TACTCTCCCA GTGGACCCTG CTCCACTCTC GGTGGACCCT
    GCAACATGTC CCATCGTCCC TGGCCAGGAA ATGATCATAG AAATATCCAA GGGGCGCTCC
    GGGCTTGGGC TCAGCATTGT TGGAGGAAAA GACACACCTT TGGTTAATGG GGTTGATCTG
    CGGAGCTCCA GCCATGAAGA AGCCATCACA GCCCTGAGGC AGACTCCCCA GAAGGTGCGG
    CTGGTGGTAT ACAGAGATGA AGCACAGTAC AGAGACGAGG AGAACTTGGA GGTGTTCCTT
    GTGGACCTGC AGAAGAAGAC TGGCCGAGGA CTAGGCCTGA GCATTGTTGG GAAACGGAGT
    GGAAGTGGAG TGTTTATTTC TGACATTGTG AAAGGCGGGG CCGCAGACCT CGATGGAAGG
    TTAATTCGAG GAGACCAGAT CTTGTCTGTG AATGGAGAGG ACTTGAGACA CGCCTCACAA
    GAGACAGTGG CCACCATCCT GAAGTGTGTC CAGGGCCTTG TCCAGCTGGA GATTGGGAGA
    CTCCGCGCCG GTTCCTGGGC CGCCTCGAGG AAGACCTCGC AGAACAGCCA GGGGGATCAG
    CACAGTGCAC ACAGCAGCTG TCGGCCTTCC TTTGCCCCGG TCATCACCAG CCTACAAAAC
    CTGGTTGGCA CAAAACGATC TTCAGATCCT CCCCAGAAAT GCACAGAGGA GGAACCAAGG
    ACTGTAGAGA TAATCAGAGA GCTCTGCGAT GCCCTTGGGA TCAGTATCGC TGGAGGAAAG
    GGGAGTCCTT TAGGAGATAT CCCCATATTT ATTGCCATGA TTCAGGCCAA CGGAGTGGCC
    GCACGGACCC AGAAGCTTAA GGTTGGAGAT CGGATTGTGA GCATTAATGG ACAACCTCTG
    GATGGACTGT CTCACACAGA TGCCGTTAAT CTACTGAAGA ATGCCTTCGG GCGCATTATC
    CTGCAGGTTG TGGCAGATAC CAACATAAGT GCCATAGCGA CCCAGCTGGA AATCATGTCT
    GCAGGCTCCC AGCTTGGCTC CCCGACTGCT GACCGACATC CGGAAGACCC AGAGGAGCAG
    ATGCAGAGGA CGGCTGATTA A

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