Col24a1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Col24a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Col24a1 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
OMv40702 XM_021158014.2
Latest version!
Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
OMv40701 XM_021158013.2
Latest version!
Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
View Old Accession Versions >>
OMv40702 XM_021158014.1 Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
OMv40701 XM_021158013.1 Mus caroli collagen type XXIV alpha 1 chain (Col24a1), 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 OMv40702
    Clone ID Related Accession (Same CDS sequence) XM_021158014.1 , XM_021158014.2
    Accession Version XM_021158014.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2658bp)
    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 collagen alpha-1(XXIV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034572.1) 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
    ATGGGTGAAC CAGGGCCAGA AGGCTTAAAG GGAGAAGTGG GAGACCAAGG AGATATTGGG 
    AAAACTGGTG AAACAGGACC CGTTGGTTTA CCTGGAGAAG TAGGGATAAC CGGAAGCATT
    GGTGAGAAGG GAGAACGTGG AAGTCCAGGC CCGCTTGGTC CCCAGGGGGA AAAAGGTGTC
    ATGGGCTACC CAGGTCCTCC TGGGGCTCCA GGGCCCATGG GCCCACTTGG ATTACCTGGT
    CTTGTTGGGG CAAGAGGCGC ACCTGGGAGT CCGGGTCCTA AAGGACAAAG AGGACCCAGA
    GGACCAGATG GCCTCGCAGG GGATCAAGGA GGACAAGGTG CTAAGGGTGA AAAAGGAAAC
    CAAGGGAAAA GAGGGCTTTC TGGTCTCCCC GGTAAGGCTG GAAGCCCTGG GGAGAGGGGA
    GTTCAAGGAA AACCGGGCTT CCAAGGACTC CCTGGCAGCT CAGGAGACGT GGGGCCTGCC
    GGAGAACCCG GACCACGAGG ACTGCCTGGT ATTGCTGGAC TTCCTGGAGA GATGGGTGTT
    GAGGGACCTC CAGGCACTGA GGGAGACTCT GGCCTGCAAG GTGAACCAGG TGCTAAGGGA
    GATGATGGAC CTGCTGGCAG TGCTGGAGCC ACTGGGGAGC CGGGGCCGCG AGGAGAACCA
    GGAGCCCCTG GAGAAGAAGG TCTCCAAGGA AAAGATGGGT TAAAGGGGGC TCCAGGAGGA
    AGCGGACTTC CTGGAGAGGA TGGAGACAAA GGAGAGATGG GCTTACCAGG AACAGCAGGG
    CCCGTGGGGA GACCAGGTCA GATGGGCCTT CCAGGACCTG AAGGAATTGT GGGAACCCCG
    GGACAAAGAG GTCAACTAGG GAAAAAGGGT GATAAAGGAC AAGTAGGGCC CACGGGAGAA
    GCTGGAAGCA GAGGACCCCC TGGAAGCGTT GGGGAAAATG GCCCGAAGGG TGCCAGAGGA
    ACTCGAGGTG CTGTGGGTCC ATTAGGATTG ATGGGACCTG AAGGCGAACC AGGAATCCCA
    GGATACAGAG GCCATCAAGG TCAACCAGGA CCCTCTGGAT TGCCAGGACC CAAAGGAGAA
    AAGGGCTACC CAGGAGAAGA CAGCACAGTT CTGGGACCTC CTGGGCCTCC AGGTGAACCA
    GGGCCAATGG GGGAGCAAGG AGAGACAGGG GAACATGGCG AAGAAGGCTA TAAGGGCCAT
    ATGGGTGTGC CAGGACTCAG GGGTGCCACT GGACAGCAAG GACCCCCAGG TGAACCAGGT
    GACCAGGGTG GACAAGGACT GAAAGGAGGG AGAGGATCTG AAGGTCCTCA GGGGAAAAGG
    GGAGTTCCTG GTCCTTCTGG GAAACCAGGC ATTCCCGGAG TTCCAGGCTT TCCCGGGCCA
    AAAGGCTTAC AAGGATACCC CGGAGTCGAC GGCATGTCAG GATACCCTGG GAAGCCTGGT
    CTACCAGGAA AACAAGGACT TCTGGGCGTG CCAGGCAGCC CAGGGAGAAC AGGACTGGCT
    GGATCCCCAG GTCCTCAAGG AGGAAAAGGC GCATCAGGCC CTCCAGGAAG CCCTGGTGCT
    CCAGGCCCAA AGGGTGAACA AGGGCTACCT GGTCAGCCTG GAGTTCCGGG TCAAAGAGGT
    CACCGAGGAA CACCAGGCGA CCAAGGACTC CGTGGAGCGC CTGGTCTGAA AGGGCAGCCT
    GGGGAACATG GTGATCAAGG TTTGACAGGT TTCCAGGGAT TCCCAGGCCC CAGAGGTCCC
    GAGGGGGATG CTGGCATTGT TGGAATTGTA GGCCCTAAAG GTCCCATTGG GCCAAGAGGA
    AACACTGGCC CTCTTGGCCG AGAAGGGATA ATAGGCCCAA CAGGTGGAAC TGGACCCAGA
    GGTGAAAAAG GCTTTAGAGG TGAAACTGGT CCCCAAGGGC CGAGAGGTCA ACCAGGACCC
    CCTGGTCCAC CTGGAGCACC TGGTCCAAGA AGACAAATGG ATATCAATGC TGCTATTCGA
    GCTCTGATAG AATCAAATTC TGCCCAGCAG ATGGAGAGTT ACCAGAACGC TGAAGGGACC
    TTAATCAGCC ACAGTTCAGA CATTTTCAAA ACCCTGACCT ACCTTAGCAG CATCCTGAGC
    AGCATCAAGA ATCCTCTTGG CACGCGAGAA AACCCAGCCC GGATCTGCAA GGATTTGCTC
    AGCTGTCAGT ACAAGGTTTC AGATGGAAAA TATTGGATCG ACCCAAATCT CGGATGCTCT
    TCAGATGCCT TTGAGGTTTT CTGCAACTTT AGTGCTGGAG GCCAGACATG TTTATCTCCT
    GTTTCTGTGA CAAAGTTGGA GTTTGGAGTC GGCAAAGTAC AGATGAACTT TCTTCACTTG
    CTGAGCTCAG AAGCCACCCA CACCATCACC ATTCACTGTC TAAACACCCC AAGGTGGAGC
    AGCACACGGG CGGATGGTCC AGAGTTGCCT ATTAGTTTCA GAGGATGGAA TGGTCAGATT
    TTTGAAGAAA ACACTCTACT TGAACCACAA GTCCTCTCAG ATGACTGCAA GATTCAGGAT
    GGCAGCTGGC ACAAAGCGAA ATTCCTTTTC CACACCCAGA ATCCTAATCA GCTTCCTGTG
    ACTGAAGTCC AAAACCTTCT TCACCTTGGA ACTGAGCAAA AGCGCTACAT TGAAAGCAAT
    TCCGTGTGCT TTCTCTAA

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

    RefSeq XP_021013673.1
    CDS3185..5842
    Translation

    Target ORF information:

    RefSeq Version XM_021158014.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021158014.1

    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
    ATGGGTGAAC CAGGGCCAGA AGGCTTAAAG GGAGAAGTGG GAGACCAAGG AGATATTGGG 
    AAAACTGGTG AAACAGGACC CGTTGGTTTA CCTGGAGAAG TAGGGATAAC CGGAAGCATT
    GGTGAGAAGG GAGAACGTGG AAGTCCAGGC CCGCTTGGTC CCCAGGGGGA AAAAGGTGTC
    ATGGGCTACC CAGGTCCTCC TGGGGCTCCA GGGCCCATGG GCCCACTTGG ATTACCTGGT
    CTTGTTGGGG CAAGAGGCGC ACCTGGGAGT CCGGGTCCTA AAGGACAAAG AGGACCCAGA
    GGACCAGATG GCCTCGCAGG GGATCAAGGA GGACAAGGTG CTAAGGGTGA AAAAGGAAAC
    CAAGGGAAAA GAGGGCTTTC TGGTCTCCCC GGTAAGGCTG GAAGCCCTGG GGAGAGGGGA
    GTTCAAGGAA AACCGGGCTT CCAAGGACTC CCTGGCAGCT CAGGAGACGT GGGGCCTGCC
    GGAGAACCCG GACCACGAGG ACTGCCTGGT ATTGCTGGAC TTCCTGGAGA GATGGGTGTT
    GAGGGACCTC CAGGCACTGA GGGAGACTCT GGCCTGCAAG GTGAACCAGG TGCTAAGGGA
    GATGATGGAC CTGCTGGCAG TGCTGGAGCC ACTGGGGAGC CGGGGCCGCG AGGAGAACCA
    GGAGCCCCTG GAGAAGAAGG TCTCCAAGGA AAAGATGGGT TAAAGGGGGC TCCAGGAGGA
    AGCGGACTTC CTGGAGAGGA TGGAGACAAA GGAGAGATGG GCTTACCAGG AACAGCAGGG
    CCCGTGGGGA GACCAGGTCA GATGGGCCTT CCAGGACCTG AAGGAATTGT GGGAACCCCG
    GGACAAAGAG GTCAACTAGG GAAAAAGGGT GATAAAGGAC AAGTAGGGCC CACGGGAGAA
    GCTGGAAGCA GAGGACCCCC TGGAAGCGTT GGGGAAAATG GCCCGAAGGG TGCCAGAGGA
    ACTCGAGGTG CTGTGGGTCC ATTAGGATTG ATGGGACCTG AAGGCGAACC AGGAATCCCA
    GGATACAGAG GCCATCAAGG TCAACCAGGA CCCTCTGGAT TGCCAGGACC CAAAGGAGAA
    AAGGGCTACC CAGGAGAAGA CAGCACAGTT CTGGGACCTC CTGGGCCTCC AGGTGAACCA
    GGGCCAATGG GGGAGCAAGG AGAGACAGGG GAACATGGCG AAGAAGGCTA TAAGGGCCAT
    ATGGGTGTGC CAGGACTCAG GGGTGCCACT GGACAGCAAG GACCCCCAGG TGAACCAGGT
    GACCAGGGTG GACAAGGACT GAAAGGAGGG AGAGGATCTG AAGGTCCTCA GGGGAAAAGG
    GGAGTTCCTG GTCCTTCTGG GAAACCAGGC ATTCCCGGAG TTCCAGGCTT TCCCGGGCCA
    AAAGGCTTAC AAGGATACCC CGGAGTCGAC GGCATGTCAG GATACCCTGG GAAGCCTGGT
    CTACCAGGAA AACAAGGACT TCTGGGCGTG CCAGGCAGCC CAGGGAGAAC AGGACTGGCT
    GGATCCCCAG GTCCTCAAGG AGGAAAAGGC GCATCAGGCC CTCCAGGAAG CCCTGGTGCT
    CCAGGCCCAA AGGGTGAACA AGGGCTACCT GGTCAGCCTG GAGTTCCGGG TCAAAGAGGT
    CACCGAGGAA CACCAGGCGA CCAAGGACTC CGTGGAGCGC CTGGTCTGAA AGGGCAGCCT
    GGGGAACATG GTGATCAAGG TTTGACAGGT TTCCAGGGAT TCCCAGGCCC CAGAGGTCCC
    GAGGGGGATG CTGGCATTGT TGGAATTGTA GGCCCTAAAG GTCCCATTGG GCCAAGAGGA
    AACACTGGCC CTCTTGGCCG AGAAGGGATA ATAGGCCCAA CAGGTGGAAC TGGACCCAGA
    GGTGAAAAAG GCTTTAGAGG TGAAACTGGT CCCCAAGGGC CGAGAGGTCA ACCAGGACCC
    CCTGGTCCAC CTGGAGCACC TGGTCCAAGA AGACAAATGG ATATCAATGC TGCTATTCGA
    GCTCTGATAG AATCAAATTC TGCCCAGCAG ATGGAGAGTT ACCAGAACGC TGAAGGGACC
    TTAATCAGCC ACAGTTCAGA CATTTTCAAA ACCCTGACCT ACCTTAGCAG CATCCTGAGC
    AGCATCAAGA ATCCTCTTGG CACGCGAGAA AACCCAGCCC GGATCTGCAA GGATTTGCTC
    AGCTGTCAGT ACAAGGTTTC AGATGGAAAA TATTGGATCG ACCCAAATCT CGGATGCTCT
    TCAGATGCCT TTGAGGTTTT CTGCAACTTT AGTGCTGGAG GCCAGACATG TTTATCTCCT
    GTTTCTGTGA CAAAGTTGGA GTTTGGAGTC GGCAAAGTAC AGATGAACTT TCTTCACTTG
    CTGAGCTCAG AAGCCACCCA CACCATCACC ATTCACTGTC TAAACACCCC AAGGTGGAGC
    AGCACACGGG CGGATGGTCC AGAGTTGCCT ATTAGTTTCA GAGGATGGAA TGGTCAGATT
    TTTGAAGAAA ACACTCTACT TGAACCACAA GTCCTCTCAG ATGACTGCAA GATTCAGGAT
    GGCAGCTGGC ACAAAGCGAA ATTCCTTTTC CACACCCAGA ATCCTAATCA GCTTCCTGTG
    ACTGAAGTCC AAAACCTTCT TCACCTTGGA ACTGAGCAAA AGCGCTACAT TGAAAGCAAT
    TCCGTGTGCT TTCTCTAA

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

    CloneID OMv40702
    Clone ID Related Accession (Same CDS sequence) XM_021158014.1 , XM_021158014.2
    Accession Version XM_021158014.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2658bp)
    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 collagen alpha-1(XXIV) chain isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034572.1) 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_021158014.1. ##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
    ATGGGTGAAC CAGGGCCAGA AGGCTTAAAG GGAGAAGTGG GAGACCAAGG AGATATTGGG 
    AAAACTGGTG AAACAGGACC CGTTGGTTTA CCTGGAGAAG TAGGGATAAC CGGAAGCATT
    GGTGAGAAGG GAGAACGTGG AAGTCCAGGC CCGCTTGGTC CCCAGGGGGA AAAAGGTGTC
    ATGGGCTACC CAGGTCCTCC TGGGGCTCCA GGGCCCATGG GCCCACTTGG ATTACCTGGT
    CTTGTTGGGG CAAGAGGCGC ACCTGGGAGT CCGGGTCCTA AAGGACAAAG AGGACCCAGA
    GGACCAGATG GCCTCGCAGG GGATCAAGGA GGACAAGGTG CTAAGGGTGA AAAAGGAAAC
    CAAGGGAAAA GAGGGCTTTC TGGTCTCCCC GGTAAGGCTG GAAGCCCTGG GGAGAGGGGA
    GTTCAAGGAA AACCGGGCTT CCAAGGACTC CCTGGCAGCT CAGGAGACGT GGGGCCTGCC
    GGAGAACCCG GACCACGAGG ACTGCCTGGT ATTGCTGGAC TTCCTGGAGA GATGGGTGTT
    GAGGGACCTC CAGGCACTGA GGGAGACTCT GGCCTGCAAG GTGAACCAGG TGCTAAGGGA
    GATGATGGAC CTGCTGGCAG TGCTGGAGCC ACTGGGGAGC CGGGGCCGCG AGGAGAACCA
    GGAGCCCCTG GAGAAGAAGG TCTCCAAGGA AAAGATGGGT TAAAGGGGGC TCCAGGAGGA
    AGCGGACTTC CTGGAGAGGA TGGAGACAAA GGAGAGATGG GCTTACCAGG AACAGCAGGG
    CCCGTGGGGA GACCAGGTCA GATGGGCCTT CCAGGACCTG AAGGAATTGT GGGAACCCCG
    GGACAAAGAG GTCAACTAGG GAAAAAGGGT GATAAAGGAC AAGTAGGGCC CACGGGAGAA
    GCTGGAAGCA GAGGACCCCC TGGAAGCGTT GGGGAAAATG GCCCGAAGGG TGCCAGAGGA
    ACTCGAGGTG CTGTGGGTCC ATTAGGATTG ATGGGACCTG AAGGCGAACC AGGAATCCCA
    GGATACAGAG GCCATCAAGG TCAACCAGGA CCCTCTGGAT TGCCAGGACC CAAAGGAGAA
    AAGGGCTACC CAGGAGAAGA CAGCACAGTT CTGGGACCTC CTGGGCCTCC AGGTGAACCA
    GGGCCAATGG GGGAGCAAGG AGAGACAGGG GAACATGGCG AAGAAGGCTA TAAGGGCCAT
    ATGGGTGTGC CAGGACTCAG GGGTGCCACT GGACAGCAAG GACCCCCAGG TGAACCAGGT
    GACCAGGGTG GACAAGGACT GAAAGGAGGG AGAGGATCTG AAGGTCCTCA GGGGAAAAGG
    GGAGTTCCTG GTCCTTCTGG GAAACCAGGC ATTCCCGGAG TTCCAGGCTT TCCCGGGCCA
    AAAGGCTTAC AAGGATACCC CGGAGTCGAC GGCATGTCAG GATACCCTGG GAAGCCTGGT
    CTACCAGGAA AACAAGGACT TCTGGGCGTG CCAGGCAGCC CAGGGAGAAC AGGACTGGCT
    GGATCCCCAG GTCCTCAAGG AGGAAAAGGC GCATCAGGCC CTCCAGGAAG CCCTGGTGCT
    CCAGGCCCAA AGGGTGAACA AGGGCTACCT GGTCAGCCTG GAGTTCCGGG TCAAAGAGGT
    CACCGAGGAA CACCAGGCGA CCAAGGACTC CGTGGAGCGC CTGGTCTGAA AGGGCAGCCT
    GGGGAACATG GTGATCAAGG TTTGACAGGT TTCCAGGGAT TCCCAGGCCC CAGAGGTCCC
    GAGGGGGATG CTGGCATTGT TGGAATTGTA GGCCCTAAAG GTCCCATTGG GCCAAGAGGA
    AACACTGGCC CTCTTGGCCG AGAAGGGATA ATAGGCCCAA CAGGTGGAAC TGGACCCAGA
    GGTGAAAAAG GCTTTAGAGG TGAAACTGGT CCCCAAGGGC CGAGAGGTCA ACCAGGACCC
    CCTGGTCCAC CTGGAGCACC TGGTCCAAGA AGACAAATGG ATATCAATGC TGCTATTCGA
    GCTCTGATAG AATCAAATTC TGCCCAGCAG ATGGAGAGTT ACCAGAACGC TGAAGGGACC
    TTAATCAGCC ACAGTTCAGA CATTTTCAAA ACCCTGACCT ACCTTAGCAG CATCCTGAGC
    AGCATCAAGA ATCCTCTTGG CACGCGAGAA AACCCAGCCC GGATCTGCAA GGATTTGCTC
    AGCTGTCAGT ACAAGGTTTC AGATGGAAAA TATTGGATCG ACCCAAATCT CGGATGCTCT
    TCAGATGCCT TTGAGGTTTT CTGCAACTTT AGTGCTGGAG GCCAGACATG TTTATCTCCT
    GTTTCTGTGA CAAAGTTGGA GTTTGGAGTC GGCAAAGTAC AGATGAACTT TCTTCACTTG
    CTGAGCTCAG AAGCCACCCA CACCATCACC ATTCACTGTC TAAACACCCC AAGGTGGAGC
    AGCACACGGG CGGATGGTCC AGAGTTGCCT ATTAGTTTCA GAGGATGGAA TGGTCAGATT
    TTTGAAGAAA ACACTCTACT TGAACCACAA GTCCTCTCAG ATGACTGCAA GATTCAGGAT
    GGCAGCTGGC ACAAAGCGAA ATTCCTTTTC CACACCCAGA ATCCTAATCA GCTTCCTGTG
    ACTGAAGTCC AAAACCTTCT TCACCTTGGA ACTGAGCAAA AGCGCTACAT TGAAAGCAAT
    TCCGTGTGCT TTCTCTAA

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

    RefSeq XP_021013673.1
    CDS3185..5842
    Translation

    Target ORF information:

    RefSeq Version XM_021158014.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021158014.2

    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
    ATGGGTGAAC CAGGGCCAGA AGGCTTAAAG GGAGAAGTGG GAGACCAAGG AGATATTGGG 
    AAAACTGGTG AAACAGGACC CGTTGGTTTA CCTGGAGAAG TAGGGATAAC CGGAAGCATT
    GGTGAGAAGG GAGAACGTGG AAGTCCAGGC CCGCTTGGTC CCCAGGGGGA AAAAGGTGTC
    ATGGGCTACC CAGGTCCTCC TGGGGCTCCA GGGCCCATGG GCCCACTTGG ATTACCTGGT
    CTTGTTGGGG CAAGAGGCGC ACCTGGGAGT CCGGGTCCTA AAGGACAAAG AGGACCCAGA
    GGACCAGATG GCCTCGCAGG GGATCAAGGA GGACAAGGTG CTAAGGGTGA AAAAGGAAAC
    CAAGGGAAAA GAGGGCTTTC TGGTCTCCCC GGTAAGGCTG GAAGCCCTGG GGAGAGGGGA
    GTTCAAGGAA AACCGGGCTT CCAAGGACTC CCTGGCAGCT CAGGAGACGT GGGGCCTGCC
    GGAGAACCCG GACCACGAGG ACTGCCTGGT ATTGCTGGAC TTCCTGGAGA GATGGGTGTT
    GAGGGACCTC CAGGCACTGA GGGAGACTCT GGCCTGCAAG GTGAACCAGG TGCTAAGGGA
    GATGATGGAC CTGCTGGCAG TGCTGGAGCC ACTGGGGAGC CGGGGCCGCG AGGAGAACCA
    GGAGCCCCTG GAGAAGAAGG TCTCCAAGGA AAAGATGGGT TAAAGGGGGC TCCAGGAGGA
    AGCGGACTTC CTGGAGAGGA TGGAGACAAA GGAGAGATGG GCTTACCAGG AACAGCAGGG
    CCCGTGGGGA GACCAGGTCA GATGGGCCTT CCAGGACCTG AAGGAATTGT GGGAACCCCG
    GGACAAAGAG GTCAACTAGG GAAAAAGGGT GATAAAGGAC AAGTAGGGCC CACGGGAGAA
    GCTGGAAGCA GAGGACCCCC TGGAAGCGTT GGGGAAAATG GCCCGAAGGG TGCCAGAGGA
    ACTCGAGGTG CTGTGGGTCC ATTAGGATTG ATGGGACCTG AAGGCGAACC AGGAATCCCA
    GGATACAGAG GCCATCAAGG TCAACCAGGA CCCTCTGGAT TGCCAGGACC CAAAGGAGAA
    AAGGGCTACC CAGGAGAAGA CAGCACAGTT CTGGGACCTC CTGGGCCTCC AGGTGAACCA
    GGGCCAATGG GGGAGCAAGG AGAGACAGGG GAACATGGCG AAGAAGGCTA TAAGGGCCAT
    ATGGGTGTGC CAGGACTCAG GGGTGCCACT GGACAGCAAG GACCCCCAGG TGAACCAGGT
    GACCAGGGTG GACAAGGACT GAAAGGAGGG AGAGGATCTG AAGGTCCTCA GGGGAAAAGG
    GGAGTTCCTG GTCCTTCTGG GAAACCAGGC ATTCCCGGAG TTCCAGGCTT TCCCGGGCCA
    AAAGGCTTAC AAGGATACCC CGGAGTCGAC GGCATGTCAG GATACCCTGG GAAGCCTGGT
    CTACCAGGAA AACAAGGACT TCTGGGCGTG CCAGGCAGCC CAGGGAGAAC AGGACTGGCT
    GGATCCCCAG GTCCTCAAGG AGGAAAAGGC GCATCAGGCC CTCCAGGAAG CCCTGGTGCT
    CCAGGCCCAA AGGGTGAACA AGGGCTACCT GGTCAGCCTG GAGTTCCGGG TCAAAGAGGT
    CACCGAGGAA CACCAGGCGA CCAAGGACTC CGTGGAGCGC CTGGTCTGAA AGGGCAGCCT
    GGGGAACATG GTGATCAAGG TTTGACAGGT TTCCAGGGAT TCCCAGGCCC CAGAGGTCCC
    GAGGGGGATG CTGGCATTGT TGGAATTGTA GGCCCTAAAG GTCCCATTGG GCCAAGAGGA
    AACACTGGCC CTCTTGGCCG AGAAGGGATA ATAGGCCCAA CAGGTGGAAC TGGACCCAGA
    GGTGAAAAAG GCTTTAGAGG TGAAACTGGT CCCCAAGGGC CGAGAGGTCA ACCAGGACCC
    CCTGGTCCAC CTGGAGCACC TGGTCCAAGA AGACAAATGG ATATCAATGC TGCTATTCGA
    GCTCTGATAG AATCAAATTC TGCCCAGCAG ATGGAGAGTT ACCAGAACGC TGAAGGGACC
    TTAATCAGCC ACAGTTCAGA CATTTTCAAA ACCCTGACCT ACCTTAGCAG CATCCTGAGC
    AGCATCAAGA ATCCTCTTGG CACGCGAGAA AACCCAGCCC GGATCTGCAA GGATTTGCTC
    AGCTGTCAGT ACAAGGTTTC AGATGGAAAA TATTGGATCG ACCCAAATCT CGGATGCTCT
    TCAGATGCCT TTGAGGTTTT CTGCAACTTT AGTGCTGGAG GCCAGACATG TTTATCTCCT
    GTTTCTGTGA CAAAGTTGGA GTTTGGAGTC GGCAAAGTAC AGATGAACTT TCTTCACTTG
    CTGAGCTCAG AAGCCACCCA CACCATCACC ATTCACTGTC TAAACACCCC AAGGTGGAGC
    AGCACACGGG CGGATGGTCC AGAGTTGCCT ATTAGTTTCA GAGGATGGAA TGGTCAGATT
    TTTGAAGAAA ACACTCTACT TGAACCACAA GTCCTCTCAG ATGACTGCAA GATTCAGGAT
    GGCAGCTGGC ACAAAGCGAA ATTCCTTTTC CACACCCAGA ATCCTAATCA GCTTCCTGTG
    ACTGAAGTCC AAAACCTTCT TCACCTTGGA ACTGAGCAAA AGCGCTACAT TGAAAGCAAT
    TCCGTGTGCT TTCTCTAA

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

    CloneID OMv40701
    Clone ID Related Accession (Same CDS sequence) XM_021158013.2 , XM_021158013.1
    Accession Version XM_021158013.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5202bp)
    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 collagen alpha-1(XXIV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034572.1) 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_021158013.1. ##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
    ATGCATTTAG GAGCCTACAG GACAAGGCAT GGAAAGGTCT CCCCCACCAC AGAAACGAAA 
    CTGTTTCTTC GCTTTATTGT ACTATGTGTG GTGTGGATTT CTGTTCATGC ACAGGGACAA
    GGCATAGATA TTCTTCAGCA ACTAGGCCTT GGAGGCAGAG ATGTAAGATA CACGTCATCG
    GTGACAGCTG TGCCGTCATT GTCATGGTCC ACACCATTAC CTCAGGGGGT CCATTTAACG
    GACTTTGGTG TCATCTTAAC AGATAACGCC TATATTGAGT CACCTCTCGT GAACATTTTA
    CCCATTAGCC TAAGACAGCC ACTGACAGTA TTGATTGGGT TGCAATCATT CAAAGTGAAC
    AATGCATTTC TCTTCAGCAT TCGGAATAAC AACAGACTGC AGTTTGGCGT ACAGCTACTA
    CCTAAGAAAC TAATAGTTCA TGTCGGAGGA AAACAGACAG CAACCTTCAA CTACAGTGCC
    CATGATGAGC GATGGCACTC ATTCGCCATC ACTGTTGACC ACCACGTCGT CTCCATGTTT
    GTTGAGTGTG GAAAGAGACA TTTTAGTGGA GAGACGACTT CAGACGTTCA GACCTTTGAC
    CCTCACAGTG TGTTTACCTT GGGAAGTATA AATAACAGCT CTGCCCACTT TGAAGGAACA
    GTGTGCCAGT TGGATATCAT GCCTTCCACG GCGGCATCTG CGGAGTATTG CAGACACCTG
    AAACAGCAGT GCCCCAGAGC AGACGCATCC CAAGCTGAAA GAAACCTTCC TCACACGGCA
    GTAATGCCCA CCAGACATCC TGAGCACACT CCATTGCCCA GAGGATTTCC TGGAACAGAT
    TCACCACAGA AGAGATTCAC AGAGCATGCT TCCTTGCCAA AAGGATTTGA TGAAACAGAA
    CTGCCACAGG AGACGTTCGC TGATGGCAAA AGCGTTCCAA ACAACAGAAG TAATGGTTCT
    GCCACGGTAC ATGAAAGCCA AGAGCACCAG ACACCAAGGG CTCAGTTAAC TTCTTTCCAT
    TCAGGAAACA TCTCCGCTGT GACTCTCCCA AACTACAGAA TTCAGGCTAA AGACATCACC
    ACCAAGGAAG AAACAAATTT AACCCTGTCA GTGGTCCATC ACCTCCCTAA CGAGGCAAGA
    ATGAATGAAG AGGAGAAAAT TAATCCTCTC TTCGCTGGAT TCGACAACAT CACCCAACAC
    GAGGAGGCAG CTGGCCTGCC CCTGCCTAAG AAAGCATCAT CTGGCTTTGC ACACACAAAT
    CAAGATACCA CGAAGAACCT CGAGAAGGCT CTCACAGCAA ATCTATACAC CAATGAGCTC
    ATAGAAATGG AACGGATCTT AAACAGCACC TTGTATAGAG TGATGTACGG GCCCTCGGTG
    GATAACCACC TTGAACTAAG GAAGGAAGGT GAATTTTACC CTGATGCCAC GAATCCCATC
    GAAGGCAGCT ATGAGCCCCA GACTTATGAT TATTACTATT ATGAGGATTA CAACGCAATG
    CTTGACATGG AATATCTGAG AGGGCCGAAG GGAGACCCGG GACCTCCTGG TCCCCCTGGT
    CCGATGGGTA TCCCAGGTCC GTCAGGCAAG AGAGGCCCGC GGGGTATTCC GGGACCACAT
    GGAAATCCTG GGCTGCCTGG ACTGCCAGGT CCAAAGGGCC CCAAAGGAGA CCCTGGGCTG
    TCCCCAGGCC AAGCTGCCTC TGGAGAAAAG GGTGACCCAG GTCTTTTGGG GTTAGTGGGC
    CCCCCTGGCT TACAAGGTGC AAAGGGTCTC AAAGGACACC CAGGGCTCCC CGGACTCCGC
    GGCGAACACG GACTTCCAGG ACTCGCTGGT AATATTGGCT CACCTGGCTA CCCTGGCAGG
    CAGGGTTTAG CTGGACCAGA GGGTAACCCA GGCTCCAAAG GTGTCCGAGG TTTCATCGGT
    TCTCCTGGAG AGGTGGGACA GCTGGGACCT GAAGGAGAAA GGGGCACCCC TGGGGTCCGT
    GGGAAGAAGG GTCCGAAGGG GAGACAGGGT TTTCCAGGTG ACTTTGGAGA CAGAGGCCCT
    GCTGGTCTAG ATGGCAGTCC TGGGCTTGTA GGTGGCACCG GACCTCCCGG GTTTCCTGGT
    GTTACAGGAA GTGTTGGTCC TGCAGGACTG ACTGGACCTC CAGGAGCTCC TGGCCCAATG
    GGCCTTTCAG GAAGTAGAGG ACCATCTGGA ATCAAAGGTG ATAAGGGTGA GCAAGGTGTG
    GCAGGGGAGC CAGGAGAACC CGGGTATCCT GGAGACAAGG GCAACATTGG ATCACCAGGA
    CCACCAGGGA TACGAGGAAA GTCAGGACCT TCAGGACAAC CAGGTGACCC AGGACCACAG
    GGACCATCTG GCCCTCCAGG ACCAGAGGGT TTTCCGGGAG ACATTGGGAT TCCTGGACAA
    AATGGACCTG AAGGACCAAA GGGACATCTT GGAAACAGAG GGCCCCCTGG TCCTCCAGGT
    CTCAAAGGAA CTCAGGGAGA AGAAGGACCA ATTGGACCCT TTGGAGAACT GGGATCTAGG
    GGAAAACCAG GTCGCAAAGG GTATATGGGT GAACCAGGGC CAGAAGGCTT AAAGGGAGAA
    GTGGGAGACC AAGGAGATAT TGGGAAAACT GGTGAAACAG GACCCGTTGG TTTACCTGGA
    GAAGTAGGGA TAACCGGAAG CATTGGTGAG AAGGGAGAAC GTGGAAGTCC AGGCCCGCTT
    GGTCCCCAGG GGGAAAAAGG TGTCATGGGC TACCCAGGTC CTCCTGGGGC TCCAGGGCCC
    ATGGGCCCAC TTGGATTACC TGGTCTTGTT GGGGCAAGAG GCGCACCTGG GAGTCCGGGT
    CCTAAAGGAC AAAGAGGACC CAGAGGACCA GATGGCCTCG CAGGGGATCA AGGAGGACAA
    GGTGCTAAGG GTGAAAAAGG AAACCAAGGG AAAAGAGGGC TTTCTGGTCT CCCCGGTAAG
    GCTGGAAGCC CTGGGGAGAG GGGAGTTCAA GGAAAACCGG GCTTCCAAGG ACTCCCTGGC
    AGCTCAGGAG ACGTGGGGCC TGCCGGAGAA CCCGGACCAC GAGGACTGCC TGGTATTGCT
    GGACTTCCTG GAGAGATGGG TGTTGAGGGA CCTCCAGGCA CTGAGGGAGA CTCTGGCCTG
    CAAGGTGAAC CAGGTGCTAA GGGAGATGAT GGACCTGCTG GCAGTGCTGG AGCCACTGGG
    GAGCCGGGGC CGCGAGGAGA ACCAGGAGCC CCTGGAGAAG AAGGTCTCCA AGGAAAAGAT
    GGGTTAAAGG GGGCTCCAGG AGGAAGCGGA CTTCCTGGAG AGGATGGAGA CAAAGGAGAG
    ATGGGCTTAC CAGGAACAGC AGGGCCCGTG GGGAGACCAG GTCAGATGGG CCTTCCAGGA
    CCTGAAGGAA TTGTGGGAAC CCCGGGACAA AGAGGTCAAC TAGGGAAAAA GGGTGATAAA
    GGACAAGTAG GGCCCACGGG AGAAGCTGGA AGCAGAGGAC CCCCTGGAAG CGTTGGGGAA
    AATGGCCCGA AGGGTGCCAG AGGAACTCGA GGTGCTGTGG GTCCATTAGG ATTGATGGGA
    CCTGAAGGCG AACCAGGAAT CCCAGGATAC AGAGGCCATC AAGGTCAACC AGGACCCTCT
    GGATTGCCAG GACCCAAAGG AGAAAAGGGC TACCCAGGAG AAGACAGCAC AGTTCTGGGA
    CCTCCTGGGC CTCCAGGTGA ACCAGGGCCA ATGGGGGAGC AAGGAGAGAC AGGGGAACAT
    GGCGAAGAAG GCTATAAGGG CCATATGGGT GTGCCAGGAC TCAGGGGTGC CACTGGACAG
    CAAGGACCCC CAGGTGAACC AGGTGACCAG GGTGGACAAG GACTGAAAGG AGGGAGAGGA
    TCTGAAGGTC CTCAGGGGAA AAGGGGAGTT CCTGGTCCTT CTGGGAAACC AGGCATTCCC
    GGAGTTCCAG GCTTTCCCGG GCCAAAAGGC TTACAAGGAT ACCCCGGAGT CGACGGCATG
    TCAGGATACC CTGGGAAGCC TGGTCTACCA GGAAAACAAG GACTTCTGGG CGTGCCAGGC
    AGCCCAGGGA GAACAGGACT GGCTGGATCC CCAGGTCCTC AAGGAGGAAA AGGCGCATCA
    GGCCCTCCAG GAAGCCCTGG TGCTCCAGGC CCAAAGGGTG AACAAGGGCT ACCTGGTCAG
    CCTGGAGTTC CGGGTCAAAG AGGTCACCGA GGAACACCAG GCGACCAAGG ACTCCGTGGA
    GCGCCTGGTC TGAAAGGGCA GCCTGGGGAA CATGGTGATC AAGGTTTGAC AGGTTTCCAG
    GGATTCCCAG GCCCCAGAGG TCCCGAGGGG GATGCTGGCA TTGTTGGAAT TGTAGGCCCT
    AAAGGTCCCA TTGGGCCAAG AGGAAACACT GGCCCTCTTG GCCGAGAAGG GATAATAGGC
    CCAACAGGTG GAACTGGACC CAGAGGTGAA AAAGGCTTTA GAGGTGAAAC TGGTCCCCAA
    GGGCCGAGAG GTCAACCAGG ACCCCCTGGT CCACCTGGAG CACCTGGTCC AAGAAGACAA
    ATGGATATCA ATGCTGCTAT TCGAGCTCTG ATAGAATCAA ATTCTGCCCA GCAGATGGAG
    AGTTACCAGA ACGCTGAAGG GACCTTAATC AGCCACAGTT CAGACATTTT CAAAACCCTG
    ACCTACCTTA GCAGCATCCT GAGCAGCATC AAGAATCCTC TTGGCACGCG AGAAAACCCA
    GCCCGGATCT GCAAGGATTT GCTCAGCTGT CAGTACAAGG TTTCAGATGG AAAATATTGG
    ATCGACCCAA ATCTCGGATG CTCTTCAGAT GCCTTTGAGG TTTTCTGCAA CTTTAGTGCT
    GGAGGCCAGA CATGTTTATC TCCTGTTTCT GTGACAAAGT TGGAGTTTGG AGTCGGCAAA
    GTACAGATGA ACTTTCTTCA CTTGCTGAGC TCAGAAGCCA CCCACACCAT CACCATTCAC
    TGTCTAAACA CCCCAAGGTG GAGCAGCACA CGGGCGGATG GTCCAGAGTT GCCTATTAGT
    TTCAGAGGAT GGAATGGTCA GATTTTTGAA GAAAACACTC TACTTGAACC ACAAGTCCTC
    TCAGATGACT GCAAGATTCA GGATGGCAGC TGGCACAAAG CGAAATTCCT TTTCCACACC
    CAGAATCCTA ATCAGCTTCC TGTGACTGAA GTCCAAAACC TTCTTCACCT TGGAACTGAG
    CAAAAGCGCT ACATTGAAAG CAATTCCGTG TGCTTTCTCT AA

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

    RefSeq XP_021013672.1
    CDS649..5850
    Translation

    Target ORF information:

    RefSeq Version XM_021158013.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021158013.2

    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
    ATGCATTTAG GAGCCTACAG GACAAGGCAT GGAAAGGTCT CCCCCACCAC AGAAACGAAA 
    CTGTTTCTTC GCTTTATTGT ACTATGTGTG GTGTGGATTT CTGTTCATGC ACAGGGACAA
    GGCATAGATA TTCTTCAGCA ACTAGGCCTT GGAGGCAGAG ATGTAAGATA CACGTCATCG
    GTGACAGCTG TGCCGTCATT GTCATGGTCC ACACCATTAC CTCAGGGGGT CCATTTAACG
    GACTTTGGTG TCATCTTAAC AGATAACGCC TATATTGAGT CACCTCTCGT GAACATTTTA
    CCCATTAGCC TAAGACAGCC ACTGACAGTA TTGATTGGGT TGCAATCATT CAAAGTGAAC
    AATGCATTTC TCTTCAGCAT TCGGAATAAC AACAGACTGC AGTTTGGCGT ACAGCTACTA
    CCTAAGAAAC TAATAGTTCA TGTCGGAGGA AAACAGACAG CAACCTTCAA CTACAGTGCC
    CATGATGAGC GATGGCACTC ATTCGCCATC ACTGTTGACC ACCACGTCGT CTCCATGTTT
    GTTGAGTGTG GAAAGAGACA TTTTAGTGGA GAGACGACTT CAGACGTTCA GACCTTTGAC
    CCTCACAGTG TGTTTACCTT GGGAAGTATA AATAACAGCT CTGCCCACTT TGAAGGAACA
    GTGTGCCAGT TGGATATCAT GCCTTCCACG GCGGCATCTG CGGAGTATTG CAGACACCTG
    AAACAGCAGT GCCCCAGAGC AGACGCATCC CAAGCTGAAA GAAACCTTCC TCACACGGCA
    GTAATGCCCA CCAGACATCC TGAGCACACT CCATTGCCCA GAGGATTTCC TGGAACAGAT
    TCACCACAGA AGAGATTCAC AGAGCATGCT TCCTTGCCAA AAGGATTTGA TGAAACAGAA
    CTGCCACAGG AGACGTTCGC TGATGGCAAA AGCGTTCCAA ACAACAGAAG TAATGGTTCT
    GCCACGGTAC ATGAAAGCCA AGAGCACCAG ACACCAAGGG CTCAGTTAAC TTCTTTCCAT
    TCAGGAAACA TCTCCGCTGT GACTCTCCCA AACTACAGAA TTCAGGCTAA AGACATCACC
    ACCAAGGAAG AAACAAATTT AACCCTGTCA GTGGTCCATC ACCTCCCTAA CGAGGCAAGA
    ATGAATGAAG AGGAGAAAAT TAATCCTCTC TTCGCTGGAT TCGACAACAT CACCCAACAC
    GAGGAGGCAG CTGGCCTGCC CCTGCCTAAG AAAGCATCAT CTGGCTTTGC ACACACAAAT
    CAAGATACCA CGAAGAACCT CGAGAAGGCT CTCACAGCAA ATCTATACAC CAATGAGCTC
    ATAGAAATGG AACGGATCTT AAACAGCACC TTGTATAGAG TGATGTACGG GCCCTCGGTG
    GATAACCACC TTGAACTAAG GAAGGAAGGT GAATTTTACC CTGATGCCAC GAATCCCATC
    GAAGGCAGCT ATGAGCCCCA GACTTATGAT TATTACTATT ATGAGGATTA CAACGCAATG
    CTTGACATGG AATATCTGAG AGGGCCGAAG GGAGACCCGG GACCTCCTGG TCCCCCTGGT
    CCGATGGGTA TCCCAGGTCC GTCAGGCAAG AGAGGCCCGC GGGGTATTCC GGGACCACAT
    GGAAATCCTG GGCTGCCTGG ACTGCCAGGT CCAAAGGGCC CCAAAGGAGA CCCTGGGCTG
    TCCCCAGGCC AAGCTGCCTC TGGAGAAAAG GGTGACCCAG GTCTTTTGGG GTTAGTGGGC
    CCCCCTGGCT TACAAGGTGC AAAGGGTCTC AAAGGACACC CAGGGCTCCC CGGACTCCGC
    GGCGAACACG GACTTCCAGG ACTCGCTGGT AATATTGGCT CACCTGGCTA CCCTGGCAGG
    CAGGGTTTAG CTGGACCAGA GGGTAACCCA GGCTCCAAAG GTGTCCGAGG TTTCATCGGT
    TCTCCTGGAG AGGTGGGACA GCTGGGACCT GAAGGAGAAA GGGGCACCCC TGGGGTCCGT
    GGGAAGAAGG GTCCGAAGGG GAGACAGGGT TTTCCAGGTG ACTTTGGAGA CAGAGGCCCT
    GCTGGTCTAG ATGGCAGTCC TGGGCTTGTA GGTGGCACCG GACCTCCCGG GTTTCCTGGT
    GTTACAGGAA GTGTTGGTCC TGCAGGACTG ACTGGACCTC CAGGAGCTCC TGGCCCAATG
    GGCCTTTCAG GAAGTAGAGG ACCATCTGGA ATCAAAGGTG ATAAGGGTGA GCAAGGTGTG
    GCAGGGGAGC CAGGAGAACC CGGGTATCCT GGAGACAAGG GCAACATTGG ATCACCAGGA
    CCACCAGGGA TACGAGGAAA GTCAGGACCT TCAGGACAAC CAGGTGACCC AGGACCACAG
    GGACCATCTG GCCCTCCAGG ACCAGAGGGT TTTCCGGGAG ACATTGGGAT TCCTGGACAA
    AATGGACCTG AAGGACCAAA GGGACATCTT GGAAACAGAG GGCCCCCTGG TCCTCCAGGT
    CTCAAAGGAA CTCAGGGAGA AGAAGGACCA ATTGGACCCT TTGGAGAACT GGGATCTAGG
    GGAAAACCAG GTCGCAAAGG GTATATGGGT GAACCAGGGC CAGAAGGCTT AAAGGGAGAA
    GTGGGAGACC AAGGAGATAT TGGGAAAACT GGTGAAACAG GACCCGTTGG TTTACCTGGA
    GAAGTAGGGA TAACCGGAAG CATTGGTGAG AAGGGAGAAC GTGGAAGTCC AGGCCCGCTT
    GGTCCCCAGG GGGAAAAAGG TGTCATGGGC TACCCAGGTC CTCCTGGGGC TCCAGGGCCC
    ATGGGCCCAC TTGGATTACC TGGTCTTGTT GGGGCAAGAG GCGCACCTGG GAGTCCGGGT
    CCTAAAGGAC AAAGAGGACC CAGAGGACCA GATGGCCTCG CAGGGGATCA AGGAGGACAA
    GGTGCTAAGG GTGAAAAAGG AAACCAAGGG AAAAGAGGGC TTTCTGGTCT CCCCGGTAAG
    GCTGGAAGCC CTGGGGAGAG GGGAGTTCAA GGAAAACCGG GCTTCCAAGG ACTCCCTGGC
    AGCTCAGGAG ACGTGGGGCC TGCCGGAGAA CCCGGACCAC GAGGACTGCC TGGTATTGCT
    GGACTTCCTG GAGAGATGGG TGTTGAGGGA CCTCCAGGCA CTGAGGGAGA CTCTGGCCTG
    CAAGGTGAAC CAGGTGCTAA GGGAGATGAT GGACCTGCTG GCAGTGCTGG AGCCACTGGG
    GAGCCGGGGC CGCGAGGAGA ACCAGGAGCC CCTGGAGAAG AAGGTCTCCA AGGAAAAGAT
    GGGTTAAAGG GGGCTCCAGG AGGAAGCGGA CTTCCTGGAG AGGATGGAGA CAAAGGAGAG
    ATGGGCTTAC CAGGAACAGC AGGGCCCGTG GGGAGACCAG GTCAGATGGG CCTTCCAGGA
    CCTGAAGGAA TTGTGGGAAC CCCGGGACAA AGAGGTCAAC TAGGGAAAAA GGGTGATAAA
    GGACAAGTAG GGCCCACGGG AGAAGCTGGA AGCAGAGGAC CCCCTGGAAG CGTTGGGGAA
    AATGGCCCGA AGGGTGCCAG AGGAACTCGA GGTGCTGTGG GTCCATTAGG ATTGATGGGA
    CCTGAAGGCG AACCAGGAAT CCCAGGATAC AGAGGCCATC AAGGTCAACC AGGACCCTCT
    GGATTGCCAG GACCCAAAGG AGAAAAGGGC TACCCAGGAG AAGACAGCAC AGTTCTGGGA
    CCTCCTGGGC CTCCAGGTGA ACCAGGGCCA ATGGGGGAGC AAGGAGAGAC AGGGGAACAT
    GGCGAAGAAG GCTATAAGGG CCATATGGGT GTGCCAGGAC TCAGGGGTGC CACTGGACAG
    CAAGGACCCC CAGGTGAACC AGGTGACCAG GGTGGACAAG GACTGAAAGG AGGGAGAGGA
    TCTGAAGGTC CTCAGGGGAA AAGGGGAGTT CCTGGTCCTT CTGGGAAACC AGGCATTCCC
    GGAGTTCCAG GCTTTCCCGG GCCAAAAGGC TTACAAGGAT ACCCCGGAGT CGACGGCATG
    TCAGGATACC CTGGGAAGCC TGGTCTACCA GGAAAACAAG GACTTCTGGG CGTGCCAGGC
    AGCCCAGGGA GAACAGGACT GGCTGGATCC CCAGGTCCTC AAGGAGGAAA AGGCGCATCA
    GGCCCTCCAG GAAGCCCTGG TGCTCCAGGC CCAAAGGGTG AACAAGGGCT ACCTGGTCAG
    CCTGGAGTTC CGGGTCAAAG AGGTCACCGA GGAACACCAG GCGACCAAGG ACTCCGTGGA
    GCGCCTGGTC TGAAAGGGCA GCCTGGGGAA CATGGTGATC AAGGTTTGAC AGGTTTCCAG
    GGATTCCCAG GCCCCAGAGG TCCCGAGGGG GATGCTGGCA TTGTTGGAAT TGTAGGCCCT
    AAAGGTCCCA TTGGGCCAAG AGGAAACACT GGCCCTCTTG GCCGAGAAGG GATAATAGGC
    CCAACAGGTG GAACTGGACC CAGAGGTGAA AAAGGCTTTA GAGGTGAAAC TGGTCCCCAA
    GGGCCGAGAG GTCAACCAGG ACCCCCTGGT CCACCTGGAG CACCTGGTCC AAGAAGACAA
    ATGGATATCA ATGCTGCTAT TCGAGCTCTG ATAGAATCAA ATTCTGCCCA GCAGATGGAG
    AGTTACCAGA ACGCTGAAGG GACCTTAATC AGCCACAGTT CAGACATTTT CAAAACCCTG
    ACCTACCTTA GCAGCATCCT GAGCAGCATC AAGAATCCTC TTGGCACGCG AGAAAACCCA
    GCCCGGATCT GCAAGGATTT GCTCAGCTGT CAGTACAAGG TTTCAGATGG AAAATATTGG
    ATCGACCCAA ATCTCGGATG CTCTTCAGAT GCCTTTGAGG TTTTCTGCAA CTTTAGTGCT
    GGAGGCCAGA CATGTTTATC TCCTGTTTCT GTGACAAAGT TGGAGTTTGG AGTCGGCAAA
    GTACAGATGA ACTTTCTTCA CTTGCTGAGC TCAGAAGCCA CCCACACCAT CACCATTCAC
    TGTCTAAACA CCCCAAGGTG GAGCAGCACA CGGGCGGATG GTCCAGAGTT GCCTATTAGT
    TTCAGAGGAT GGAATGGTCA GATTTTTGAA GAAAACACTC TACTTGAACC ACAAGTCCTC
    TCAGATGACT GCAAGATTCA GGATGGCAGC TGGCACAAAG CGAAATTCCT TTTCCACACC
    CAGAATCCTA ATCAGCTTCC TGTGACTGAA GTCCAAAACC TTCTTCACCT TGGAACTGAG
    CAAAAGCGCT ACATTGAAAG CAATTCCGTG TGCTTTCTCT AA

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

    CloneID OMv40701
    Clone ID Related Accession (Same CDS sequence) XM_021158013.2 , XM_021158013.1
    Accession Version XM_021158013.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5202bp)
    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 collagen alpha-1(XXIV) chain isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034572.1) 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
    ATGCATTTAG GAGCCTACAG GACAAGGCAT GGAAAGGTCT CCCCCACCAC AGAAACGAAA 
    CTGTTTCTTC GCTTTATTGT ACTATGTGTG GTGTGGATTT CTGTTCATGC ACAGGGACAA
    GGCATAGATA TTCTTCAGCA ACTAGGCCTT GGAGGCAGAG ATGTAAGATA CACGTCATCG
    GTGACAGCTG TGCCGTCATT GTCATGGTCC ACACCATTAC CTCAGGGGGT CCATTTAACG
    GACTTTGGTG TCATCTTAAC AGATAACGCC TATATTGAGT CACCTCTCGT GAACATTTTA
    CCCATTAGCC TAAGACAGCC ACTGACAGTA TTGATTGGGT TGCAATCATT CAAAGTGAAC
    AATGCATTTC TCTTCAGCAT TCGGAATAAC AACAGACTGC AGTTTGGCGT ACAGCTACTA
    CCTAAGAAAC TAATAGTTCA TGTCGGAGGA AAACAGACAG CAACCTTCAA CTACAGTGCC
    CATGATGAGC GATGGCACTC ATTCGCCATC ACTGTTGACC ACCACGTCGT CTCCATGTTT
    GTTGAGTGTG GAAAGAGACA TTTTAGTGGA GAGACGACTT CAGACGTTCA GACCTTTGAC
    CCTCACAGTG TGTTTACCTT GGGAAGTATA AATAACAGCT CTGCCCACTT TGAAGGAACA
    GTGTGCCAGT TGGATATCAT GCCTTCCACG GCGGCATCTG CGGAGTATTG CAGACACCTG
    AAACAGCAGT GCCCCAGAGC AGACGCATCC CAAGCTGAAA GAAACCTTCC TCACACGGCA
    GTAATGCCCA CCAGACATCC TGAGCACACT CCATTGCCCA GAGGATTTCC TGGAACAGAT
    TCACCACAGA AGAGATTCAC AGAGCATGCT TCCTTGCCAA AAGGATTTGA TGAAACAGAA
    CTGCCACAGG AGACGTTCGC TGATGGCAAA AGCGTTCCAA ACAACAGAAG TAATGGTTCT
    GCCACGGTAC ATGAAAGCCA AGAGCACCAG ACACCAAGGG CTCAGTTAAC TTCTTTCCAT
    TCAGGAAACA TCTCCGCTGT GACTCTCCCA AACTACAGAA TTCAGGCTAA AGACATCACC
    ACCAAGGAAG AAACAAATTT AACCCTGTCA GTGGTCCATC ACCTCCCTAA CGAGGCAAGA
    ATGAATGAAG AGGAGAAAAT TAATCCTCTC TTCGCTGGAT TCGACAACAT CACCCAACAC
    GAGGAGGCAG CTGGCCTGCC CCTGCCTAAG AAAGCATCAT CTGGCTTTGC ACACACAAAT
    CAAGATACCA CGAAGAACCT CGAGAAGGCT CTCACAGCAA ATCTATACAC CAATGAGCTC
    ATAGAAATGG AACGGATCTT AAACAGCACC TTGTATAGAG TGATGTACGG GCCCTCGGTG
    GATAACCACC TTGAACTAAG GAAGGAAGGT GAATTTTACC CTGATGCCAC GAATCCCATC
    GAAGGCAGCT ATGAGCCCCA GACTTATGAT TATTACTATT ATGAGGATTA CAACGCAATG
    CTTGACATGG AATATCTGAG AGGGCCGAAG GGAGACCCGG GACCTCCTGG TCCCCCTGGT
    CCGATGGGTA TCCCAGGTCC GTCAGGCAAG AGAGGCCCGC GGGGTATTCC GGGACCACAT
    GGAAATCCTG GGCTGCCTGG ACTGCCAGGT CCAAAGGGCC CCAAAGGAGA CCCTGGGCTG
    TCCCCAGGCC AAGCTGCCTC TGGAGAAAAG GGTGACCCAG GTCTTTTGGG GTTAGTGGGC
    CCCCCTGGCT TACAAGGTGC AAAGGGTCTC AAAGGACACC CAGGGCTCCC CGGACTCCGC
    GGCGAACACG GACTTCCAGG ACTCGCTGGT AATATTGGCT CACCTGGCTA CCCTGGCAGG
    CAGGGTTTAG CTGGACCAGA GGGTAACCCA GGCTCCAAAG GTGTCCGAGG TTTCATCGGT
    TCTCCTGGAG AGGTGGGACA GCTGGGACCT GAAGGAGAAA GGGGCACCCC TGGGGTCCGT
    GGGAAGAAGG GTCCGAAGGG GAGACAGGGT TTTCCAGGTG ACTTTGGAGA CAGAGGCCCT
    GCTGGTCTAG ATGGCAGTCC TGGGCTTGTA GGTGGCACCG GACCTCCCGG GTTTCCTGGT
    GTTACAGGAA GTGTTGGTCC TGCAGGACTG ACTGGACCTC CAGGAGCTCC TGGCCCAATG
    GGCCTTTCAG GAAGTAGAGG ACCATCTGGA ATCAAAGGTG ATAAGGGTGA GCAAGGTGTG
    GCAGGGGAGC CAGGAGAACC CGGGTATCCT GGAGACAAGG GCAACATTGG ATCACCAGGA
    CCACCAGGGA TACGAGGAAA GTCAGGACCT TCAGGACAAC CAGGTGACCC AGGACCACAG
    GGACCATCTG GCCCTCCAGG ACCAGAGGGT TTTCCGGGAG ACATTGGGAT TCCTGGACAA
    AATGGACCTG AAGGACCAAA GGGACATCTT GGAAACAGAG GGCCCCCTGG TCCTCCAGGT
    CTCAAAGGAA CTCAGGGAGA AGAAGGACCA ATTGGACCCT TTGGAGAACT GGGATCTAGG
    GGAAAACCAG GTCGCAAAGG GTATATGGGT GAACCAGGGC CAGAAGGCTT AAAGGGAGAA
    GTGGGAGACC AAGGAGATAT TGGGAAAACT GGTGAAACAG GACCCGTTGG TTTACCTGGA
    GAAGTAGGGA TAACCGGAAG CATTGGTGAG AAGGGAGAAC GTGGAAGTCC AGGCCCGCTT
    GGTCCCCAGG GGGAAAAAGG TGTCATGGGC TACCCAGGTC CTCCTGGGGC TCCAGGGCCC
    ATGGGCCCAC TTGGATTACC TGGTCTTGTT GGGGCAAGAG GCGCACCTGG GAGTCCGGGT
    CCTAAAGGAC AAAGAGGACC CAGAGGACCA GATGGCCTCG CAGGGGATCA AGGAGGACAA
    GGTGCTAAGG GTGAAAAAGG AAACCAAGGG AAAAGAGGGC TTTCTGGTCT CCCCGGTAAG
    GCTGGAAGCC CTGGGGAGAG GGGAGTTCAA GGAAAACCGG GCTTCCAAGG ACTCCCTGGC
    AGCTCAGGAG ACGTGGGGCC TGCCGGAGAA CCCGGACCAC GAGGACTGCC TGGTATTGCT
    GGACTTCCTG GAGAGATGGG TGTTGAGGGA CCTCCAGGCA CTGAGGGAGA CTCTGGCCTG
    CAAGGTGAAC CAGGTGCTAA GGGAGATGAT GGACCTGCTG GCAGTGCTGG AGCCACTGGG
    GAGCCGGGGC CGCGAGGAGA ACCAGGAGCC CCTGGAGAAG AAGGTCTCCA AGGAAAAGAT
    GGGTTAAAGG GGGCTCCAGG AGGAAGCGGA CTTCCTGGAG AGGATGGAGA CAAAGGAGAG
    ATGGGCTTAC CAGGAACAGC AGGGCCCGTG GGGAGACCAG GTCAGATGGG CCTTCCAGGA
    CCTGAAGGAA TTGTGGGAAC CCCGGGACAA AGAGGTCAAC TAGGGAAAAA GGGTGATAAA
    GGACAAGTAG GGCCCACGGG AGAAGCTGGA AGCAGAGGAC CCCCTGGAAG CGTTGGGGAA
    AATGGCCCGA AGGGTGCCAG AGGAACTCGA GGTGCTGTGG GTCCATTAGG ATTGATGGGA
    CCTGAAGGCG AACCAGGAAT CCCAGGATAC AGAGGCCATC AAGGTCAACC AGGACCCTCT
    GGATTGCCAG GACCCAAAGG AGAAAAGGGC TACCCAGGAG AAGACAGCAC AGTTCTGGGA
    CCTCCTGGGC CTCCAGGTGA ACCAGGGCCA ATGGGGGAGC AAGGAGAGAC AGGGGAACAT
    GGCGAAGAAG GCTATAAGGG CCATATGGGT GTGCCAGGAC TCAGGGGTGC CACTGGACAG
    CAAGGACCCC CAGGTGAACC AGGTGACCAG GGTGGACAAG GACTGAAAGG AGGGAGAGGA
    TCTGAAGGTC CTCAGGGGAA AAGGGGAGTT CCTGGTCCTT CTGGGAAACC AGGCATTCCC
    GGAGTTCCAG GCTTTCCCGG GCCAAAAGGC TTACAAGGAT ACCCCGGAGT CGACGGCATG
    TCAGGATACC CTGGGAAGCC TGGTCTACCA GGAAAACAAG GACTTCTGGG CGTGCCAGGC
    AGCCCAGGGA GAACAGGACT GGCTGGATCC CCAGGTCCTC AAGGAGGAAA AGGCGCATCA
    GGCCCTCCAG GAAGCCCTGG TGCTCCAGGC CCAAAGGGTG AACAAGGGCT ACCTGGTCAG
    CCTGGAGTTC CGGGTCAAAG AGGTCACCGA GGAACACCAG GCGACCAAGG ACTCCGTGGA
    GCGCCTGGTC TGAAAGGGCA GCCTGGGGAA CATGGTGATC AAGGTTTGAC AGGTTTCCAG
    GGATTCCCAG GCCCCAGAGG TCCCGAGGGG GATGCTGGCA TTGTTGGAAT TGTAGGCCCT
    AAAGGTCCCA TTGGGCCAAG AGGAAACACT GGCCCTCTTG GCCGAGAAGG GATAATAGGC
    CCAACAGGTG GAACTGGACC CAGAGGTGAA AAAGGCTTTA GAGGTGAAAC TGGTCCCCAA
    GGGCCGAGAG GTCAACCAGG ACCCCCTGGT CCACCTGGAG CACCTGGTCC AAGAAGACAA
    ATGGATATCA ATGCTGCTAT TCGAGCTCTG ATAGAATCAA ATTCTGCCCA GCAGATGGAG
    AGTTACCAGA ACGCTGAAGG GACCTTAATC AGCCACAGTT CAGACATTTT CAAAACCCTG
    ACCTACCTTA GCAGCATCCT GAGCAGCATC AAGAATCCTC TTGGCACGCG AGAAAACCCA
    GCCCGGATCT GCAAGGATTT GCTCAGCTGT CAGTACAAGG TTTCAGATGG AAAATATTGG
    ATCGACCCAA ATCTCGGATG CTCTTCAGAT GCCTTTGAGG TTTTCTGCAA CTTTAGTGCT
    GGAGGCCAGA CATGTTTATC TCCTGTTTCT GTGACAAAGT TGGAGTTTGG AGTCGGCAAA
    GTACAGATGA ACTTTCTTCA CTTGCTGAGC TCAGAAGCCA CCCACACCAT CACCATTCAC
    TGTCTAAACA CCCCAAGGTG GAGCAGCACA CGGGCGGATG GTCCAGAGTT GCCTATTAGT
    TTCAGAGGAT GGAATGGTCA GATTTTTGAA GAAAACACTC TACTTGAACC ACAAGTCCTC
    TCAGATGACT GCAAGATTCA GGATGGCAGC TGGCACAAAG CGAAATTCCT TTTCCACACC
    CAGAATCCTA ATCAGCTTCC TGTGACTGAA GTCCAAAACC TTCTTCACCT TGGAACTGAG
    CAAAAGCGCT ACATTGAAAG CAATTCCGTG TGCTTTCTCT AA

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

    RefSeq XP_021013672.1
    CDS649..5850
    Translation

    Target ORF information:

    RefSeq Version XM_021158013.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli collagen type XXIV alpha 1 chain (Col24a1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021158013.1

    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
    ATGCATTTAG GAGCCTACAG GACAAGGCAT GGAAAGGTCT CCCCCACCAC AGAAACGAAA 
    CTGTTTCTTC GCTTTATTGT ACTATGTGTG GTGTGGATTT CTGTTCATGC ACAGGGACAA
    GGCATAGATA TTCTTCAGCA ACTAGGCCTT GGAGGCAGAG ATGTAAGATA CACGTCATCG
    GTGACAGCTG TGCCGTCATT GTCATGGTCC ACACCATTAC CTCAGGGGGT CCATTTAACG
    GACTTTGGTG TCATCTTAAC AGATAACGCC TATATTGAGT CACCTCTCGT GAACATTTTA
    CCCATTAGCC TAAGACAGCC ACTGACAGTA TTGATTGGGT TGCAATCATT CAAAGTGAAC
    AATGCATTTC TCTTCAGCAT TCGGAATAAC AACAGACTGC AGTTTGGCGT ACAGCTACTA
    CCTAAGAAAC TAATAGTTCA TGTCGGAGGA AAACAGACAG CAACCTTCAA CTACAGTGCC
    CATGATGAGC GATGGCACTC ATTCGCCATC ACTGTTGACC ACCACGTCGT CTCCATGTTT
    GTTGAGTGTG GAAAGAGACA TTTTAGTGGA GAGACGACTT CAGACGTTCA GACCTTTGAC
    CCTCACAGTG TGTTTACCTT GGGAAGTATA AATAACAGCT CTGCCCACTT TGAAGGAACA
    GTGTGCCAGT TGGATATCAT GCCTTCCACG GCGGCATCTG CGGAGTATTG CAGACACCTG
    AAACAGCAGT GCCCCAGAGC AGACGCATCC CAAGCTGAAA GAAACCTTCC TCACACGGCA
    GTAATGCCCA CCAGACATCC TGAGCACACT CCATTGCCCA GAGGATTTCC TGGAACAGAT
    TCACCACAGA AGAGATTCAC AGAGCATGCT TCCTTGCCAA AAGGATTTGA TGAAACAGAA
    CTGCCACAGG AGACGTTCGC TGATGGCAAA AGCGTTCCAA ACAACAGAAG TAATGGTTCT
    GCCACGGTAC ATGAAAGCCA AGAGCACCAG ACACCAAGGG CTCAGTTAAC TTCTTTCCAT
    TCAGGAAACA TCTCCGCTGT GACTCTCCCA AACTACAGAA TTCAGGCTAA AGACATCACC
    ACCAAGGAAG AAACAAATTT AACCCTGTCA GTGGTCCATC ACCTCCCTAA CGAGGCAAGA
    ATGAATGAAG AGGAGAAAAT TAATCCTCTC TTCGCTGGAT TCGACAACAT CACCCAACAC
    GAGGAGGCAG CTGGCCTGCC CCTGCCTAAG AAAGCATCAT CTGGCTTTGC ACACACAAAT
    CAAGATACCA CGAAGAACCT CGAGAAGGCT CTCACAGCAA ATCTATACAC CAATGAGCTC
    ATAGAAATGG AACGGATCTT AAACAGCACC TTGTATAGAG TGATGTACGG GCCCTCGGTG
    GATAACCACC TTGAACTAAG GAAGGAAGGT GAATTTTACC CTGATGCCAC GAATCCCATC
    GAAGGCAGCT ATGAGCCCCA GACTTATGAT TATTACTATT ATGAGGATTA CAACGCAATG
    CTTGACATGG AATATCTGAG AGGGCCGAAG GGAGACCCGG GACCTCCTGG TCCCCCTGGT
    CCGATGGGTA TCCCAGGTCC GTCAGGCAAG AGAGGCCCGC GGGGTATTCC GGGACCACAT
    GGAAATCCTG GGCTGCCTGG ACTGCCAGGT CCAAAGGGCC CCAAAGGAGA CCCTGGGCTG
    TCCCCAGGCC AAGCTGCCTC TGGAGAAAAG GGTGACCCAG GTCTTTTGGG GTTAGTGGGC
    CCCCCTGGCT TACAAGGTGC AAAGGGTCTC AAAGGACACC CAGGGCTCCC CGGACTCCGC
    GGCGAACACG GACTTCCAGG ACTCGCTGGT AATATTGGCT CACCTGGCTA CCCTGGCAGG
    CAGGGTTTAG CTGGACCAGA GGGTAACCCA GGCTCCAAAG GTGTCCGAGG TTTCATCGGT
    TCTCCTGGAG AGGTGGGACA GCTGGGACCT GAAGGAGAAA GGGGCACCCC TGGGGTCCGT
    GGGAAGAAGG GTCCGAAGGG GAGACAGGGT TTTCCAGGTG ACTTTGGAGA CAGAGGCCCT
    GCTGGTCTAG ATGGCAGTCC TGGGCTTGTA GGTGGCACCG GACCTCCCGG GTTTCCTGGT
    GTTACAGGAA GTGTTGGTCC TGCAGGACTG ACTGGACCTC CAGGAGCTCC TGGCCCAATG
    GGCCTTTCAG GAAGTAGAGG ACCATCTGGA ATCAAAGGTG ATAAGGGTGA GCAAGGTGTG
    GCAGGGGAGC CAGGAGAACC CGGGTATCCT GGAGACAAGG GCAACATTGG ATCACCAGGA
    CCACCAGGGA TACGAGGAAA GTCAGGACCT TCAGGACAAC CAGGTGACCC AGGACCACAG
    GGACCATCTG GCCCTCCAGG ACCAGAGGGT TTTCCGGGAG ACATTGGGAT TCCTGGACAA
    AATGGACCTG AAGGACCAAA GGGACATCTT GGAAACAGAG GGCCCCCTGG TCCTCCAGGT
    CTCAAAGGAA CTCAGGGAGA AGAAGGACCA ATTGGACCCT TTGGAGAACT GGGATCTAGG
    GGAAAACCAG GTCGCAAAGG GTATATGGGT GAACCAGGGC CAGAAGGCTT AAAGGGAGAA
    GTGGGAGACC AAGGAGATAT TGGGAAAACT GGTGAAACAG GACCCGTTGG TTTACCTGGA
    GAAGTAGGGA TAACCGGAAG CATTGGTGAG AAGGGAGAAC GTGGAAGTCC AGGCCCGCTT
    GGTCCCCAGG GGGAAAAAGG TGTCATGGGC TACCCAGGTC CTCCTGGGGC TCCAGGGCCC
    ATGGGCCCAC TTGGATTACC TGGTCTTGTT GGGGCAAGAG GCGCACCTGG GAGTCCGGGT
    CCTAAAGGAC AAAGAGGACC CAGAGGACCA GATGGCCTCG CAGGGGATCA AGGAGGACAA
    GGTGCTAAGG GTGAAAAAGG AAACCAAGGG AAAAGAGGGC TTTCTGGTCT CCCCGGTAAG
    GCTGGAAGCC CTGGGGAGAG GGGAGTTCAA GGAAAACCGG GCTTCCAAGG ACTCCCTGGC
    AGCTCAGGAG ACGTGGGGCC TGCCGGAGAA CCCGGACCAC GAGGACTGCC TGGTATTGCT
    GGACTTCCTG GAGAGATGGG TGTTGAGGGA CCTCCAGGCA CTGAGGGAGA CTCTGGCCTG
    CAAGGTGAAC CAGGTGCTAA GGGAGATGAT GGACCTGCTG GCAGTGCTGG AGCCACTGGG
    GAGCCGGGGC CGCGAGGAGA ACCAGGAGCC CCTGGAGAAG AAGGTCTCCA AGGAAAAGAT
    GGGTTAAAGG GGGCTCCAGG AGGAAGCGGA CTTCCTGGAG AGGATGGAGA CAAAGGAGAG
    ATGGGCTTAC CAGGAACAGC AGGGCCCGTG GGGAGACCAG GTCAGATGGG CCTTCCAGGA
    CCTGAAGGAA TTGTGGGAAC CCCGGGACAA AGAGGTCAAC TAGGGAAAAA GGGTGATAAA
    GGACAAGTAG GGCCCACGGG AGAAGCTGGA AGCAGAGGAC CCCCTGGAAG CGTTGGGGAA
    AATGGCCCGA AGGGTGCCAG AGGAACTCGA GGTGCTGTGG GTCCATTAGG ATTGATGGGA
    CCTGAAGGCG AACCAGGAAT CCCAGGATAC AGAGGCCATC AAGGTCAACC AGGACCCTCT
    GGATTGCCAG GACCCAAAGG AGAAAAGGGC TACCCAGGAG AAGACAGCAC AGTTCTGGGA
    CCTCCTGGGC CTCCAGGTGA ACCAGGGCCA ATGGGGGAGC AAGGAGAGAC AGGGGAACAT
    GGCGAAGAAG GCTATAAGGG CCATATGGGT GTGCCAGGAC TCAGGGGTGC CACTGGACAG
    CAAGGACCCC CAGGTGAACC AGGTGACCAG GGTGGACAAG GACTGAAAGG AGGGAGAGGA
    TCTGAAGGTC CTCAGGGGAA AAGGGGAGTT CCTGGTCCTT CTGGGAAACC AGGCATTCCC
    GGAGTTCCAG GCTTTCCCGG GCCAAAAGGC TTACAAGGAT ACCCCGGAGT CGACGGCATG
    TCAGGATACC CTGGGAAGCC TGGTCTACCA GGAAAACAAG GACTTCTGGG CGTGCCAGGC
    AGCCCAGGGA GAACAGGACT GGCTGGATCC CCAGGTCCTC AAGGAGGAAA AGGCGCATCA
    GGCCCTCCAG GAAGCCCTGG TGCTCCAGGC CCAAAGGGTG AACAAGGGCT ACCTGGTCAG
    CCTGGAGTTC CGGGTCAAAG AGGTCACCGA GGAACACCAG GCGACCAAGG ACTCCGTGGA
    GCGCCTGGTC TGAAAGGGCA GCCTGGGGAA CATGGTGATC AAGGTTTGAC AGGTTTCCAG
    GGATTCCCAG GCCCCAGAGG TCCCGAGGGG GATGCTGGCA TTGTTGGAAT TGTAGGCCCT
    AAAGGTCCCA TTGGGCCAAG AGGAAACACT GGCCCTCTTG GCCGAGAAGG GATAATAGGC
    CCAACAGGTG GAACTGGACC CAGAGGTGAA AAAGGCTTTA GAGGTGAAAC TGGTCCCCAA
    GGGCCGAGAG GTCAACCAGG ACCCCCTGGT CCACCTGGAG CACCTGGTCC AAGAAGACAA
    ATGGATATCA ATGCTGCTAT TCGAGCTCTG ATAGAATCAA ATTCTGCCCA GCAGATGGAG
    AGTTACCAGA ACGCTGAAGG GACCTTAATC AGCCACAGTT CAGACATTTT CAAAACCCTG
    ACCTACCTTA GCAGCATCCT GAGCAGCATC AAGAATCCTC TTGGCACGCG AGAAAACCCA
    GCCCGGATCT GCAAGGATTT GCTCAGCTGT CAGTACAAGG TTTCAGATGG AAAATATTGG
    ATCGACCCAA ATCTCGGATG CTCTTCAGAT GCCTTTGAGG TTTTCTGCAA CTTTAGTGCT
    GGAGGCCAGA CATGTTTATC TCCTGTTTCT GTGACAAAGT TGGAGTTTGG AGTCGGCAAA
    GTACAGATGA ACTTTCTTCA CTTGCTGAGC TCAGAAGCCA CCCACACCAT CACCATTCAC
    TGTCTAAACA CCCCAAGGTG GAGCAGCACA CGGGCGGATG GTCCAGAGTT GCCTATTAGT
    TTCAGAGGAT GGAATGGTCA GATTTTTGAA GAAAACACTC TACTTGAACC ACAAGTCCTC
    TCAGATGACT GCAAGATTCA GGATGGCAGC TGGCACAAAG CGAAATTCCT TTTCCACACC
    CAGAATCCTA ATCAGCTTCC TGTGACTGAA GTCCAAAACC TTCTTCACCT TGGAACTGAG
    CAAAAGCGCT ACATTGAAAG CAATTCCGTG TGCTTTCTCT AA

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