Adamts7 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Adamts7 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts7 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
OMv09413 XM_021173221.1
Latest version!
Mus caroli ADAM metallopeptidase with thrombospondin type 1 motif 7 (Adamts7), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv76225 XM_029481977.1
Latest version!
Mus caroli ADAM metallopeptidase with thrombospondin type 1 motif 7 (Adamts7), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OMv09413
    Clone ID Related Accession (Same CDS sequence) XM_021173221.1
    Accession Version XM_021173221.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon. 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
    ATGCACCGTG GTCCGAGTCT CCTCCTGATC CTGTGCGCTC TGGCGCCTCG CGTCCGACCT 
    GCATCAGGTC TTGTGACTGA GGGCCGGGCG GGTTTGGACA TCGTGCACCC GGTGCGAGTA
    GATGCTGGAG GCTCCTTCCT GTCCTATGAG CTGTGGCCAC GGGTGCTGCG CAAGCGCGAT
    GTGTCCACCA TGCAGGCTTC GTCTGCTTTC TACCAGCTGC AGTACCAAGG GCGGGAACTG
    CTTTTCAACT TGACCACCAA CCCTTATCTG ATGGCTCCCG GCTTTGTGAG TGAGATTCGA
    CGTCACAGCA GTTTAGGCCA TGCGCACATC CAAACCAGTG TCCCAACCTG CCATTTGCTT
    GGTGATGTCC AGGACCCGGA GCTGGAAGGA GGCTTTGCAG CCATTAGCGC CTGCGATGGC
    CTAAGAGGTG TGTTCCAGCT CTCCAATGAG GACTACTTCA TTGAGCCTCT GGATGGAGTT
    TCAGCTCAGC CTGGACATGC CCAGCCCCAT GTGGTATACA AGCACCAAGG CTCTAGGAAG
    CAGGCCCAGC AGGGTGACTC AAGGCCTTCA GGCACCTGTG GGATGCAAGT GCCCCCAGAT
    CTGGAGCAGC AGCGAGAACA TTGGGAACAG CAGCAGCAGA AGCGGAGGCA GCAGCGATCA
    GTCAGCAAAG AGAAGTGGGT GGAGACCTTG GTAGTGGCTG ATTCCAAGAT GGTGGAGTAC
    CACGGGCAGC CGCAAGTGGA GAGCTATGTG CTGACAATCA TGAACATGGT GGCTGGACTC
    TTTCACGATC CAAGCATTGG GAACCCCATT CACATCAGCA TTGTGCGCCT TATCATACTG
    GAAGACGAGG AGAAGGACTT AAAGATCACA CACCATGCCG AAGAGACTCT GAAAAACTTC
    TGTAGGTGGC AGAAGAACAT TAACATAAAG GGGGATGACC ACCCACAGCA CCATGACACT
    GCCATCCTGC TCACCAGGAA GGATTTGTGT GCATCCATGA ACCAGCCCTG TGAAACCCTG
    GGCCTGTCTC ATGTGTCTGG CTTGTGCCAC CCTCAGCTCA GCTGTAGCGT CAGTGAGGAT
    ACTGGCATGC CACTGGCCTT CACTGTGGCC CACGAGNTAG GACACAGTTT TGGCATTCAG
    CATGACGGCA CCGGCAATGA CTGTGAATCC ATTGGGAAAC GGCCTTTCAT CATGTCTCCA
    CAGCTCCTGT ATGACAGAGG CATTCCTCTC ACCTGGTCCC GCTGCAGCNG CGAGTACATC
    ACCAGGTTCC TTGACCGTGG GTGGGGCCTG TGCTTAGATG ACCGTCCATC CAAGGATGTC
    ATTGCACTCC CCTCGGTGCT GCCCGGTGTC CTGTACGATC GGAAGCGGTT CCAGATCTGC
    CACCTGCCAG CCTGCCCGCC GGACCGTCCC TCTTTCCGTC ACACCCAGTG TAGCCACTTT
    GATGGCATGC TGTACAAGGG CAAGCTCCAT AAATGGGTGC CTGTGCCCAA TGATGACAAC
    CCCTGTGAGC TGCACTGCCG GCCCTCCAAC TCCTCCAATA CAGAGAAGCT GAGGGATGCT
    GTGGTGGATG GCACCCCTTG CTACCAAGGC CGCGTCAGCC GTGACATCTG CCTCAACGGC
    ATCTGTAAGA ACGTGGGCTG CGACTTTGTG ATTGACTCTG GTGCTGAGGA GGACCGCTGT
    GGCGTGTGCC GGGGGGATGG CTCTACTTGC CAGACTGTGA GCAGGACCTT CAAGGAGACT
    GAAGGCCAGG GGTATGTGGA TGTAGGGCTG ATCCCAGCCG GAGCCAGAGA GATTCTTATT
    GAGGAGGTGG CTGAGGCTGC TAACTTCCTG GCCCTGCGGA GTGAGGACCC AGATAAGTAC
    TTTCTCAATG GAGGCTGGAC CATCCAGTGG AATGGAGACT ACCGAGTGGC AGGCACTACC
    TTCACCTATG CACGAAAGGG CAACTGGGAG AATCTCACAT CCCCAGGCCC CACCAGTGAG
    CCTGTCTGGA TCCAGCTGCT GTTCCAGGAG AAGAACCCTG GGGTACACTA CCAGTACACC
    ATCCAGAGGG ACAGCCACGA TCAAGTCCGG CCACCTGAGT TCTCCTGGCA TTATGGGCCC
    TGGAGCAAGT GCACGGTCAC TTGTGGCACA GGCATGCAGA GGCAGAGTTT ATACTGCATG
    GAGAGGCAGG CCGGGGTGGT TGCCGAGGAA TACTGTAACA CTCTAAATCG GCCCGATGAA
    CGCCAGAGGA AATGCAGTGA GGAGCCCTGT CCCCCCAGGT GGTGGGCAGG GGAGTGGCAG
    CCGTGTTCCC AATCCTGCGG GCCTGAAGGC GTCTCTCGCC GGGCTGTGTT CTGCATACGT
    AGTATGGGGC TGGATGAGCA GCGTGCTCTT GAGCTATCTG CCTGCGAACA TCTTCCTCGT
    CCCCTGGCTG AAACCCCATG CAACCGTCAT GTAATCTGTC CTTCCACTTG GGGTGTGGGG
    AACTGGTCTC AGTGCTCTGT GACATGTGGA GCTGGCATTC GGCAACGAAG TGTCCTCTGC
    ATCAACAACA CTGATGTCCC CTGTGATGAA GCTGAGCGAC CAATAACTGA GACCTTTTGT
    TTTCTGCAAC CCTGCCAGTA TCCCATGTAC ATAGTGGACA CAGGTGCCTC TGGAAGCGGC
    TCCTCCAGCC CCGAGCTCTT CAATGAGGTT GACTTCATCC CGAACCAGCT GGCCCCACGA
    CCTTCCCCAG CATCCTCACC CAAGCCGGTC AGCATCAGCA ACGCTATTGA TGAGGAGGAA
    CTAGATCCGC CAGGGCCCGT GTTTGTGGAT GATTTCTATT ATGACTACAA TTTCATTAAC
    TTCCATGAAG ACCTGTCCTA TGGGTCCTTT GAAGAACCCC ATCCAGACCT GGTTGATATT
    GGGGGTTGGA CAGAACCACC TCACATCAGA CCCACTGAAT CCCCCTCAGA CAGCCCAGTA
    CCTACTGCAG GGGCTCTTGG AGCTGAGGAA GAAGACATTC AGGGATCTTG GTCTCCTAGC
    CCCTTACTCA GTGAGGCTAG CTATTCCCCA TCAGTATTAG AGCAGACCTC CATCAACCCC
    TTGGCCAATT TCTTGACTGA GGAAGATACT CCCATGGGGG CCCCTGAACT TGGATTCCCC
    AGCTTGCCCT GGCCCCCTGC TTCAGTTGAT GATATGATGA CACCTGTTGT CCCTGGAAAC
    CCTGATGAGT TGCTAGTGGA AGAAGATGAG CAGAGCCCGC CATCCACTCC ATGGTCTGAT
    AGGAACAAAC TTTCTACAGA TGGTAACCCC TTGGGTCATA CATCCCCTGC CCTGCCCCAA
    AGCCCTATCC CCACACAGCC CTCTCCACCC TCCATCAGTC CTACCCAAGC TTCTCCGAGT
    CCTGATGTGG TAGAGGTGTC GACAGGATGG AATGCGGCCT GGGACCCTGT GCTAGAGGCT
    GACCAGAAGC CCGGACACGT ACCAACTGAC CTGAGGAGCC CGGAACCATC GGGCCAGCCA
    CAGACCCCTA ACCTTGAGGG AACCCAGAGC CCTGGGTTGC TGCCTACATC AGCTCGGGAG
    ACTCAAACTA ACAGTAGCAA GGATCCTGAG GTCCAGCCAT TGCAGCCCAG CCTAGAGGAG
    GATGGTGCCC CCGCAGATTC ACTGCCTGCC AGGAATGCCA GCTGGCAAGT AGGAAACTGG
    AGCCAGTGTT CCACCACCTG TGGCCTGGGC GCCATCTGGA GGCTAGTGAG CTGCAGCTCT
    GGCAATGATG AGGACTGCAC CCTCGCTAGC CGTCCCCAGC CTGCCCGCCA TTGTCATCTG
    AGGCCCTGTG CTGCCTGGCG CGCGGGCAAC TGGAGTAAGT GCTCTCGAAA CTGTGGTGGA
    GGTTCCTCTA CAAGGGATGT ACAGTGTGTG GATACACGGG ACCTCCGGCC ACTGCGGCCC
    TTTCACTGCC AGCCCGGGCC TACCAAGCCA CCCAACCGTC AGCTCTGTGG GACCCAGCCC
    TGCCTCCCCT GGTACACCTC CTCCTGGAGA GAGTGTTCTG AGGCTTGTGG TGGTGGTGAA
    CAGCAGCGTC TGGTGACATG TCCAGAGCCA GGCCTCTGTG AGGAGTCGCT GAGACCCAAC
    AACAGCAGGC CCTGCAACAC CCACCCCTGC ACACAGTGGG TGGTAGGGCC CTGGGGTCAG
    TGCTCAGCCC CCTGTTGTGA GCGGGATCGC CTGTCCTTCA ATTTCTGTGA GACGCTGCGC
    CTGCTGGGCC GCTGCCAGCT GCCCACCATA CGCGCTCAGT GCTGCCGTTC ATGTCCCCCA
    CTCAGCCGTG GTGTCCCTAC CCGAGGCCAT CATCGGGTGG CCAGACGGTA A

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

    RefSeq XP_021028880.1
    CDS91..4401
    Translation

    Target ORF information:

    RefSeq Version XM_021173221.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ADAM metallopeptidase with thrombospondin type 1 motif 7 (Adamts7), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021173221.1

    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
    ATGCACCGTG GTCCGAGTCT CCTCCTGATC CTGTGCGCTC TGGCGCCTCG CGTCCGACCT 
    GCATCAGGTC TTGTGACTGA GGGCCGGGCG GGTTTGGACA TCGTGCACCC GGTGCGAGTA
    GATGCTGGAG GCTCCTTCCT GTCCTATGAG CTGTGGCCAC GGGTGCTGCG CAAGCGCGAT
    GTGTCCACCA TGCAGGCTTC GTCTGCTTTC TACCAGCTGC AGTACCAAGG GCGGGAACTG
    CTTTTCAACT TGACCACCAA CCCTTATCTG ATGGCTCCCG GCTTTGTGAG TGAGATTCGA
    CGTCACAGCA GTTTAGGCCA TGCGCACATC CAAACCAGTG TCCCAACCTG CCATTTGCTT
    GGTGATGTCC AGGACCCGGA GCTGGAAGGA GGCTTTGCAG CCATTAGCGC CTGCGATGGC
    CTAAGAGGTG TGTTCCAGCT CTCCAATGAG GACTACTTCA TTGAGCCTCT GGATGGAGTT
    TCAGCTCAGC CTGGACATGC CCAGCCCCAT GTGGTATACA AGCACCAAGG CTCTAGGAAG
    CAGGCCCAGC AGGGTGACTC AAGGCCTTCA GGCACCTGTG GGATGCAAGT GCCCCCAGAT
    CTGGAGCAGC AGCGAGAACA TTGGGAACAG CAGCAGCAGA AGCGGAGGCA GCAGCGATCA
    GTCAGCAAAG AGAAGTGGGT GGAGACCTTG GTAGTGGCTG ATTCCAAGAT GGTGGAGTAC
    CACGGGCAGC CGCAAGTGGA GAGCTATGTG CTGACAATCA TGAACATGGT GGCTGGACTC
    TTTCACGATC CAAGCATTGG GAACCCCATT CACATCAGCA TTGTGCGCCT TATCATACTG
    GAAGACGAGG AGAAGGACTT AAAGATCACA CACCATGCCG AAGAGACTCT GAAAAACTTC
    TGTAGGTGGC AGAAGAACAT TAACATAAAG GGGGATGACC ACCCACAGCA CCATGACACT
    GCCATCCTGC TCACCAGGAA GGATTTGTGT GCATCCATGA ACCAGCCCTG TGAAACCCTG
    GGCCTGTCTC ATGTGTCTGG CTTGTGCCAC CCTCAGCTCA GCTGTAGCGT CAGTGAGGAT
    ACTGGCATGC CACTGGCCTT CACTGTGGCC CACGAGNTAG GACACAGTTT TGGCATTCAG
    CATGACGGCA CCGGCAATGA CTGTGAATCC ATTGGGAAAC GGCCTTTCAT CATGTCTCCA
    CAGCTCCTGT ATGACAGAGG CATTCCTCTC ACCTGGTCCC GCTGCAGCNG CGAGTACATC
    ACCAGGTTCC TTGACCGTGG GTGGGGCCTG TGCTTAGATG ACCGTCCATC CAAGGATGTC
    ATTGCACTCC CCTCGGTGCT GCCCGGTGTC CTGTACGATC GGAAGCGGTT CCAGATCTGC
    CACCTGCCAG CCTGCCCGCC GGACCGTCCC TCTTTCCGTC ACACCCAGTG TAGCCACTTT
    GATGGCATGC TGTACAAGGG CAAGCTCCAT AAATGGGTGC CTGTGCCCAA TGATGACAAC
    CCCTGTGAGC TGCACTGCCG GCCCTCCAAC TCCTCCAATA CAGAGAAGCT GAGGGATGCT
    GTGGTGGATG GCACCCCTTG CTACCAAGGC CGCGTCAGCC GTGACATCTG CCTCAACGGC
    ATCTGTAAGA ACGTGGGCTG CGACTTTGTG ATTGACTCTG GTGCTGAGGA GGACCGCTGT
    GGCGTGTGCC GGGGGGATGG CTCTACTTGC CAGACTGTGA GCAGGACCTT CAAGGAGACT
    GAAGGCCAGG GGTATGTGGA TGTAGGGCTG ATCCCAGCCG GAGCCAGAGA GATTCTTATT
    GAGGAGGTGG CTGAGGCTGC TAACTTCCTG GCCCTGCGGA GTGAGGACCC AGATAAGTAC
    TTTCTCAATG GAGGCTGGAC CATCCAGTGG AATGGAGACT ACCGAGTGGC AGGCACTACC
    TTCACCTATG CACGAAAGGG CAACTGGGAG AATCTCACAT CCCCAGGCCC CACCAGTGAG
    CCTGTCTGGA TCCAGCTGCT GTTCCAGGAG AAGAACCCTG GGGTACACTA CCAGTACACC
    ATCCAGAGGG ACAGCCACGA TCAAGTCCGG CCACCTGAGT TCTCCTGGCA TTATGGGCCC
    TGGAGCAAGT GCACGGTCAC TTGTGGCACA GGCATGCAGA GGCAGAGTTT ATACTGCATG
    GAGAGGCAGG CCGGGGTGGT TGCCGAGGAA TACTGTAACA CTCTAAATCG GCCCGATGAA
    CGCCAGAGGA AATGCAGTGA GGAGCCCTGT CCCCCCAGGT GGTGGGCAGG GGAGTGGCAG
    CCGTGTTCCC AATCCTGCGG GCCTGAAGGC GTCTCTCGCC GGGCTGTGTT CTGCATACGT
    AGTATGGGGC TGGATGAGCA GCGTGCTCTT GAGCTATCTG CCTGCGAACA TCTTCCTCGT
    CCCCTGGCTG AAACCCCATG CAACCGTCAT GTAATCTGTC CTTCCACTTG GGGTGTGGGG
    AACTGGTCTC AGTGCTCTGT GACATGTGGA GCTGGCATTC GGCAACGAAG TGTCCTCTGC
    ATCAACAACA CTGATGTCCC CTGTGATGAA GCTGAGCGAC CAATAACTGA GACCTTTTGT
    TTTCTGCAAC CCTGCCAGTA TCCCATGTAC ATAGTGGACA CAGGTGCCTC TGGAAGCGGC
    TCCTCCAGCC CCGAGCTCTT CAATGAGGTT GACTTCATCC CGAACCAGCT GGCCCCACGA
    CCTTCCCCAG CATCCTCACC CAAGCCGGTC AGCATCAGCA ACGCTATTGA TGAGGAGGAA
    CTAGATCCGC CAGGGCCCGT GTTTGTGGAT GATTTCTATT ATGACTACAA TTTCATTAAC
    TTCCATGAAG ACCTGTCCTA TGGGTCCTTT GAAGAACCCC ATCCAGACCT GGTTGATATT
    GGGGGTTGGA CAGAACCACC TCACATCAGA CCCACTGAAT CCCCCTCAGA CAGCCCAGTA
    CCTACTGCAG GGGCTCTTGG AGCTGAGGAA GAAGACATTC AGGGATCTTG GTCTCCTAGC
    CCCTTACTCA GTGAGGCTAG CTATTCCCCA TCAGTATTAG AGCAGACCTC CATCAACCCC
    TTGGCCAATT TCTTGACTGA GGAAGATACT CCCATGGGGG CCCCTGAACT TGGATTCCCC
    AGCTTGCCCT GGCCCCCTGC TTCAGTTGAT GATATGATGA CACCTGTTGT CCCTGGAAAC
    CCTGATGAGT TGCTAGTGGA AGAAGATGAG CAGAGCCCGC CATCCACTCC ATGGTCTGAT
    AGGAACAAAC TTTCTACAGA TGGTAACCCC TTGGGTCATA CATCCCCTGC CCTGCCCCAA
    AGCCCTATCC CCACACAGCC CTCTCCACCC TCCATCAGTC CTACCCAAGC TTCTCCGAGT
    CCTGATGTGG TAGAGGTGTC GACAGGATGG AATGCGGCCT GGGACCCTGT GCTAGAGGCT
    GACCAGAAGC CCGGACACGT ACCAACTGAC CTGAGGAGCC CGGAACCATC GGGCCAGCCA
    CAGACCCCTA ACCTTGAGGG AACCCAGAGC CCTGGGTTGC TGCCTACATC AGCTCGGGAG
    ACTCAAACTA ACAGTAGCAA GGATCCTGAG GTCCAGCCAT TGCAGCCCAG CCTAGAGGAG
    GATGGTGCCC CCGCAGATTC ACTGCCTGCC AGGAATGCCA GCTGGCAAGT AGGAAACTGG
    AGCCAGTGTT CCACCACCTG TGGCCTGGGC GCCATCTGGA GGCTAGTGAG CTGCAGCTCT
    GGCAATGATG AGGACTGCAC CCTCGCTAGC CGTCCCCAGC CTGCCCGCCA TTGTCATCTG
    AGGCCCTGTG CTGCCTGGCG CGCGGGCAAC TGGAGTAAGT GCTCTCGAAA CTGTGGTGGA
    GGTTCCTCTA CAAGGGATGT ACAGTGTGTG GATACACGGG ACCTCCGGCC ACTGCGGCCC
    TTTCACTGCC AGCCCGGGCC TACCAAGCCA CCCAACCGTC AGCTCTGTGG GACCCAGCCC
    TGCCTCCCCT GGTACACCTC CTCCTGGAGA GAGTGTTCTG AGGCTTGTGG TGGTGGTGAA
    CAGCAGCGTC TGGTGACATG TCCAGAGCCA GGCCTCTGTG AGGAGTCGCT GAGACCCAAC
    AACAGCAGGC CCTGCAACAC CCACCCCTGC ACACAGTGGG TGGTAGGGCC CTGGGGTCAG
    TGCTCAGCCC CCTGTTGTGA GCGGGATCGC CTGTCCTTCA ATTTCTGTGA GACGCTGCGC
    CTGCTGGGCC GCTGCCAGCT GCCCACCATA CGCGCTCAGT GCTGCCGTTC ATGTCCCCCA
    CTCAGCCGTG GTGTCCCTAC CCGAGGCCAT CATCGGGTGG CCAGACGGTA A

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

    CloneID OMv76225
    Clone ID Related Accession (Same CDS sequence) XM_029481977.1
    Accession Version XM_029481977.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    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 A disintegrin and metalloproteinase with thrombospondin motifs 7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034578.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCACCGTG GTCCGAGTCT CCTCCTGATC CTGTGCGCTC TGGCGCCTCG CGTCCGACCT 
    GCATCAGGTC TTGTGACTGA GGGCCGGGCG GGTTTGGACA TCGTGCACCC GGTGCGAGTA
    GATGCTGGAG GCTCCTTCCT GTCCTATGAG CTGTGGCCAC GGGTGCTGCG CAAGCGCGAT
    GTGTCCACCA TGCAGGCTTC GTCTGCTTTC TACCAGCTGC AGTACCAAGG GCGGGAACTG
    CTTTTCAACT TGACCACCAA CCCTTATCTG ATGGCTCCCG GCTTTGTGAG TGAGATTCGA
    CGTCACAGCA GTTTAGGCCA TGCGCACATC CAAACCAGTG TCCCAACCTG CCATTTGCTT
    GGTGATGTCC AGGACCCGGA GCTGGAAGGA GGCTTTGCAG CCATTAGCGC CTGCGATGGC
    CTAAGAGGTG TGTTCCAGCT CTCCAATGAG GACTACTTCA TTGAGCCTCT GGATGGAGTT
    TCAGCTCAGC CTGGACATGC CCAGCCCCAT GTGGTATACA AGCACCAAGG CTCTAGGAAG
    CAGGCCCAGC AGGGTGACTC AAGGCCTTCA GGCACCTGTG GGATGCAAGT GCCCCCAGAT
    CTGGAGCAGC AGCGAGAACA TTGGGAACAG CAGCAGCAGA AGCGGAGGCA GCAGCGATCA
    GTCAGCAAAG AGAAGTGGGT GGAGACCTTG GTAGTGGCTG ATTCCAAGAT GGTGGAGTAC
    CACGGGCAGC CGCAAGTGGA GAGCTATGTG CTGACAATCA TGAACATGGT GGCTGGACTC
    TTTCACGATC CAAGCATTGG GAACCCCATT CACATCAGCA TTGTGCGCCT TATCATACTG
    GAAGACGAGG AGAAGGACTT AAAGATCACA CACCATGCCG AAGAGACTCT GAAAAACTTC
    TGTAGGTGGC AGAAGAACAT TAACATAAAG GGGGATGACC ACCCACAGCA CCATGACACT
    GCCATCCTGC TCACCAGGAA GGATTTGTGT GCATCCATGA ACCAGCCCTG TGAAACCCTG
    GGCCTGTCTC ATGTGTCTGG CTTGTGCCAC CCTCAGCTCA GCTGTAGCGT CAGTGAGGAT
    ACTGGCATGC CACTGGCCTT CACTGTGGCC CACGAGNTAG GACACAGTTT TGGCATTCAG
    CATGACGGCA CCGGCAATGA CTGTGAATCC ATTGGGAAAC GGCCTTTCAT CATGTCTCCA
    CAGCTCCTGT ATGACAGAGG CATTCCTCTC ACCTGGTCCC GCTGCAGCNG CGAGTACATC
    ACCAGGTTCC TTGACCGTGG GTGGGGCCTG TGCTTAGATG ACCGTCCATC CAAGGATGTC
    ATTGCACTCC CCTCGGTGCT GCCCGGTGTC CTGTACGATC GGAAGCGGTT CCAGATCTGC
    CACCTGCCAG CCTGCCCGCC GGACCGTCCC TCTTTCCGTC ACACCCAGTG TAGCCACTTT
    GATGGCATGC TGTACAAGGG CAAGCTCCAT AAATGGGTGC CTGTGCCCAA TGATGACAAC
    CCCTGTGAGC TGCACTGCCG GCCCTCCAAC TCCTCCAATA CAGAGAAGCT GAGGGATGCT
    GTGGTGGATG GCACCCCTTG CTACCAAGGC CGCGTCAGCC GTGACATCTG CCTCAACGGC
    ATCTGTAAGA ACGTGGGCTG CGACTTTGTG ATTGACTCTG GTGCTGAGGA GGACCGCTGT
    GGCGTGTGCC GGGGGGATGG CTCTACTTGC CAGACTGTGA GCAGGACCTT CAAGGAGACT
    GAAGGCCAGG GGTATGTGGA TGTAGGGCTG ATCCCAGCCG GAGCCAGAGA GATTCTTATT
    GAGGAGGTGG CTGAGGCTGC TAACTTCCTG GCCCTGCGGA GTGAGGACCC AGATAAGTAC
    TTTCTCAATG GAGGCTGGAC CATCCAGTGG AATGGAGACT ACCGAGTGGC AGGCACTACC
    TTCACCTATG CACGAAAGGG CAACTGGGAG AATCTCACAT CCCCAGGCCC CACCAGTGAG
    CCTGTCTGGA TCCAGCTGCT GTTCCAGGAG AAGAACCCTG GGGTACACTA CCAGTACACC
    ATCCAGAGGG ACAGCCACGA TCAAGTCCGG CCACCTGAGT TCTCCTGGCA TTATGGGCCC
    TGGAGCAAGT GCACGGTCAC TTGTGGCACA GGCATGCAGA GGCAGAGTTT ATACTGCATG
    GAGAGGCAGG CCGGGGTGGT TGCCGAGGAA TACTGTAACA CTCTAAATCG GCCCGATGAA
    CGCCAGAGGA AATGCAGTGA GGAGCCCTGT CCCCCCAGGT GGTGGGCAGG GGAGTGGCAG
    CCGTGTTCCC AATCCTGCGG GCCTGAAGGC GTCTCTCGCC GGGCTGTGTT CTGCATACGT
    AGTATGGGGC TGGATGAGCA GCGTGCTCTT GAGCTATCTG CCTGCGAACA TCTTCCTCGT
    CCCCTGGCTG AAACCCCATG CAACCGTCAT GTAATCTGTC CTTCCACTTG GGGTGTGGGG
    AACTGGTCTC AGTATCCCAT GTACATAGTG GACACAGGTG CCTCTGGAAG CGGCTCCTCC
    AGCCCCGAGC TCTTCAATGA GGTTGACTTC ATCCCGAACC AGCTGGCCCC ACGACCTTCC
    CCAGCATCCT CACCCAAGCC GGTCAGCATC AGCAACGCTA TTGATGAGGA GGAACTAGAT
    CCGCCAGGGC CCGTGTTTGT GGATGATTTC TATTATGACT ACAATTTCAT TAACTTCCAT
    GAAGACCTGT CCTATGGGTC CTTTGAAGAA CCCCATCCAG ACCTGGTTGA TATTGGGGGT
    TGGACAGAAC CACCTCACAT CAGACCCACT GAATCCCCCT CAGACAGCCC AGTACCTACT
    GCAGGGGCTC TTGGAGCTGA GGAAGAAGAC ATTCAGGGAT CTTGGTCTCC TAGCCCCTTA
    CTCAGTGAGG CTAGCTATTC CCCATCAGTA TTAGAGCAGA CCTCCATCAA CCCCTTGGCC
    AATTTCTTGA CTGAGGAAGA TACTCCCATG GGGGCCCCTG AACTTGGATT CCCCAGCTTG
    CCCTGGCCCC CTGCTTCAGT TGATGATATG ATGACACCTG TTGTCCCTGG AAACCCTGAT
    GAGTTGCTAG TGGAAGAAGA TGAGCAGAGC CCGCCATCCA CTCCATGGTC TGATAGGAAC
    AAACTTTCTA CAGATGGTAA CCCCTTGGGT CATACATCCC CTGCCCTGCC CCAAAGCCCT
    ATCCCCACAC AGCCCTCTCC ACCCTCCATC AGTCCTACCC AAGCTTCTCC GAGTCCTGAT
    GTGGTAGAGG TGTCGACAGG ATGGAATGCG GCCTGGGACC CTGTGCTAGA GGCTGACCAG
    AAGCCCGGAC ACGGTGAGCA GCCATCCACT GTGGAGGTGG CTTCTCCTCC ACTTCTTCCC
    ATGGCCACTG TGCCAGGCAT CTGGGGCAGG GACAGCCCTC TTGAACCAGG AACTCCTACC
    TTTTCAAGCC CAGAACTGAG CTCACAGCAC CTAAAAACTC TGACAGTGCC TGGGACCTTG
    CTTTTGACAG TACCAACTGA CCTGAGGAGC CCGGAACCAT CGGGCCAGCC ACAGACCCCT
    AACCTTGAGG GAACCCAGAG CCCTGGGTTG CTGCCTACAT CAGCTCGGGA GACTCAAACT
    AACAGTAGCA AGGATCCTGA GGTCCAGCCA TTGCAGCCCA GCCTAGAGGA GGATGGTGCC
    CCCGCAGATT CACTGCCTGC CAGGAATGCC AGCTGGCAAG TAGGAAACTG GAGCCAGTGT
    TCCACCACCT GTGGCCTGGG CGCCATCTGG AGGCTAGTGA GCTGCAGCTC TGGCAATGAT
    GAGGACTGCA CCCTCGCTAG CCGTCCCCAG CCTGCCCGCC ATTGTCATCT GAGGCCCTGT
    GCTGCCTGGC GCGCGGGCAA CTGGAGTAAG TGCTCTCGAA ACTGTGGTGG AGGTTCCTCT
    ACAAGGGATG TACAGTGTGT GGATACACGG GACCTCCGGC CACTGCGGCC CTTTCACTGC
    CAGCCCGGGC CTACCAAGCC ACCCAACCGT CAGCTCTGTG GGACCCAGCC CTGCCTCCCC
    TGGTACACCT CCTCCTGGAG AGAGTGTTCT GAGGCTTGTG GTGGTGGTGA ACAGCAGCGT
    CTGGTGACAT GTCCAGAGCC AGGCCTCTGT GAGGAGTCGC TGAGACCCAA CAACAGCAGG
    CCCTGCAACA CCCACCCCTG CACACAGTGG GTGGTAGGGC CCTGGGGTCA GTGCTCAGCC
    CCCTGTTGTG AGCGGGATCG CCTGTCCTTC AATTTCTGTG AGACGCTGCG CCTGCTGGGC
    CGCTGCCAGC TGCCCACCAT ACGCGCTCAG TGCTGCCGTT CATGTCCCCC ACTCAGCCGT
    GGTGTCCCTA CCCGAGGCCA TCATCGGGTG GCCAGACGGT AA

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

    RefSeq XP_029337837.1
    CDS226..4587
    Translation

    Target ORF information:

    RefSeq Version XM_029481977.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ADAM metallopeptidase with thrombospondin type 1 motif 7 (Adamts7), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029481977.1

    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
    ATGCACCGTG GTCCGAGTCT CCTCCTGATC CTGTGCGCTC TGGCGCCTCG CGTCCGACCT 
    GCATCAGGTC TTGTGACTGA GGGCCGGGCG GGTTTGGACA TCGTGCACCC GGTGCGAGTA
    GATGCTGGAG GCTCCTTCCT GTCCTATGAG CTGTGGCCAC GGGTGCTGCG CAAGCGCGAT
    GTGTCCACCA TGCAGGCTTC GTCTGCTTTC TACCAGCTGC AGTACCAAGG GCGGGAACTG
    CTTTTCAACT TGACCACCAA CCCTTATCTG ATGGCTCCCG GCTTTGTGAG TGAGATTCGA
    CGTCACAGCA GTTTAGGCCA TGCGCACATC CAAACCAGTG TCCCAACCTG CCATTTGCTT
    GGTGATGTCC AGGACCCGGA GCTGGAAGGA GGCTTTGCAG CCATTAGCGC CTGCGATGGC
    CTAAGAGGTG TGTTCCAGCT CTCCAATGAG GACTACTTCA TTGAGCCTCT GGATGGAGTT
    TCAGCTCAGC CTGGACATGC CCAGCCCCAT GTGGTATACA AGCACCAAGG CTCTAGGAAG
    CAGGCCCAGC AGGGTGACTC AAGGCCTTCA GGCACCTGTG GGATGCAAGT GCCCCCAGAT
    CTGGAGCAGC AGCGAGAACA TTGGGAACAG CAGCAGCAGA AGCGGAGGCA GCAGCGATCA
    GTCAGCAAAG AGAAGTGGGT GGAGACCTTG GTAGTGGCTG ATTCCAAGAT GGTGGAGTAC
    CACGGGCAGC CGCAAGTGGA GAGCTATGTG CTGACAATCA TGAACATGGT GGCTGGACTC
    TTTCACGATC CAAGCATTGG GAACCCCATT CACATCAGCA TTGTGCGCCT TATCATACTG
    GAAGACGAGG AGAAGGACTT AAAGATCACA CACCATGCCG AAGAGACTCT GAAAAACTTC
    TGTAGGTGGC AGAAGAACAT TAACATAAAG GGGGATGACC ACCCACAGCA CCATGACACT
    GCCATCCTGC TCACCAGGAA GGATTTGTGT GCATCCATGA ACCAGCCCTG TGAAACCCTG
    GGCCTGTCTC ATGTGTCTGG CTTGTGCCAC CCTCAGCTCA GCTGTAGCGT CAGTGAGGAT
    ACTGGCATGC CACTGGCCTT CACTGTGGCC CACGAGNTAG GACACAGTTT TGGCATTCAG
    CATGACGGCA CCGGCAATGA CTGTGAATCC ATTGGGAAAC GGCCTTTCAT CATGTCTCCA
    CAGCTCCTGT ATGACAGAGG CATTCCTCTC ACCTGGTCCC GCTGCAGCNG CGAGTACATC
    ACCAGGTTCC TTGACCGTGG GTGGGGCCTG TGCTTAGATG ACCGTCCATC CAAGGATGTC
    ATTGCACTCC CCTCGGTGCT GCCCGGTGTC CTGTACGATC GGAAGCGGTT CCAGATCTGC
    CACCTGCCAG CCTGCCCGCC GGACCGTCCC TCTTTCCGTC ACACCCAGTG TAGCCACTTT
    GATGGCATGC TGTACAAGGG CAAGCTCCAT AAATGGGTGC CTGTGCCCAA TGATGACAAC
    CCCTGTGAGC TGCACTGCCG GCCCTCCAAC TCCTCCAATA CAGAGAAGCT GAGGGATGCT
    GTGGTGGATG GCACCCCTTG CTACCAAGGC CGCGTCAGCC GTGACATCTG CCTCAACGGC
    ATCTGTAAGA ACGTGGGCTG CGACTTTGTG ATTGACTCTG GTGCTGAGGA GGACCGCTGT
    GGCGTGTGCC GGGGGGATGG CTCTACTTGC CAGACTGTGA GCAGGACCTT CAAGGAGACT
    GAAGGCCAGG GGTATGTGGA TGTAGGGCTG ATCCCAGCCG GAGCCAGAGA GATTCTTATT
    GAGGAGGTGG CTGAGGCTGC TAACTTCCTG GCCCTGCGGA GTGAGGACCC AGATAAGTAC
    TTTCTCAATG GAGGCTGGAC CATCCAGTGG AATGGAGACT ACCGAGTGGC AGGCACTACC
    TTCACCTATG CACGAAAGGG CAACTGGGAG AATCTCACAT CCCCAGGCCC CACCAGTGAG
    CCTGTCTGGA TCCAGCTGCT GTTCCAGGAG AAGAACCCTG GGGTACACTA CCAGTACACC
    ATCCAGAGGG ACAGCCACGA TCAAGTCCGG CCACCTGAGT TCTCCTGGCA TTATGGGCCC
    TGGAGCAAGT GCACGGTCAC TTGTGGCACA GGCATGCAGA GGCAGAGTTT ATACTGCATG
    GAGAGGCAGG CCGGGGTGGT TGCCGAGGAA TACTGTAACA CTCTAAATCG GCCCGATGAA
    CGCCAGAGGA AATGCAGTGA GGAGCCCTGT CCCCCCAGGT GGTGGGCAGG GGAGTGGCAG
    CCGTGTTCCC AATCCTGCGG GCCTGAAGGC GTCTCTCGCC GGGCTGTGTT CTGCATACGT
    AGTATGGGGC TGGATGAGCA GCGTGCTCTT GAGCTATCTG CCTGCGAACA TCTTCCTCGT
    CCCCTGGCTG AAACCCCATG CAACCGTCAT GTAATCTGTC CTTCCACTTG GGGTGTGGGG
    AACTGGTCTC AGTATCCCAT GTACATAGTG GACACAGGTG CCTCTGGAAG CGGCTCCTCC
    AGCCCCGAGC TCTTCAATGA GGTTGACTTC ATCCCGAACC AGCTGGCCCC ACGACCTTCC
    CCAGCATCCT CACCCAAGCC GGTCAGCATC AGCAACGCTA TTGATGAGGA GGAACTAGAT
    CCGCCAGGGC CCGTGTTTGT GGATGATTTC TATTATGACT ACAATTTCAT TAACTTCCAT
    GAAGACCTGT CCTATGGGTC CTTTGAAGAA CCCCATCCAG ACCTGGTTGA TATTGGGGGT
    TGGACAGAAC CACCTCACAT CAGACCCACT GAATCCCCCT CAGACAGCCC AGTACCTACT
    GCAGGGGCTC TTGGAGCTGA GGAAGAAGAC ATTCAGGGAT CTTGGTCTCC TAGCCCCTTA
    CTCAGTGAGG CTAGCTATTC CCCATCAGTA TTAGAGCAGA CCTCCATCAA CCCCTTGGCC
    AATTTCTTGA CTGAGGAAGA TACTCCCATG GGGGCCCCTG AACTTGGATT CCCCAGCTTG
    CCCTGGCCCC CTGCTTCAGT TGATGATATG ATGACACCTG TTGTCCCTGG AAACCCTGAT
    GAGTTGCTAG TGGAAGAAGA TGAGCAGAGC CCGCCATCCA CTCCATGGTC TGATAGGAAC
    AAACTTTCTA CAGATGGTAA CCCCTTGGGT CATACATCCC CTGCCCTGCC CCAAAGCCCT
    ATCCCCACAC AGCCCTCTCC ACCCTCCATC AGTCCTACCC AAGCTTCTCC GAGTCCTGAT
    GTGGTAGAGG TGTCGACAGG ATGGAATGCG GCCTGGGACC CTGTGCTAGA GGCTGACCAG
    AAGCCCGGAC ACGGTGAGCA GCCATCCACT GTGGAGGTGG CTTCTCCTCC ACTTCTTCCC
    ATGGCCACTG TGCCAGGCAT CTGGGGCAGG GACAGCCCTC TTGAACCAGG AACTCCTACC
    TTTTCAAGCC CAGAACTGAG CTCACAGCAC CTAAAAACTC TGACAGTGCC TGGGACCTTG
    CTTTTGACAG TACCAACTGA CCTGAGGAGC CCGGAACCAT CGGGCCAGCC ACAGACCCCT
    AACCTTGAGG GAACCCAGAG CCCTGGGTTG CTGCCTACAT CAGCTCGGGA GACTCAAACT
    AACAGTAGCA AGGATCCTGA GGTCCAGCCA TTGCAGCCCA GCCTAGAGGA GGATGGTGCC
    CCCGCAGATT CACTGCCTGC CAGGAATGCC AGCTGGCAAG TAGGAAACTG GAGCCAGTGT
    TCCACCACCT GTGGCCTGGG CGCCATCTGG AGGCTAGTGA GCTGCAGCTC TGGCAATGAT
    GAGGACTGCA CCCTCGCTAG CCGTCCCCAG CCTGCCCGCC ATTGTCATCT GAGGCCCTGT
    GCTGCCTGGC GCGCGGGCAA CTGGAGTAAG TGCTCTCGAA ACTGTGGTGG AGGTTCCTCT
    ACAAGGGATG TACAGTGTGT GGATACACGG GACCTCCGGC CACTGCGGCC CTTTCACTGC
    CAGCCCGGGC CTACCAAGCC ACCCAACCGT CAGCTCTGTG GGACCCAGCC CTGCCTCCCC
    TGGTACACCT CCTCCTGGAG AGAGTGTTCT GAGGCTTGTG GTGGTGGTGA ACAGCAGCGT
    CTGGTGACAT GTCCAGAGCC AGGCCTCTGT GAGGAGTCGC TGAGACCCAA CAACAGCAGG
    CCCTGCAACA CCCACCCCTG CACACAGTGG GTGGTAGGGC CCTGGGGTCA GTGCTCAGCC
    CCCTGTTGTG AGCGGGATCG CCTGTCCTTC AATTTCTGTG AGACGCTGCG CCTGCTGGGC
    CGCTGCCAGC TGCCCACCAT ACGCGCTCAG TGCTGCCGTT CATGTCCCCC ACTCAGCCGT
    GGTGTCCCTA CCCGAGGCCA TCATCGGGTG GCCAGACGGT AA

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