ADAMTS18 cDNA ORF clone, Equus caballus(horse)

The following ADAMTS18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS18 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
OHb18646 XM_001499104.4
Latest version!
Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHb62064 XM_023637360.1
Latest version!
Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHb62065 XM_023637361.1
Latest version!
Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHb18646
    Clone ID Related Accession (Same CDS sequence) XM_001499104.4
    Accession Version XM_001499104.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    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 1447862400000
    Organism Equus caballus(horse)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_001867410.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 20, 2015 this sequence version replaced XM_001499104.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Equus caballus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 7% 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
    ATGGCCCAGG AATCTGCATT TAAGCCAGCA GCACAGGTGA TTGTGACGCT CGTTAGGTTT 
    GACACGGGCT GTGCGAACCT CCCCTCCCCC TTCACCCCCT CCCTCGGAGC GGGAGCCGGG
    AATCCCACGC CCTTGCACCA GCCCGGGGGC TCGGACGGGC CCAGGAGCCG CTGGTCGCCA
    ATCACCGTGC GGTGGAGAGG CGGGCGCTCG GCTCCAGCGC GCTGGGGGAG CCAGCTGGCG
    CTGCTTTCCC CGGGAGCCTC AGACGCTCAC ACAGACACAG ACAGACGCAC AGACTGGCGG
    GCGCTCCAGC TGTGCTGCCT CTGCTGTGCG TCGGTCGCCG CAGCCTTAGC CAGTGAGAGC
    AGCAGCGGCG GCAGCGGATT AAACGATGAT TACGTCTTTG TCACGCCCGT AGAAGTGGAC
    TCGGACGGGT CGTATATTTC ACACGACATT TTGCACAACG GCAGGAAAAA GCGGTCTGCG
    CTGAGTGCCA GCAGCTCCCT GCATTACCGA TTTTCAGCAT TTGGACAGGA ACTACATTTA
    GAACTTAAGC CCTCGGCGAT GTTGAGCAGT CACTTTATTG TCCAGGTACT TGGAAAAGAT
    GGTGCTTCAG AGACTCGGGA ACCCGAGGTG CAGCGATGTT TCTATCAGGG ATTTATCAGA
    AATGACAGCT CCTCCTCCGT CGCTGTGTCT ACGTGTGCCG GCTTGTCAGG TCTAATAAGG
    ACACGAAAAA ATGAATTCCT CATCTCGCCG TTACCTCAGC TCCTGGCCCA GGAACACAAC
    TACAGCTCAC CTGCTGGCCA CCATCCTCAC GTACTGTATA AAAGGACAGC CGAGGAGAAG
    GTCCAGCGTT GCCTGGGCAA CCCGGGCTCC AGCCAGAATT TTCTTGGTCA CCCCCCAAGT
    CACTCTCCCC ACACACCTCA GAGTCAAGAA AGAGAGCATC GCCATCGAAG GTTGCAAAAG
    CATCATTTTT GTGGACGACG CAAGAAATAT GCCCCCAAGC CTCCCCCAGA GGACACCTAT
    CTCAGGTTTG ATGAATACGG GGGCGCAGGG CGGCCCAGAA GATCAGCTGG AAAGTCACAA
    AAGGGTCTAA ACGTGGAAAC CCTTGTGGTG GCGGACAAGA AAATGGTGGA AAAGCACAGC
    AAGGCAAATG TCACCACGTA CATTCTCACA GTCATGAACA TGGTTTCCAG CCTATTTAAA
    GATGGGACCA TTGGGAGTGA TATAAACATT GTTGTGGTGA GCCTCATTCT TCTGGAACAA
    GAACCTGGAG GATTATTGAT CAATCATCAT GCAGATCAGT CTCTGAATAG TTTTTGTCAG
    TGGCAGTCTG CCCTCATTGG AAAGAATGGC AAGAGGCATG ACCACGCCAT CTTACTCACG
    GGATTTGATA TTTGTTCCTG GAAGAATGAA CCGTGTGACA CTCTAGGGTT TGCCCCCATC
    AGTGGGATGT GCAGTAAGTA CCGAAGTTGT ACCATCAATG AGGACACAGG ACTTGGCCTG
    GCCTTCACCA TCGCTCATGA GTCAGGGCAC AATTTTGGCA TGATTCACGA TGGAGAAGGC
    AACCCTTGCA GGAAGGCTGA AGGCAATATC ATGTCTCCCA CACTGACAGG AAACAATGGG
    GTGTTTTCGT GGTCTTCATG TAGCCGGCAA TATCTCAAGA AATTCCTTAG TACACCTCAG
    GCTGGGTGTC TGGTGGATGA GCCCAAGCAA ACAGGGCAGT ATAAATATCC GGACAAACTA
    CCAGGACAGA TTTATGATGC TGACACACAG TGCAAGTGGC AATTTGGAGC AAAAGCCAAG
    TTATGCAGCC TCGGTTTTGC GAAGGACATT TGCAAATCAC TTTGGTGCCA CCGAGTGGGC
    CACAGATGTG AGACCAAGTT TATGCCTGCG GCGGAAGGGA CCGTTTGTGG CTTGAGTATG
    TGGTGTCGGC AAGGCCAGTG TGTAAAGTTT GGGGAGCATG GGCCCCGGCC CATCCACGGC
    CAGTGGTCTG CCTGGTCGAA GTGGTCAGAG TGTTCCCGAA CTTGTGGTGG AGGAGTCAAG
    TATCAAGAGA GACACTGCAA TAACCCCAAG CCTCAGTATG GTGGCAAGTT CTGTCCAGGT
    TCTAGCCGTA TTTATCAACT GTGCAACATT AACCCCTGTA GTGAAAATAG CTTGGATTTT
    CGAGCCCAGC AGTGTGCAGA ATATAATGGC AAACCTTTCC GTGGATGGTT CTACCAGTGG
    AAACCGTATA CGAAAGTGGA AGAGGAAGAT CGATGTAAAC TGTACTGCAA GGCTGAGAAC
    TTTGAATTTT TTTTTGCAAT GTCTGGCAAA GTGAAAGATG GGACCCCTTG CTCCCCGCAC
    AAAAATGACG TCTGCATCGA TGGGATTTGT GAACCAGTGG GGTGCGATCA TGAACTTGGC
    TCAAAAGCAG TCCTGGATGC ATGTGGTGTC TGCAAAGGTG ATAATTCAAC TTGCAAGTTT
    TATAAAGGCC TGTACCTCAA CCAGCACAAA GCGAATGAAT ATTATCCAGT TGTCATCATT
    CCAGCGGGGG CCCGAAGCAT TGAAATCCAG GAACTACAGA TATCCTCCAG TTACCTCGCA
    GTCCGAAGCC TCAGTCAAAA GTATTACCTC ACAGGGGGCT GGAGCATCGA CTGGCCTGGG
    GAGTTCCCCT TTGCTGGGAC CGTGTTTGAA TACCAGCGGG CCTTCAACCG CCCGGAACGT
    CTGTATGCGC CAGGACCCAC AAATGAGACG CTGGTCTTTG AAATTCTGAT GCAAGGCAAA
    AATCCAGGGA TAGCTTGGAA GTATGCACTT CCCAAGGTCG TGAATGGAAC TCAGCCAGCC
    TCAAAAAGAC ACATCCACGC CTGGAGTACA GTGCAGTCCG ATTGCTCCGT CTCCTGTGGT
    GGAGGTTACA TAAGTGTAAA GGCTGTTTGC TTACGAGATC AGAATACTCA AGTCAATTCC
    TCATTCTGTA ATGCAAGAAC CAAGCCAGCA ACTGAACCCA AAATATGCAA TGCTTTCTCC
    TGCCCTGCCT ATTGGAAGCC AGGCGAATGG AGTGTGTGCA GCAGGTCATG TGCAGGGGGC
    CAGCAAAGCC GAAAGATCCA GTGTGTCCAG AAGAAGCCCT TCCAGAAGGA GGAAGCAGTG
    TTGCATTCTC TCTGCCCAGT GAGCACACCT ACTCAGGTTC AAGTCTGCAA CAACGACGCC
    TGCCCTCCAG AGTGGAGCCT TGGGCCCTGG TCTCAGTGTT CCAAGACCTG TGGGCGAGGG
    ACGAGGAAAC GAGAAATCCT GTGCAAAAGT TCTGCCGCAG CAGAGGACCT CCCTGAGAGC
    CTGTGCTCCA GCATCCCGAG ACCAGAGTCC CAGGAGGGCT GTGTCCTAGG ACGATGCCCC
    AAAAACAACC GGCTGCAGTG GATCGTCTCT TCGTGGAGTG AGTGTTCTGT GACCTGTGGT
    TTGGGTGTGA GGAAGAGGGA AATGAAATGC AGCGAGAAAG CCTTCCAGGG AAAGCTGATA
    ACATTCCCAG AGCGAAGATG CCGCAATATT AAGAAACCAG ACCTGAACTT GGAAGAAACC
    TGCAACCAAG GGGCTTGCCC GGCCCGTCCA GTGTACAATA TGGCAGCTGG ATGGTATTCA
    TCGCCATGGC AACAGTGCAC GGTGACCTGT GGAGGAGGGG TCCAGACCCG ATCGGTCCAC
    TGTGTTCAGC AGGGCCGGCC CTCCTCAAGT TGTCTGCCCC ATCAGAAACC TCCAGTGCTA
    CGAGCCTGTA ATACAAACTT TTGTCCAGCT CCTGAAAAGA GAGAGGATCC ATCCTGTGTA
    GATTTCTTCA GCTGGTGTCA TCTAGTTCCT CAACATGGTG TCTGCAACCA CAAATTTTAT
    GGTAAACAGT GCTGCAAGTC ATGCACAAGG AAGAGCTGA

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

    RefSeq XP_001499154.3
    CDS1..3879
    Translation

    Target ORF information:

    RefSeq Version XM_001499104.4
    Organism Equus caballus(horse)
    Definition Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001499104.4

    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
    ATGGCCCAGG AATCTGCATT TAAGCCAGCA GCACAGGTGA TTGTGACGCT CGTTAGGTTT 
    GACACGGGCT GTGCGAACCT CCCCTCCCCC TTCACCCCCT CCCTCGGAGC GGGAGCCGGG
    AATCCCACGC CCTTGCACCA GCCCGGGGGC TCGGACGGGC CCAGGAGCCG CTGGTCGCCA
    ATCACCGTGC GGTGGAGAGG CGGGCGCTCG GCTCCAGCGC GCTGGGGGAG CCAGCTGGCG
    CTGCTTTCCC CGGGAGCCTC AGACGCTCAC ACAGACACAG ACAGACGCAC AGACTGGCGG
    GCGCTCCAGC TGTGCTGCCT CTGCTGTGCG TCGGTCGCCG CAGCCTTAGC CAGTGAGAGC
    AGCAGCGGCG GCAGCGGATT AAACGATGAT TACGTCTTTG TCACGCCCGT AGAAGTGGAC
    TCGGACGGGT CGTATATTTC ACACGACATT TTGCACAACG GCAGGAAAAA GCGGTCTGCG
    CTGAGTGCCA GCAGCTCCCT GCATTACCGA TTTTCAGCAT TTGGACAGGA ACTACATTTA
    GAACTTAAGC CCTCGGCGAT GTTGAGCAGT CACTTTATTG TCCAGGTACT TGGAAAAGAT
    GGTGCTTCAG AGACTCGGGA ACCCGAGGTG CAGCGATGTT TCTATCAGGG ATTTATCAGA
    AATGACAGCT CCTCCTCCGT CGCTGTGTCT ACGTGTGCCG GCTTGTCAGG TCTAATAAGG
    ACACGAAAAA ATGAATTCCT CATCTCGCCG TTACCTCAGC TCCTGGCCCA GGAACACAAC
    TACAGCTCAC CTGCTGGCCA CCATCCTCAC GTACTGTATA AAAGGACAGC CGAGGAGAAG
    GTCCAGCGTT GCCTGGGCAA CCCGGGCTCC AGCCAGAATT TTCTTGGTCA CCCCCCAAGT
    CACTCTCCCC ACACACCTCA GAGTCAAGAA AGAGAGCATC GCCATCGAAG GTTGCAAAAG
    CATCATTTTT GTGGACGACG CAAGAAATAT GCCCCCAAGC CTCCCCCAGA GGACACCTAT
    CTCAGGTTTG ATGAATACGG GGGCGCAGGG CGGCCCAGAA GATCAGCTGG AAAGTCACAA
    AAGGGTCTAA ACGTGGAAAC CCTTGTGGTG GCGGACAAGA AAATGGTGGA AAAGCACAGC
    AAGGCAAATG TCACCACGTA CATTCTCACA GTCATGAACA TGGTTTCCAG CCTATTTAAA
    GATGGGACCA TTGGGAGTGA TATAAACATT GTTGTGGTGA GCCTCATTCT TCTGGAACAA
    GAACCTGGAG GATTATTGAT CAATCATCAT GCAGATCAGT CTCTGAATAG TTTTTGTCAG
    TGGCAGTCTG CCCTCATTGG AAAGAATGGC AAGAGGCATG ACCACGCCAT CTTACTCACG
    GGATTTGATA TTTGTTCCTG GAAGAATGAA CCGTGTGACA CTCTAGGGTT TGCCCCCATC
    AGTGGGATGT GCAGTAAGTA CCGAAGTTGT ACCATCAATG AGGACACAGG ACTTGGCCTG
    GCCTTCACCA TCGCTCATGA GTCAGGGCAC AATTTTGGCA TGATTCACGA TGGAGAAGGC
    AACCCTTGCA GGAAGGCTGA AGGCAATATC ATGTCTCCCA CACTGACAGG AAACAATGGG
    GTGTTTTCGT GGTCTTCATG TAGCCGGCAA TATCTCAAGA AATTCCTTAG TACACCTCAG
    GCTGGGTGTC TGGTGGATGA GCCCAAGCAA ACAGGGCAGT ATAAATATCC GGACAAACTA
    CCAGGACAGA TTTATGATGC TGACACACAG TGCAAGTGGC AATTTGGAGC AAAAGCCAAG
    TTATGCAGCC TCGGTTTTGC GAAGGACATT TGCAAATCAC TTTGGTGCCA CCGAGTGGGC
    CACAGATGTG AGACCAAGTT TATGCCTGCG GCGGAAGGGA CCGTTTGTGG CTTGAGTATG
    TGGTGTCGGC AAGGCCAGTG TGTAAAGTTT GGGGAGCATG GGCCCCGGCC CATCCACGGC
    CAGTGGTCTG CCTGGTCGAA GTGGTCAGAG TGTTCCCGAA CTTGTGGTGG AGGAGTCAAG
    TATCAAGAGA GACACTGCAA TAACCCCAAG CCTCAGTATG GTGGCAAGTT CTGTCCAGGT
    TCTAGCCGTA TTTATCAACT GTGCAACATT AACCCCTGTA GTGAAAATAG CTTGGATTTT
    CGAGCCCAGC AGTGTGCAGA ATATAATGGC AAACCTTTCC GTGGATGGTT CTACCAGTGG
    AAACCGTATA CGAAAGTGGA AGAGGAAGAT CGATGTAAAC TGTACTGCAA GGCTGAGAAC
    TTTGAATTTT TTTTTGCAAT GTCTGGCAAA GTGAAAGATG GGACCCCTTG CTCCCCGCAC
    AAAAATGACG TCTGCATCGA TGGGATTTGT GAACCAGTGG GGTGCGATCA TGAACTTGGC
    TCAAAAGCAG TCCTGGATGC ATGTGGTGTC TGCAAAGGTG ATAATTCAAC TTGCAAGTTT
    TATAAAGGCC TGTACCTCAA CCAGCACAAA GCGAATGAAT ATTATCCAGT TGTCATCATT
    CCAGCGGGGG CCCGAAGCAT TGAAATCCAG GAACTACAGA TATCCTCCAG TTACCTCGCA
    GTCCGAAGCC TCAGTCAAAA GTATTACCTC ACAGGGGGCT GGAGCATCGA CTGGCCTGGG
    GAGTTCCCCT TTGCTGGGAC CGTGTTTGAA TACCAGCGGG CCTTCAACCG CCCGGAACGT
    CTGTATGCGC CAGGACCCAC AAATGAGACG CTGGTCTTTG AAATTCTGAT GCAAGGCAAA
    AATCCAGGGA TAGCTTGGAA GTATGCACTT CCCAAGGTCG TGAATGGAAC TCAGCCAGCC
    TCAAAAAGAC ACATCCACGC CTGGAGTACA GTGCAGTCCG ATTGCTCCGT CTCCTGTGGT
    GGAGGTTACA TAAGTGTAAA GGCTGTTTGC TTACGAGATC AGAATACTCA AGTCAATTCC
    TCATTCTGTA ATGCAAGAAC CAAGCCAGCA ACTGAACCCA AAATATGCAA TGCTTTCTCC
    TGCCCTGCCT ATTGGAAGCC AGGCGAATGG AGTGTGTGCA GCAGGTCATG TGCAGGGGGC
    CAGCAAAGCC GAAAGATCCA GTGTGTCCAG AAGAAGCCCT TCCAGAAGGA GGAAGCAGTG
    TTGCATTCTC TCTGCCCAGT GAGCACACCT ACTCAGGTTC AAGTCTGCAA CAACGACGCC
    TGCCCTCCAG AGTGGAGCCT TGGGCCCTGG TCTCAGTGTT CCAAGACCTG TGGGCGAGGG
    ACGAGGAAAC GAGAAATCCT GTGCAAAAGT TCTGCCGCAG CAGAGGACCT CCCTGAGAGC
    CTGTGCTCCA GCATCCCGAG ACCAGAGTCC CAGGAGGGCT GTGTCCTAGG ACGATGCCCC
    AAAAACAACC GGCTGCAGTG GATCGTCTCT TCGTGGAGTG AGTGTTCTGT GACCTGTGGT
    TTGGGTGTGA GGAAGAGGGA AATGAAATGC AGCGAGAAAG CCTTCCAGGG AAAGCTGATA
    ACATTCCCAG AGCGAAGATG CCGCAATATT AAGAAACCAG ACCTGAACTT GGAAGAAACC
    TGCAACCAAG GGGCTTGCCC GGCCCGTCCA GTGTACAATA TGGCAGCTGG ATGGTATTCA
    TCGCCATGGC AACAGTGCAC GGTGACCTGT GGAGGAGGGG TCCAGACCCG ATCGGTCCAC
    TGTGTTCAGC AGGGCCGGCC CTCCTCAAGT TGTCTGCCCC ATCAGAAACC TCCAGTGCTA
    CGAGCCTGTA ATACAAACTT TTGTCCAGCT CCTGAAAAGA GAGAGGATCC ATCCTGTGTA
    GATTTCTTCA GCTGGTGTCA TCTAGTTCCT CAACATGGTG TCTGCAACCA CAAATTTTAT
    GGTAAACAGT GCTGCAAGTC ATGCACAAGG AAGAGCTGA

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

    CloneID OHb62064
    Clone ID Related Accession (Same CDS sequence) XM_023637360.1
    Accession Version XM_023637360.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 1516550400000
    Organism Equus caballus(horse)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 18 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_009146.3) 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 :: Equus caballus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGTCACTTT TTCTCTTGCA GGCGCTCCAG CTGTGCTGCC TCTGCTGTGC GTCGGTCGCC 
    GCAGCCTTAG CCAGTGAGAG CAGCAGCGGC GGCAGCGGAT TAAACGATGA TTACGTCTTT
    GTCACGCCCG TAGAAGTGGA CTCGGACGGG TCGTATATTT CACACGACAT TTTGCACAAC
    GGCAGGAAAA AGCGGTCTGC GCTGAGTGCC AGCAGCTCCC TGCATTACCG ATTTTCAGCA
    TTTGGACAGG AACTACATTT AGAACTTAAG CCCTCGGCGA TGTTGAGCAG TCACTTTATT
    GTCCAGGTAC TTGGAAAAGA TGGTGCTTCA GAGACTCGGG AACCCGAGGT GCAGCGATGT
    TTCTATCAGG GATTTATCAG AAATGACAGC TCCTCCTCCG TCGCTGTGTC TACGTGTGCC
    GGCTTGTCAG GTCTAATAAG GACACGAAAA AATGAATTCC TCATCTCGCC GTTACCTCAG
    CTCCTGGCCC AGGAACACAA CTACAGCTCA CCTGCTGGCC ACCATCCTCA CGTACTGTAT
    AAAAGGACAG CCGAGGAGAA GGTCCAGCGT TGCCTGGGCA ACCCGGGCTC CAGCCAGAAT
    TTTCTTGGTC ACCCCCCAAG TCACTCTCCC CACACACCTC AGAGTCAAGA AAGAGAGCAT
    CGCCATCGAA GGTTGCAAAA GCATCATTTT TGTGGACGAC GCAAGAAATA TGCCCCCAAG
    CCTCCCCCAG AGGACACCTA TCTCAGGTTT GATGAATACG GGGGCGCAGG GCGGCCCAGA
    AGATCAGCTG GAAAGTCACA AAAGGGTCTA AACGTGGAAA CCCTTGTGGT GGCGGACAAG
    AAAATGGTGG AAAAGCACAG CAAGGCAAAT GTCACCACGT ACATTCTCAC AGTCATGAAC
    ATGGTTTCCA GCCTATTTAA AGATGGGACC ATTGGGAGTG ATATAAACAT TGTTGTGGTG
    AGCCTCATTC TTCTGGAACA AGAACCTGGA GGATTATTGA TCAATCATCA TGCAGATCAG
    TCTCTGAATA GTTTTTGTCA GTGGCAGTCT GCCCTCATTG GAAAGAATGG CAAGAGGCAT
    GACCACGCCA TCTTACTCAC GGGATTTGAT ATTTGTTCCT GGAAGAATGA ACCGTGTGAC
    ACTCTAGGGT TTGCCCCCAT CAGTGGGATG TGCAGTAAGT ACCGAAGTTG TACCATCAAT
    GAGGACACAG GACTTGGCCT GGCCTTCACC ATCGCTCATG AGTCAGGGCA CAATTTTGGC
    ATGATTCACG ATGGAGAAGG CAACCCTTGC AGGAAGGCTG AAGGCAATAT CATGTCTCCC
    ACACTGACAG GAAACAATGG GGTGTTTTCG TGGTCTTCAT GTAGCCGGCA ATATCTCAAG
    AAATTCCTTA GTACACCTCA GGCTGGGTGT CTGGTGGATG AGCCCAAGCA AACAGGGCAG
    TATAAATATC CGGACAAACT ACCAGGACAG ATTTATGATG CTGACACACA GTGCAAGTGG
    CAATTTGGAG CAAAAGCCAA GTTATGCAGC CTCGGTTTTG CGAAGGACAT TTGCAAATCA
    CTTTGGTGCC ACCGAGTGGG CCACAGATGT GAGACCAAGT TTATGCCTGC GGCGGAAGGG
    ACCGTTTGTG GCTTGAGTAT GTGGTGTCGG CAAGGCCAGT GTGTAAAGTT TGGGGAGCAT
    GGGCCCCGGC CCATCCACGG CCAGTGGTCT GCCTGGTCGA AGTGGTCAGA GTGTTCCCGA
    ACTTGTGGTG GAGGAGTCAA GTATCAAGAG AGACACTGCA ATAACCCCAA GCCTCAGTAT
    GGTGGCAAGT TCTGTCCAGG TTCTAGCCGT ATTTATCAAC TGTGCAACAT TAACCCCTGT
    AGTGAAAATA GCTTGGATTT TCGAGCCCAG CAGTGTGCAG AATATAATGG CAAACCTTTC
    CGTGGATGGT TCTACCAGTG GAAACCGTAT ACGAAAGTGG AAGAGGAAGA TCGATGTAAA
    CTGTACTGCA AGGCTGAGAA CTTTGAATTT TTTTTTGCAA TGTCTGGCAA AGTGAAAGAT
    GGGACCCCTT GCTCCCCGCA CAAAAATGAC GTCTGCATCG ATGGGATTTG TGAACCAGTG
    GGGTGCGATC ATGAACTTGG CTCAAAAGCA GTCCTGGATG CATGTGGTGT CTGCAAAGGT
    GATAATTCAA CTTGCAAGTT TTATAAAGGC CTGTACCTCA ACCAGCACAA AGCGAATGAA
    TATTATCCAG TTGTCATCAT TCCAGCGGGG GCCCGAAGCA TTGAAATCCA GGAACTACAG
    ATATCCTCCA GTTACCTCGC AGTCCGAAGC CTCAGTCAAA AGTATTACCT CACAGGGGGC
    TGGAGCATCG ACTGGCCTGG GGAGTTCCCC TTTGCTGGGA CCGTGTTTGA ATACCAGCGG
    GCCTTCAACC GCCCGGAACG TCTGTATGCG CCAGGACCCA CAAATGAGAC GCTGGTCTTT
    GAAATTCTGA TGCAAGGCAA AAATCCAGGG ATAGCTTGGA AGTATGCACT TCCCAAGGTC
    GTGAATGGAA CTCAGCCAGC CTCAAAAAGA CACATCCACG CCTGGAGTAC AGTGCAGTCC
    GATTGCTCCG TCTCCTGTGG TGGAGGTTAC ATAAGTGTAA AGGCTGTTTG CTTACGAGAT
    CAGAATACTC AAGTCAATTC CTCATTCTGT AATGCAAGAA CCAAGCCAGC AACTGAACCC
    AAAATATGCA ATGCTTTCTC CTGCCCTGCC TATTGGAAGC CAGGCGAATG GAGTGTGTGC
    AGCAGGTCAT GTGCAGGGGG CCAGCAAAGC CGAAAGATCC AGTGTGTCCA GAAGAAGCCC
    TTCCAGAAGG AGGAAGCAGT GTTGCATTCT CTCTGCCCAG TGAGCACACC TACTCAGGTT
    CAAGTCTGCA ACAACGACGC CTGCCCTCCA GAGTGGAGCC TTGGGCCCTG GTCTCAGTGT
    TCCAAGACCT GTGGGCGAGG GACGAGGAAA CGAGAAATCC TGTGCAAAAG TTCTGCCGCA
    GCAGAGGACC TCCCTGAGAG CCTGTGCTCC AGCATCCCGA GACCAGAGTC CCAGGAGGGC
    TGTGTCCTAG GACGATGCCC CAAAAACAAC CGGCTGCAGT GGATCGTCTC TTCGTGGAGT
    GAGTGTTCTG TGACCTGTGG TTTGGGTGTG AGGAAGAGGG AAATGAAATG CAGCGAGAAA
    GCCTTCCAGG GAAAGCTGAT AACATTCCCA GAGCGAAGAT GCCGCAATAT TAAGAAACCA
    GACCTGAACT TGGAAGAAAC CTGCAACCAA GGGGCTTGCC CGGCCCGTCC AGTGTACAAT
    ATGGCAGCTG GATGGTATTC ATCGCCATGG CAACAGTGCA CGGTGACCTG TGGAGGAGGG
    GTCCAGACCC GATCGGTCCA CTGTGTTCAG CAGGGCCGGC CCTCCTCAAG TTGTCTGCCC
    CATCAGAAAC CTCCAGTGCT ACGAGCCTGT AATACAAACT TTTGTCCAGC TCCTGAAAAG
    AGAGAGGATC CATCCTGTGT AGATTTCTTC AGCTGGTGTC ATCTAGTTCC TCAACATGGT
    GTCTGCAACC ACAAATTTTA TGGTAAACAG TGCTGCAAGT CATGCACAAG GAAGAGCTGA

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

    RefSeq XP_023493128.1
    CDS162..3761
    Translation

    Target ORF information:

    RefSeq Version XM_023637360.1
    Organism Equus caballus(horse)
    Definition Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_023637360.1

    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
    ATGTCACTTT TTCTCTTGCA GGCGCTCCAG CTGTGCTGCC TCTGCTGTGC GTCGGTCGCC 
    GCAGCCTTAG CCAGTGAGAG CAGCAGCGGC GGCAGCGGAT TAAACGATGA TTACGTCTTT
    GTCACGCCCG TAGAAGTGGA CTCGGACGGG TCGTATATTT CACACGACAT TTTGCACAAC
    GGCAGGAAAA AGCGGTCTGC GCTGAGTGCC AGCAGCTCCC TGCATTACCG ATTTTCAGCA
    TTTGGACAGG AACTACATTT AGAACTTAAG CCCTCGGCGA TGTTGAGCAG TCACTTTATT
    GTCCAGGTAC TTGGAAAAGA TGGTGCTTCA GAGACTCGGG AACCCGAGGT GCAGCGATGT
    TTCTATCAGG GATTTATCAG AAATGACAGC TCCTCCTCCG TCGCTGTGTC TACGTGTGCC
    GGCTTGTCAG GTCTAATAAG GACACGAAAA AATGAATTCC TCATCTCGCC GTTACCTCAG
    CTCCTGGCCC AGGAACACAA CTACAGCTCA CCTGCTGGCC ACCATCCTCA CGTACTGTAT
    AAAAGGACAG CCGAGGAGAA GGTCCAGCGT TGCCTGGGCA ACCCGGGCTC CAGCCAGAAT
    TTTCTTGGTC ACCCCCCAAG TCACTCTCCC CACACACCTC AGAGTCAAGA AAGAGAGCAT
    CGCCATCGAA GGTTGCAAAA GCATCATTTT TGTGGACGAC GCAAGAAATA TGCCCCCAAG
    CCTCCCCCAG AGGACACCTA TCTCAGGTTT GATGAATACG GGGGCGCAGG GCGGCCCAGA
    AGATCAGCTG GAAAGTCACA AAAGGGTCTA AACGTGGAAA CCCTTGTGGT GGCGGACAAG
    AAAATGGTGG AAAAGCACAG CAAGGCAAAT GTCACCACGT ACATTCTCAC AGTCATGAAC
    ATGGTTTCCA GCCTATTTAA AGATGGGACC ATTGGGAGTG ATATAAACAT TGTTGTGGTG
    AGCCTCATTC TTCTGGAACA AGAACCTGGA GGATTATTGA TCAATCATCA TGCAGATCAG
    TCTCTGAATA GTTTTTGTCA GTGGCAGTCT GCCCTCATTG GAAAGAATGG CAAGAGGCAT
    GACCACGCCA TCTTACTCAC GGGATTTGAT ATTTGTTCCT GGAAGAATGA ACCGTGTGAC
    ACTCTAGGGT TTGCCCCCAT CAGTGGGATG TGCAGTAAGT ACCGAAGTTG TACCATCAAT
    GAGGACACAG GACTTGGCCT GGCCTTCACC ATCGCTCATG AGTCAGGGCA CAATTTTGGC
    ATGATTCACG ATGGAGAAGG CAACCCTTGC AGGAAGGCTG AAGGCAATAT CATGTCTCCC
    ACACTGACAG GAAACAATGG GGTGTTTTCG TGGTCTTCAT GTAGCCGGCA ATATCTCAAG
    AAATTCCTTA GTACACCTCA GGCTGGGTGT CTGGTGGATG AGCCCAAGCA AACAGGGCAG
    TATAAATATC CGGACAAACT ACCAGGACAG ATTTATGATG CTGACACACA GTGCAAGTGG
    CAATTTGGAG CAAAAGCCAA GTTATGCAGC CTCGGTTTTG CGAAGGACAT TTGCAAATCA
    CTTTGGTGCC ACCGAGTGGG CCACAGATGT GAGACCAAGT TTATGCCTGC GGCGGAAGGG
    ACCGTTTGTG GCTTGAGTAT GTGGTGTCGG CAAGGCCAGT GTGTAAAGTT TGGGGAGCAT
    GGGCCCCGGC CCATCCACGG CCAGTGGTCT GCCTGGTCGA AGTGGTCAGA GTGTTCCCGA
    ACTTGTGGTG GAGGAGTCAA GTATCAAGAG AGACACTGCA ATAACCCCAA GCCTCAGTAT
    GGTGGCAAGT TCTGTCCAGG TTCTAGCCGT ATTTATCAAC TGTGCAACAT TAACCCCTGT
    AGTGAAAATA GCTTGGATTT TCGAGCCCAG CAGTGTGCAG AATATAATGG CAAACCTTTC
    CGTGGATGGT TCTACCAGTG GAAACCGTAT ACGAAAGTGG AAGAGGAAGA TCGATGTAAA
    CTGTACTGCA AGGCTGAGAA CTTTGAATTT TTTTTTGCAA TGTCTGGCAA AGTGAAAGAT
    GGGACCCCTT GCTCCCCGCA CAAAAATGAC GTCTGCATCG ATGGGATTTG TGAACCAGTG
    GGGTGCGATC ATGAACTTGG CTCAAAAGCA GTCCTGGATG CATGTGGTGT CTGCAAAGGT
    GATAATTCAA CTTGCAAGTT TTATAAAGGC CTGTACCTCA ACCAGCACAA AGCGAATGAA
    TATTATCCAG TTGTCATCAT TCCAGCGGGG GCCCGAAGCA TTGAAATCCA GGAACTACAG
    ATATCCTCCA GTTACCTCGC AGTCCGAAGC CTCAGTCAAA AGTATTACCT CACAGGGGGC
    TGGAGCATCG ACTGGCCTGG GGAGTTCCCC TTTGCTGGGA CCGTGTTTGA ATACCAGCGG
    GCCTTCAACC GCCCGGAACG TCTGTATGCG CCAGGACCCA CAAATGAGAC GCTGGTCTTT
    GAAATTCTGA TGCAAGGCAA AAATCCAGGG ATAGCTTGGA AGTATGCACT TCCCAAGGTC
    GTGAATGGAA CTCAGCCAGC CTCAAAAAGA CACATCCACG CCTGGAGTAC AGTGCAGTCC
    GATTGCTCCG TCTCCTGTGG TGGAGGTTAC ATAAGTGTAA AGGCTGTTTG CTTACGAGAT
    CAGAATACTC AAGTCAATTC CTCATTCTGT AATGCAAGAA CCAAGCCAGC AACTGAACCC
    AAAATATGCA ATGCTTTCTC CTGCCCTGCC TATTGGAAGC CAGGCGAATG GAGTGTGTGC
    AGCAGGTCAT GTGCAGGGGG CCAGCAAAGC CGAAAGATCC AGTGTGTCCA GAAGAAGCCC
    TTCCAGAAGG AGGAAGCAGT GTTGCATTCT CTCTGCCCAG TGAGCACACC TACTCAGGTT
    CAAGTCTGCA ACAACGACGC CTGCCCTCCA GAGTGGAGCC TTGGGCCCTG GTCTCAGTGT
    TCCAAGACCT GTGGGCGAGG GACGAGGAAA CGAGAAATCC TGTGCAAAAG TTCTGCCGCA
    GCAGAGGACC TCCCTGAGAG CCTGTGCTCC AGCATCCCGA GACCAGAGTC CCAGGAGGGC
    TGTGTCCTAG GACGATGCCC CAAAAACAAC CGGCTGCAGT GGATCGTCTC TTCGTGGAGT
    GAGTGTTCTG TGACCTGTGG TTTGGGTGTG AGGAAGAGGG AAATGAAATG CAGCGAGAAA
    GCCTTCCAGG GAAAGCTGAT AACATTCCCA GAGCGAAGAT GCCGCAATAT TAAGAAACCA
    GACCTGAACT TGGAAGAAAC CTGCAACCAA GGGGCTTGCC CGGCCCGTCC AGTGTACAAT
    ATGGCAGCTG GATGGTATTC ATCGCCATGG CAACAGTGCA CGGTGACCTG TGGAGGAGGG
    GTCCAGACCC GATCGGTCCA CTGTGTTCAG CAGGGCCGGC CCTCCTCAAG TTGTCTGCCC
    CATCAGAAAC CTCCAGTGCT ACGAGCCTGT AATACAAACT TTTGTCCAGC TCCTGAAAAG
    AGAGAGGATC CATCCTGTGT AGATTTCTTC AGCTGGTGTC ATCTAGTTCC TCAACATGGT
    GTCTGCAACC ACAAATTTTA TGGTAAACAG TGCTGCAAGT CATGCACAAG GAAGAGCTGA

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

    CloneID OHb62065
    Clone ID Related Accession (Same CDS sequence) XM_023637361.1
    Accession Version XM_023637361.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3669bp)
    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 1516550400000
    Organism Equus caballus(horse)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 18 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_009146.3) 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 :: Equus caballus Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGAGTGCG CCCTCCTGCT CGCGTGCGCC CTCCCCGCAG CCGGCTCCGG CCCGCCGTGG 
    GCTCCGGCGG GACTGGGGCG CGTGGCCAAG GCGCTCCAGC TGTGCTGCCT CTGCTGTGCG
    TCGGTCGCCG CAGCCTTAGC CAGTGAGAGC AGCAGCGGCG GCAGCGGATT AAACGATGAT
    TACGTCTTTG TCACGCCCGT AGAAGTGGAC TCGGACGGGT CGTATATTTC ACACGACATT
    TTGCACAACG GCAGGAAAAA GCGGTCTGCG CTGAGTGCCA GCAGCTCCCT GCATTACCGA
    TTTTCAGCAT TTGGACAGGA ACTACATTTA GAACTTAAGC CCTCGGCGAT GTTGAGCAGT
    CACTTTATTG TCCAGGTACT TGGAAAAGAT GGTGCTTCAG AGACTCGGGA ACCCGAGGTG
    CAGCGATGTT TCTATCAGGG ATTTATCAGA AATGACAGCT CCTCCTCCGT CGCTGTGTCT
    ACGTGTGCCG GCTTGTCAGG TCTAATAAGG ACACGAAAAA ATGAATTCCT CATCTCGCCG
    TTACCTCAGC TCCTGGCCCA GGAACACAAC TACAGCTCAC CTGCTGGCCA CCATCCTCAC
    GTACTGTATA AAAGGACAGC CGAGGAGAAG GTCCAGCGTT GCCTGGGCAA CCCGGGCTCC
    AGCCAGAATT TTCTTGGTCA CCCCCCAAGT CACTCTCCCC ACACACCTCA GAGTCAAGAA
    AGAGAGCATC GCCATCGAAG GTTGCAAAAG CATCATTTTT GTGGACGACG CAAGAAATAT
    GCCCCCAAGC CTCCCCCAGA GGACACCTAT CTCAGGTTTG ATGAATACGG GGGCGCAGGG
    CGGCCCAGAA GATCAGCTGG AAAGTCACAA AAGGGTCTAA ACGTGGAAAC CCTTGTGGTG
    GCGGACAAGA AAATGGTGGA AAAGCACAGC AAGGCAAATG TCACCACGTA CATTCTCACA
    GTCATGAACA TGGTTTCCAG CCTATTTAAA GATGGGACCA TTGGGAGTGA TATAAACATT
    GTTGTGGTGA GCCTCATTCT TCTGGAACAA GAACCTGGAG GATTATTGAT CAATCATCAT
    GCAGATCAGT CTCTGAATAG TTTTTGTCAG TGGCAGTCTG CCCTCATTGG AAAGAATGGC
    AAGAGGCATG ACCACGCCAT CTTACTCACG GGATTTGATA TTTGTTCCTG GAAGAATGAA
    CCGTGTGACA CTCTAGGGTT TGCCCCCATC AGTGGGATGT GCAGTAAGTA CCGAAGTTGT
    ACCATCAATG AGGACACAGG ACTTGGCCTG GCCTTCACCA TCGCTCATGA GTCAGGGCAC
    AATTTTGGCA TGATTCACGA TGGAGAAGGC AACCCTTGCA GGAAGGCTGA AGGCAATATC
    ATGTCTCCCA CACTGACAGG AAACAATGGG GTGTTTTCGT GGTCTTCATG TAGCCGGCAA
    TATCTCAAGA AATTCCTTAG TACACCTCAG GCTGGGTGTC TGGTGGATGA GCCCAAGCAA
    ACAGGGCAGT ATAAATATCC GGACAAACTA CCAGGACAGA TTTATGATGC TGACACACAG
    TGCAAGTGGC AATTTGGAGC AAAAGCCAAG TTATGCAGCC TCGGTTTTGC GAAGGACATT
    TGCAAATCAC TTTGGTGCCA CCGAGTGGGC CACAGATGTG AGACCAAGTT TATGCCTGCG
    GCGGAAGGGA CCGTTTGTGG CTTGAGTATG TGGTGTCGGC AAGGCCAGTG TGTAAAGTTT
    GGGGAGCATG GGCCCCGGCC CATCCACGGC CAGTGGTCTG CCTGGTCGAA GTGGTCAGAG
    TGTTCCCGAA CTTGTGGTGG AGGAGTCAAG TATCAAGAGA GACACTGCAA TAACCCCAAG
    CCTCAGTATG GTGGCAAGTT CTGTCCAGGT TCTAGCCGTA TTTATCAACT GTGCAACATT
    AACCCCTGTA GTGAAAATAG CTTGGATTTT CGAGCCCAGC AGTGTGCAGA ATATAATGGC
    AAACCTTTCC GTGGATGGTT CTACCAGTGG AAACCGTATA CGAAAGTGGA AGAGGAAGAT
    CGATGTAAAC TGTACTGCAA GGCTGAGAAC TTTGAATTTT TTTTTGCAAT GTCTGGCAAA
    GTGAAAGATG GGACCCCTTG CTCCCCGCAC AAAAATGACG TCTGCATCGA TGGGATTTGT
    GAACCAGTGG GGTGCGATCA TGAACTTGGC TCAAAAGCAG TCCTGGATGC ATGTGGTGTC
    TGCAAAGGTG ATAATTCAAC TTGCAAGTTT TATAAAGGCC TGTACCTCAA CCAGCACAAA
    GCGAATGAAT ATTATCCAGT TGTCATCATT CCAGCGGGGG CCCGAAGCAT TGAAATCCAG
    GAACTACAGA TATCCTCCAG TTACCTCGCA GTCCGAAGCC TCAGTCAAAA GTATTACCTC
    ACAGGGGGCT GGAGCATCGA CTGGCCTGGG GAGTTCCCCT TTGCTGGGAC CGTGTTTGAA
    TACCAGCGGG CCTTCAACCG CCCGGAACGT CTGTATGCGC CAGGACCCAC AAATGAGACG
    CTGGTCTTTG AAATTCTGAT GCAAGGCAAA AATCCAGGGA TAGCTTGGAA GTATGCACTT
    CCCAAGGTCG TGAATGGAAC TCAGCCAGCC TCAAAAAGAC ACATCCACGC CTGGAGTACA
    GTGCAGTCCG ATTGCTCCGT CTCCTGTGGT GGAGGTTACA TAAGTGTAAA GGCTGTTTGC
    TTACGAGATC AGAATACTCA AGTCAATTCC TCATTCTGTA ATGCAAGAAC CAAGCCAGCA
    ACTGAACCCA AAATATGCAA TGCTTTCTCC TGCCCTGCCT ATTGGAAGCC AGGCGAATGG
    AGTGTGTGCA GCAGGTCATG TGCAGGGGGC CAGCAAAGCC GAAAGATCCA GTGTGTCCAG
    AAGAAGCCCT TCCAGAAGGA GGAAGCAGTG TTGCATTCTC TCTGCCCAGT GAGCACACCT
    ACTCAGGTTC AAGTCTGCAA CAACGACGCC TGCCCTCCAG AGTGGAGCCT TGGGCCCTGG
    TCTCAGTGTT CCAAGACCTG TGGGCGAGGG ACGAGGAAAC GAGAAATCCT GTGCAAAAGT
    TCTGCCGCAG CAGAGGACCT CCCTGAGAGC CTGTGCTCCA GCATCCCGAG ACCAGAGTCC
    CAGGAGGGCT GTGTCCTAGG ACGATGCCCC AAAAACAACC GGCTGCAGTG GATCGTCTCT
    TCGTGGAGTG AGTGTTCTGT GACCTGTGGT TTGGGTGTGA GGAAGAGGGA AATGAAATGC
    AGCGAGAAAG CCTTCCAGGG AAAGCTGATA ACATTCCCAG AGCGAAGATG CCGCAATATT
    AAGAAACCAG ACCTGAACTT GGAAGAAACC TGCAACCAAG GGGCTTGCCC GGCCCGTCCA
    GTGTACAATA TGGCAGCTGG ATGGTATTCA TCGCCATGGC AACAGTGCAC GGTGACCTGT
    GGAGGAGGGG TCCAGACCCG ATCGGTCCAC TGTGTTCAGC AGGGCCGGCC CTCCTCAAGT
    TGTCTGCCCC ATCAGAAACC TCCAGTGCTA CGAGCCTGTA ATACAAACTT TTGTCCAGCT
    CCTGAAAAGA GAGAGGATCC ATCCTGTGTA GATTTCTTCA GCTGGTGTCA TCTAGTTCCT
    CAACATGGTG TCTGCAACCA CAAATTTTAT GGTAAACAGT GCTGCAAGTC ATGCACAAGG
    AAGAGCTGA

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

    RefSeq XP_023493129.1
    CDS2..3670
    Translation

    Target ORF information:

    RefSeq Version XM_023637361.1
    Organism Equus caballus(horse)
    Definition Equus caballus ADAM metallopeptidase with thrombospondin type 1 motif 18 (ADAMTS18), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_023637361.1

    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
    ATGGAGTGCG CCCTCCTGCT CGCGTGCGCC CTCCCCGCAG CCGGCTCCGG CCCGCCGTGG 
    GCTCCGGCGG GACTGGGGCG CGTGGCCAAG GCGCTCCAGC TGTGCTGCCT CTGCTGTGCG
    TCGGTCGCCG CAGCCTTAGC CAGTGAGAGC AGCAGCGGCG GCAGCGGATT AAACGATGAT
    TACGTCTTTG TCACGCCCGT AGAAGTGGAC TCGGACGGGT CGTATATTTC ACACGACATT
    TTGCACAACG GCAGGAAAAA GCGGTCTGCG CTGAGTGCCA GCAGCTCCCT GCATTACCGA
    TTTTCAGCAT TTGGACAGGA ACTACATTTA GAACTTAAGC CCTCGGCGAT GTTGAGCAGT
    CACTTTATTG TCCAGGTACT TGGAAAAGAT GGTGCTTCAG AGACTCGGGA ACCCGAGGTG
    CAGCGATGTT TCTATCAGGG ATTTATCAGA AATGACAGCT CCTCCTCCGT CGCTGTGTCT
    ACGTGTGCCG GCTTGTCAGG TCTAATAAGG ACACGAAAAA ATGAATTCCT CATCTCGCCG
    TTACCTCAGC TCCTGGCCCA GGAACACAAC TACAGCTCAC CTGCTGGCCA CCATCCTCAC
    GTACTGTATA AAAGGACAGC CGAGGAGAAG GTCCAGCGTT GCCTGGGCAA CCCGGGCTCC
    AGCCAGAATT TTCTTGGTCA CCCCCCAAGT CACTCTCCCC ACACACCTCA GAGTCAAGAA
    AGAGAGCATC GCCATCGAAG GTTGCAAAAG CATCATTTTT GTGGACGACG CAAGAAATAT
    GCCCCCAAGC CTCCCCCAGA GGACACCTAT CTCAGGTTTG ATGAATACGG GGGCGCAGGG
    CGGCCCAGAA GATCAGCTGG AAAGTCACAA AAGGGTCTAA ACGTGGAAAC CCTTGTGGTG
    GCGGACAAGA AAATGGTGGA AAAGCACAGC AAGGCAAATG TCACCACGTA CATTCTCACA
    GTCATGAACA TGGTTTCCAG CCTATTTAAA GATGGGACCA TTGGGAGTGA TATAAACATT
    GTTGTGGTGA GCCTCATTCT TCTGGAACAA GAACCTGGAG GATTATTGAT CAATCATCAT
    GCAGATCAGT CTCTGAATAG TTTTTGTCAG TGGCAGTCTG CCCTCATTGG AAAGAATGGC
    AAGAGGCATG ACCACGCCAT CTTACTCACG GGATTTGATA TTTGTTCCTG GAAGAATGAA
    CCGTGTGACA CTCTAGGGTT TGCCCCCATC AGTGGGATGT GCAGTAAGTA CCGAAGTTGT
    ACCATCAATG AGGACACAGG ACTTGGCCTG GCCTTCACCA TCGCTCATGA GTCAGGGCAC
    AATTTTGGCA TGATTCACGA TGGAGAAGGC AACCCTTGCA GGAAGGCTGA AGGCAATATC
    ATGTCTCCCA CACTGACAGG AAACAATGGG GTGTTTTCGT GGTCTTCATG TAGCCGGCAA
    TATCTCAAGA AATTCCTTAG TACACCTCAG GCTGGGTGTC TGGTGGATGA GCCCAAGCAA
    ACAGGGCAGT ATAAATATCC GGACAAACTA CCAGGACAGA TTTATGATGC TGACACACAG
    TGCAAGTGGC AATTTGGAGC AAAAGCCAAG TTATGCAGCC TCGGTTTTGC GAAGGACATT
    TGCAAATCAC TTTGGTGCCA CCGAGTGGGC CACAGATGTG AGACCAAGTT TATGCCTGCG
    GCGGAAGGGA CCGTTTGTGG CTTGAGTATG TGGTGTCGGC AAGGCCAGTG TGTAAAGTTT
    GGGGAGCATG GGCCCCGGCC CATCCACGGC CAGTGGTCTG CCTGGTCGAA GTGGTCAGAG
    TGTTCCCGAA CTTGTGGTGG AGGAGTCAAG TATCAAGAGA GACACTGCAA TAACCCCAAG
    CCTCAGTATG GTGGCAAGTT CTGTCCAGGT TCTAGCCGTA TTTATCAACT GTGCAACATT
    AACCCCTGTA GTGAAAATAG CTTGGATTTT CGAGCCCAGC AGTGTGCAGA ATATAATGGC
    AAACCTTTCC GTGGATGGTT CTACCAGTGG AAACCGTATA CGAAAGTGGA AGAGGAAGAT
    CGATGTAAAC TGTACTGCAA GGCTGAGAAC TTTGAATTTT TTTTTGCAAT GTCTGGCAAA
    GTGAAAGATG GGACCCCTTG CTCCCCGCAC AAAAATGACG TCTGCATCGA TGGGATTTGT
    GAACCAGTGG GGTGCGATCA TGAACTTGGC TCAAAAGCAG TCCTGGATGC ATGTGGTGTC
    TGCAAAGGTG ATAATTCAAC TTGCAAGTTT TATAAAGGCC TGTACCTCAA CCAGCACAAA
    GCGAATGAAT ATTATCCAGT TGTCATCATT CCAGCGGGGG CCCGAAGCAT TGAAATCCAG
    GAACTACAGA TATCCTCCAG TTACCTCGCA GTCCGAAGCC TCAGTCAAAA GTATTACCTC
    ACAGGGGGCT GGAGCATCGA CTGGCCTGGG GAGTTCCCCT TTGCTGGGAC CGTGTTTGAA
    TACCAGCGGG CCTTCAACCG CCCGGAACGT CTGTATGCGC CAGGACCCAC AAATGAGACG
    CTGGTCTTTG AAATTCTGAT GCAAGGCAAA AATCCAGGGA TAGCTTGGAA GTATGCACTT
    CCCAAGGTCG TGAATGGAAC TCAGCCAGCC TCAAAAAGAC ACATCCACGC CTGGAGTACA
    GTGCAGTCCG ATTGCTCCGT CTCCTGTGGT GGAGGTTACA TAAGTGTAAA GGCTGTTTGC
    TTACGAGATC AGAATACTCA AGTCAATTCC TCATTCTGTA ATGCAAGAAC CAAGCCAGCA
    ACTGAACCCA AAATATGCAA TGCTTTCTCC TGCCCTGCCT ATTGGAAGCC AGGCGAATGG
    AGTGTGTGCA GCAGGTCATG TGCAGGGGGC CAGCAAAGCC GAAAGATCCA GTGTGTCCAG
    AAGAAGCCCT TCCAGAAGGA GGAAGCAGTG TTGCATTCTC TCTGCCCAGT GAGCACACCT
    ACTCAGGTTC AAGTCTGCAA CAACGACGCC TGCCCTCCAG AGTGGAGCCT TGGGCCCTGG
    TCTCAGTGTT CCAAGACCTG TGGGCGAGGG ACGAGGAAAC GAGAAATCCT GTGCAAAAGT
    TCTGCCGCAG CAGAGGACCT CCCTGAGAGC CTGTGCTCCA GCATCCCGAG ACCAGAGTCC
    CAGGAGGGCT GTGTCCTAGG ACGATGCCCC AAAAACAACC GGCTGCAGTG GATCGTCTCT
    TCGTGGAGTG AGTGTTCTGT GACCTGTGGT TTGGGTGTGA GGAAGAGGGA AATGAAATGC
    AGCGAGAAAG CCTTCCAGGG AAAGCTGATA ACATTCCCAG AGCGAAGATG CCGCAATATT
    AAGAAACCAG ACCTGAACTT GGAAGAAACC TGCAACCAAG GGGCTTGCCC GGCCCGTCCA
    GTGTACAATA TGGCAGCTGG ATGGTATTCA TCGCCATGGC AACAGTGCAC GGTGACCTGT
    GGAGGAGGGG TCCAGACCCG ATCGGTCCAC TGTGTTCAGC AGGGCCGGCC CTCCTCAAGT
    TGTCTGCCCC ATCAGAAACC TCCAGTGCTA CGAGCCTGTA ATACAAACTT TTGTCCAGCT
    CCTGAAAAGA GAGAGGATCC ATCCTGTGTA GATTTCTTCA GCTGGTGTCA TCTAGTTCCT
    CAACATGGTG TCTGCAACCA CAAATTTTAT GGTAAACAGT GCTGCAAGTC ATGCACAAGG
    AAGAGCTGA

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