ORF » Species Summary » Rattus norvegicus » Adamts20 cDNA ORF clone

Adamts20 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Adamts20 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts20 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
ORa47403 XM_008765879.2
Latest version!		 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $951.30
$1359.00
ORa55721 XM_017603351.1
Latest version!		 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    Adamts20 ( XM_008765879.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008764101.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa47403
    Clone ID Related Accession (Same CDS sequence) XM_008765879.2
    Accession Version XM_008765879.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5790bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product LOW QUALITY PROTEIN: A disintegrin and metalloproteinase with thrombospondin motifs 20 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005106.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008765879.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 5% of CDS bases frameshifts :: corrected 1 indel ##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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCGGGTGG CCAAGTGGCT GACCGGGTTG CTCTGCCCGA TCTCGCTCCT TCTCACTGGG 
    TCCTGGGAAG TTCGTTTCCA CCCACGACAG GAAGCCCTGG TGAAGACTCT GGCCTCCTAC 
    GAAGTGGTGA CCCCCACGCG GGTCAATGAG TTCGGAGACG TGTTCCCCCA AAACCGGCAT 
    TTCAGCCGGA AGAAACGAAG CTCCGGGGTG CCGGAGCCTC CTCCGCTCAG GACCCACTAC 
    CGTATTAGCG CCTACGGGCA GCTCTTCCAG CTGAACCTGA GCGCTGACTC CGCCTTCCTG 
    GCTGCAGGCT ATACTGAGGT GCACTTGGGG ACCCCGGTGC CCGGACCAGG CGGGCGCAGC 
    GCGGAGCCCC CAGACCTGCG CCACTGTTTC TACCGTGGCC AGGTCAACGC GCGAGAGGAC 
    CACATTGCTG TCTTCAGTCT GTGTGGGGGA CTGATGGGAA CATTCAAAGC AAATGATGGG 
    GAGTATTTCT TAGAGCCAGT CCTGAAGGCA GATGGGAGTG AGCACGAAGA TGACCACAAC 
    AAGCCGCATC TGATCTACAG ACAGGAAGTA AAGAGGAACG CCTTCGTGCG GTCTCAGTCT 
    CATGGGCCTT GCGGAGTTTC AGAAAATCAG ACGGAGAAAA CTGCTTTGCC CTCTCCTAGC 
    TTCCGGAACA CGACCGGAGA CCTTAATAGG AGGAAGGGAG CGGTGTTCGG ATTGGAAGGT 
    GAACGGAGCC GGTTACATTC CAGGAGTAAG CGTTTCCTGT CGTACCCAAG ATACGTGGAA 
    GTTATGGTGA CGGCGGACGC TAAGATGGTT CGCCATCACG GGCAGAATTT GCAGCACTAT 
    GTGCTGACGC TAATGTCCAT CGTTGCTGCA ATCTACAAGG ATTCGAGCAT TGGGAACCTT 
    ATAAATATAG TGATTGTGAA GTTAGTGATA ATTCACAGTG AGCAGGAAGG ACCGGTGATC 
    AGTTTTAATG CAGCCACCAC GTTGCGCAAC TTTTGCTTGT GGCAACAGAG TCAGAATGTT 
    CTGGACGATG CTCATCCTTC CCACCATGAC ACCGCGGTCC TCATCACTAG GGAAGACATT 
    TGTGGAGCTA AGGAGAAATG TGACACATTA GGCTTAGCGG AGTTAGGCAC CCTGTGCGAT 
    CCTTCGAGGA GCTGCTCCAT TAGCGAGGAG AACGGACTGA GCGCCGCCTT CACCATCGCC 
    CACGAGCTTG GGCACGTGTT TAACGTCCCA CACGATGACA GTTTTAAATG TAAAGAATCT 
    GGGACTAAAC ATCAGTATCA CGTAATGGCC CCGACTCTAA ATTACCACAC AAGCCCTTGG 
    ACCTGGTCGG CCTGCAGTCA GAAGCACATA ACGGAGTTTC TGGACACTGG CCATGGAGAA 
    TGCCTTCTCG ACAAACCCAA CGGAAGAACC TATGACCTGT CTCCCCAGCT CCCAGGCTCG 
    GTGTACGATG GGAACAAGCA GTGCGAACTC ATGTTCGGTC CCGGATCGCA AGTGTGCCCC 
    TACTTGAAGC AGTGTCGGCG CCTGTGGTGC ACGAGCGCAG AAGGCGTCCA CAAGGGCTGT 
    CGCACACAGC ACATGCCGCT GGCAGATGGG ACAAGCTGTG GTCCTGGGAT GCACTGCCAC 
    CGCGGGCTGT GTGTGACCAG AGACATGGAG ACCCGTCCTG TGGATGGCGA GTGGGGGCCG 
    TGGGGACCCT ACAGCTCGTG TTCCAGAACC TGTGGTGGGG GAATCAGGAG CACAGCCAGG 
    CTCTGTGACC GGCCTGAGCC ACGAAACGGA GGAAGGTACT GTGTGGGCCG CAGGATGAAA 
    TTTCGGTCAT GTAATACTGA TTCATGTCCA AAAGGCAAGC GAGACTTCCG AGAAAAGCAA 
    TGTTCCGACT TCGATGGTAA ACATTTCGAC ATCAGCGGCC TCCCCCCCAA TGTGAGGTGG 
    CTTCCGAAGT ACAGCGGGAT CGCCGTCAAA GATCGCTGTA AACTCTATTG CCGGGTGGCT 
    GGGACCACCA GCTTCTACCA GCTAAAGGAC AGAGTCGCTG ACGGGACACC CTGTGGGACG 
    GAAACTAACG ACATCTGTGT CCAGGGCCTC TGTCGGCAAG CCGGCTGTGA TCATGTGTTA 
    AACTCCAAGG CCAAGAGAGA CAAATGTGGA GTGTGTGGTG GTGATAACTC TTCGTGCCAG 
    ACCCTGGCGG GTGTCTTCAA CAGTGCACAT TATGGTTACA ATGTCGTTGT AAAGATCCCT 
    GCAGGGGCTA CAAACATTGA AATTCTCCAG CACAGCTATT CTGGAAGACC AGAAGATGAC 
    AACTATCTCG CACTGTCTGA CACTCAAGGG AACTTCCTTC TGAATGGAAA CTTTGTTGTA 
    AGTATGGCAA AGAAAGAGAT CAACATCCAG GGCGCTGTTT TCGAGTACAG TGGGTCCAAC 
    AACTCCATTG AAAGGATCAA TAGCACGGAC CGGCTGGAAG CGGAGCTTGT TCTGCAGGTG 
    TTGTGTGTGG GTAATTTATA CAACCCTGAC GTGCACTATA TCTTCAACAT CCCCATTGAG 
    GAGAGGAGTA ATCTGTTCTC CTGGGATCCG TATGGGCCGT GGCAAGACTG TACCAAAATG 
    TGCCAAGGTC TTCATAGAAG AAAAATTGCC TGCATTCGTA AGAGTGACCG TGCGGTCGTA 
    TCTGACCAAA GTTGTAGCCA CTTACCGCTG CCACTGTTTG TGACTGAAAG GTGCAATACG 
    GACTGTGAAC TCAGGTGGCA CATCACGGGG AAAAGTGACT GCTCATCCCA GTGTGGCCAA 
    GGATACAGGA CCCTAGACGT TCACTGCATG AAGTACTCCG TTCATAAAGG ACAGACTGTC 
    CCAGTGGGAG ACCAGTACTG TGGTGACCAG CTCAAACCTC CCAACCGAGA GCCCTGTCAT 
    GGCAGCTGTG TTTTAACAAG GTGGCATTAT TCAGAGTGGT CCCAGTGTTC TAGGAGTTGT 
    GGCGGCGGTG AGAAGACTCG AGAGTCCTAC TGTGTAAACG GCTTTGGCCA CCGCCTTGCT 
    GAACGAGAGT GTCAGGAGCT CCCTCGGGTG GTGCTGGGGA ACTGCAATGA CTTTCCGTGT 
    CCCGGCTGGG CAACTAGTGA GTGGAGTGAG TGTCCTGTCA CGTGCGGAAA GGGAATGAAG 
    CAGAGGCAGG TTTGGTGCCA GCGGAGCGAA GACCCCGTGG GGGATGACTT CTGCGATGCC 
    AGTACCAAGC CTGAGTCGCT GGGACCCTGT GAGCTCCGTG CGTGCGCTTC TTGGCATGTG 
    GGACCGTGGG GTTCTTGCAC GGTCACCTGT GGACACGGAT ACCAGGTGCG TGCTGTTAAG 
    TGCGTCAGTG AGATACTTGG CACCGTGCTA GATGACAGAG AATGCCCCAG AGCCAGCCGG 
    CCAAGTGACA GACAGGTAAA GGAGGTCTCT ATGGATCAGA AGAAGAAATG CTTATGTCTT 
    CATAGAAGAA AAATTGCCTG CATTCGTAAG AGTGACCGTG CGGTCGTATC TGACCAAAGT 
    TGTAGCCACT TACCGCTGCC ACTGTTTGTG ACTGAAAGGT GCAATACGGA CTGTGAACTC 
    AGTGCCTGCT TTCTCGTGGG CATATTCACC GTGACCAATC CCCTGCTTGC CACCCCCACA 
    AGGCTGAAGC AGAGAGACAC CTCAGCAGGT CGAGGCAAGT GGGCGCAATT CAACTCATCC 
    GCTACTCTCA TCGTGGGCGT CACGGCAGCT CACCTCAGCC CTAGGGTGAC GACTTCCTGT 
    GGACATGGGA AAACCACTCG GCGTGTTCTA TGTGTGAACT ACCACCAACT GGTGGACGAG 
    AGTTACTGTG ACCCCGAAGG CCGTCCTGTG ACTGAACAAG AATGTCGCCT GGCGGCCTGC 
    CCGCCCTCGT ACAGCCGCTC TCCCAGCTCC TCTGAGCAGC CAAGTCATGG TCCAGGCAGA 
    AATGTTCCAT TAACTCACAA ACCAGAAGAG AATCCAGATC AGGGGGTCCA GCTGTCAATC 
    AGAGGAAACC AGTGGAGAAC AGGCCCTTGG GGAGCATGCT CCAGAAGGTG CTGCGGGCGG 
    TCTTCAGCAC AGGGCTGTGG GGTCTGCCAG GACGAAGATG GGCGAAGCGC CACTTCCTGT 
    GAGGCGACCT CCAAGCCCCC AGAGTCCAAG CACTGTGGCT CCGGACCTTG TCCGCAGTGG 
    AATTATGGGG ACTGGGGAGA GTGCACACAG ACCTGTGGCG CAGGGGTAAA ATCAAGATTT 
    GTGATCTGTC AGTTTCCCGA TGGCCAAATG GCACAAGAAC ACAGCTGCGA ACTGCCGAAG 
    CCACCTAGCA TGATGCAATG TCACCTGCGC GCCTGCCCTG ATGATGTGTC CTGGTATCGG 
    GGATCATGGA AATCGTGCTC AGCTTCTTGT GGTAAAGGCA TAAAGTACCG GGAGGTTCTC 
    TGCATTGATC AAGTCCAAAG GAAACTAGAA GAAAAATATT GCAGTCATTT GCATAAACCT 
    CGGACTCACA AACCTTGCAG ATCAGGACGA TGCCCTTCGT GGAAAGCCAA TAAATGGAAG 
    GAGTGCTCTG TGACCTGTGG GTCTGGGGTA CAGCAGAGGG AGGTGTACTG CAGACTGAGA 
    GGCACTGGTC GAGTGGCTGA AGACATGTGT GAGCCTTCTA CCCGGCCTCA GGTGCAACGG 
    CCATGCTGGC ATCAGGACTG TACGAGGTAC CAGTGGACAA CAGGAGACTG GCTAGACTGT 
    TCAACATCCT GTAAGAAAAA GGAGACCTAT CGGCTGGTGA AATGCGTGAA TGAACGAAAC 
    ATGCAAGTGA ATGAAAGTCT CTGTGACCCT TTAACGAAAC CCGTTTCGAT CAAAAAGTGC 
    AGGAATTCTC ACTGCAAGTA CATGGTGGTG ACAGGAGACT CGTCGCAGTG TGCAGGTAAC 
    TGTGGGCTCA CTTACTCACA GAGGATTACA TACTGTACCA GGATCCAGCC GCCTAAGAAA 
    AATGCATTCC ATCATCAACT TCGGCCTGTA AACTACGGGC AGTGCCCCGT GATACCTTCT 
    CCTCAGGTGT ACAAATGCGA CATTAGAAGT TGTTTGCGTG GAGCCACTTG GAAAGTGGGA 
    AAGTGGAGCA AGTGCTCAGT AACTTGTGGA AATGGGATAA TGGAGAGAAG AGTAGCGTGC 
    AGGACTGAGA ACGGTTGGCC CAGTGACTTA TGTTTAAAGC GTTTAAAGCC AGATGCCCAA 
    AAGAAATGTT ATGCCAATGA CTGTAAATTA CTCACCACCT GCAAAGAAAT CCAAGTTACA 
    AACAACATTA CCAAGGATGG CAACTATGAT CTTAACGTCA GGGGAAGAAT ATTGAAGATT 
    CATTGCTCAG GCATGCAGCT GGAGAACCCT AGAGAATATT TACCCCTGGT CAAAGTTGAA 
    GACAACTTTT CGGAAATATA TGGCCTTAGA CTTCAAAATC CCTACGAATG CCCCTTCAAC 
    GGAAGTAGGA GGGCAGACTG TGCGTGTGAA AATGACTACC CACCTGCCGG ATACACTGTT 
    TTTAGCAAAG TGAGAGTTGA TCTCGCATCC ATGCAAATCA AAACGACGGA TCTTCTTTTC 
    TCCCGGACAC TATTTGGAAA GGCAGTTCCA TTTGCCACAG CTGGAGACTG CTACAGTGCT 
    GCCAGATGCC CACAGGGGCA GTTCAGCATC AACTTAGCAG GAACTGGCAT GAAGGTATCT 
    AGCACGGCAA AGTGGCTCGC TCAGGGGAGG TATGCCTCGG TCATCATCCA CAGATCTCAG 
    GACGGAACCA AAGTGTACGG CAGATGCGGA GGGTTCTGTG GCAAGTGCGT TCCTCACGTG 
    TCTACGGGGC TCCCGATTCA AGTGCTATGA

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

    RefSeq XP_008764101.1
    CDS288..6077
    Translation

    Target ORF information:

    RefSeq Version XM_008765879.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008765879.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGCGGGTGG CCAAGTGGCT GACCGGGTTG CTCTGCCCGA TCTCGCTCCT TCTCACTGGG 
    TCCTGGGAAG TTCGTTTCCA CCCACGACAG GAAGCCCTGG TGAAGACTCT GGCCTCCTAC 
    GAAGTGGTGA CCCCCACGCG GGTCAATGAG TTCGGAGACG TGTTCCCCCA AAACCGGCAT 
    TTCAGCCGGA AGAAACGAAG CTCCGGGGTG CCGGAGCCTC CTCCGCTCAG GACCCACTAC 
    CGTATTAGCG CCTACGGGCA GCTCTTCCAG CTGAACCTGA GCGCTGACTC CGCCTTCCTG 
    GCTGCAGGCT ATACTGAGGT GCACTTGGGG ACCCCGGTGC CCGGACCAGG CGGGCGCAGC 
    GCGGAGCCCC CAGACCTGCG CCACTGTTTC TACCGTGGCC AGGTCAACGC GCGAGAGGAC 
    CACATTGCTG TCTTCAGTCT GTGTGGGGGA CTGATGGGAA CATTCAAAGC AAATGATGGG 
    GAGTATTTCT TAGAGCCAGT CCTGAAGGCA GATGGGAGTG AGCACGAAGA TGACCACAAC 
    AAGCCGCATC TGATCTACAG ACAGGAAGTA AAGAGGAACG CCTTCGTGCG GTCTCAGTCT 
    CATGGGCCTT GCGGAGTTTC AGAAAATCAG ACGGAGAAAA CTGCTTTGCC CTCTCCTAGC 
    TTCCGGAACA CGACCGGAGA CCTTAATAGG AGGAAGGGAG CGGTGTTCGG ATTGGAAGGT 
    GAACGGAGCC GGTTACATTC CAGGAGTAAG CGTTTCCTGT CGTACCCAAG ATACGTGGAA 
    GTTATGGTGA CGGCGGACGC TAAGATGGTT CGCCATCACG GGCAGAATTT GCAGCACTAT 
    GTGCTGACGC TAATGTCCAT CGTTGCTGCA ATCTACAAGG ATTCGAGCAT TGGGAACCTT 
    ATAAATATAG TGATTGTGAA GTTAGTGATA ATTCACAGTG AGCAGGAAGG ACCGGTGATC 
    AGTTTTAATG CAGCCACCAC GTTGCGCAAC TTTTGCTTGT GGCAACAGAG TCAGAATGTT 
    CTGGACGATG CTCATCCTTC CCACCATGAC ACCGCGGTCC TCATCACTAG GGAAGACATT 
    TGTGGAGCTA AGGAGAAATG TGACACATTA GGCTTAGCGG AGTTAGGCAC CCTGTGCGAT 
    CCTTCGAGGA GCTGCTCCAT TAGCGAGGAG AACGGACTGA GCGCCGCCTT CACCATCGCC 
    CACGAGCTTG GGCACGTGTT TAACGTCCCA CACGATGACA GTTTTAAATG TAAAGAATCT 
    GGGACTAAAC ATCAGTATCA CGTAATGGCC CCGACTCTAA ATTACCACAC AAGCCCTTGG 
    ACCTGGTCGG CCTGCAGTCA GAAGCACATA ACGGAGTTTC TGGACACTGG CCATGGAGAA 
    TGCCTTCTCG ACAAACCCAA CGGAAGAACC TATGACCTGT CTCCCCAGCT CCCAGGCTCG 
    GTGTACGATG GGAACAAGCA GTGCGAACTC ATGTTCGGTC CCGGATCGCA AGTGTGCCCC 
    TACTTGAAGC AGTGTCGGCG CCTGTGGTGC ACGAGCGCAG AAGGCGTCCA CAAGGGCTGT 
    CGCACACAGC ACATGCCGCT GGCAGATGGG ACAAGCTGTG GTCCTGGGAT GCACTGCCAC 
    CGCGGGCTGT GTGTGACCAG AGACATGGAG ACCCGTCCTG TGGATGGCGA GTGGGGGCCG 
    TGGGGACCCT ACAGCTCGTG TTCCAGAACC TGTGGTGGGG GAATCAGGAG CACAGCCAGG 
    CTCTGTGACC GGCCTGAGCC ACGAAACGGA GGAAGGTACT GTGTGGGCCG CAGGATGAAA 
    TTTCGGTCAT GTAATACTGA TTCATGTCCA AAAGGCAAGC GAGACTTCCG AGAAAAGCAA 
    TGTTCCGACT TCGATGGTAA ACATTTCGAC ATCAGCGGCC TCCCCCCCAA TGTGAGGTGG 
    CTTCCGAAGT ACAGCGGGAT CGCCGTCAAA GATCGCTGTA AACTCTATTG CCGGGTGGCT 
    GGGACCACCA GCTTCTACCA GCTAAAGGAC AGAGTCGCTG ACGGGACACC CTGTGGGACG 
    GAAACTAACG ACATCTGTGT CCAGGGCCTC TGTCGGCAAG CCGGCTGTGA TCATGTGTTA 
    AACTCCAAGG CCAAGAGAGA CAAATGTGGA GTGTGTGGTG GTGATAACTC TTCGTGCCAG 
    ACCCTGGCGG GTGTCTTCAA CAGTGCACAT TATGGTTACA ATGTCGTTGT AAAGATCCCT 
    GCAGGGGCTA CAAACATTGA AATTCTCCAG CACAGCTATT CTGGAAGACC AGAAGATGAC 
    AACTATCTCG CACTGTCTGA CACTCAAGGG AACTTCCTTC TGAATGGAAA CTTTGTTGTA 
    AGTATGGCAA AGAAAGAGAT CAACATCCAG GGCGCTGTTT TCGAGTACAG TGGGTCCAAC 
    AACTCCATTG AAAGGATCAA TAGCACGGAC CGGCTGGAAG CGGAGCTTGT TCTGCAGGTG 
    TTGTGTGTGG GTAATTTATA CAACCCTGAC GTGCACTATA TCTTCAACAT CCCCATTGAG 
    GAGAGGAGTA ATCTGTTCTC CTGGGATCCG TATGGGCCGT GGCAAGACTG TACCAAAATG 
    TGCCAAGGTC TTCATAGAAG AAAAATTGCC TGCATTCGTA AGAGTGACCG TGCGGTCGTA 
    TCTGACCAAA GTTGTAGCCA CTTACCGCTG CCACTGTTTG TGACTGAAAG GTGCAATACG 
    GACTGTGAAC TCAGGTGGCA CATCACGGGG AAAAGTGACT GCTCATCCCA GTGTGGCCAA 
    GGATACAGGA CCCTAGACGT TCACTGCATG AAGTACTCCG TTCATAAAGG ACAGACTGTC 
    CCAGTGGGAG ACCAGTACTG TGGTGACCAG CTCAAACCTC CCAACCGAGA GCCCTGTCAT 
    GGCAGCTGTG TTTTAACAAG GTGGCATTAT TCAGAGTGGT CCCAGTGTTC TAGGAGTTGT 
    GGCGGCGGTG AGAAGACTCG AGAGTCCTAC TGTGTAAACG GCTTTGGCCA CCGCCTTGCT 
    GAACGAGAGT GTCAGGAGCT CCCTCGGGTG GTGCTGGGGA ACTGCAATGA CTTTCCGTGT 
    CCCGGCTGGG CAACTAGTGA GTGGAGTGAG TGTCCTGTCA CGTGCGGAAA GGGAATGAAG 
    CAGAGGCAGG TTTGGTGCCA GCGGAGCGAA GACCCCGTGG GGGATGACTT CTGCGATGCC 
    AGTACCAAGC CTGAGTCGCT GGGACCCTGT GAGCTCCGTG CGTGCGCTTC TTGGCATGTG 
    GGACCGTGGG GTTCTTGCAC GGTCACCTGT GGACACGGAT ACCAGGTGCG TGCTGTTAAG 
    TGCGTCAGTG AGATACTTGG CACCGTGCTA GATGACAGAG AATGCCCCAG AGCCAGCCGG 
    CCAAGTGACA GACAGGTAAA GGAGGTCTCT ATGGATCAGA AGAAGAAATG CTTATGTCTT 
    CATAGAAGAA AAATTGCCTG CATTCGTAAG AGTGACCGTG CGGTCGTATC TGACCAAAGT 
    TGTAGCCACT TACCGCTGCC ACTGTTTGTG ACTGAAAGGT GCAATACGGA CTGTGAACTC 
    AGTGCCTGCT TTCTCGTGGG CATATTCACC GTGACCAATC CCCTGCTTGC CACCCCCACA 
    AGGCTGAAGC AGAGAGACAC CTCAGCAGGT CGAGGCAAGT GGGCGCAATT CAACTCATCC 
    GCTACTCTCA TCGTGGGCGT CACGGCAGCT CACCTCAGCC CTAGGGTGAC GACTTCCTGT 
    GGACATGGGA AAACCACTCG GCGTGTTCTA TGTGTGAACT ACCACCAACT GGTGGACGAG 
    AGTTACTGTG ACCCCGAAGG CCGTCCTGTG ACTGAACAAG AATGTCGCCT GGCGGCCTGC 
    CCGCCCTCGT ACAGCCGCTC TCCCAGCTCC TCTGAGCAGC CAAGTCATGG TCCAGGCAGA 
    AATGTTCCAT TAACTCACAA ACCAGAAGAG AATCCAGATC AGGGGGTCCA GCTGTCAATC 
    AGAGGAAACC AGTGGAGAAC AGGCCCTTGG GGAGCATGCT CCAGAAGGTG CTGCGGGCGG 
    TCTTCAGCAC AGGGCTGTGG GGTCTGCCAG GACGAAGATG GGCGAAGCGC CACTTCCTGT 
    GAGGCGACCT CCAAGCCCCC AGAGTCCAAG CACTGTGGCT CCGGACCTTG TCCGCAGTGG 
    AATTATGGGG ACTGGGGAGA GTGCACACAG ACCTGTGGCG CAGGGGTAAA ATCAAGATTT 
    GTGATCTGTC AGTTTCCCGA TGGCCAAATG GCACAAGAAC ACAGCTGCGA ACTGCCGAAG 
    CCACCTAGCA TGATGCAATG TCACCTGCGC GCCTGCCCTG ATGATGTGTC CTGGTATCGG 
    GGATCATGGA AATCGTGCTC AGCTTCTTGT GGTAAAGGCA TAAAGTACCG GGAGGTTCTC 
    TGCATTGATC AAGTCCAAAG GAAACTAGAA GAAAAATATT GCAGTCATTT GCATAAACCT 
    CGGACTCACA AACCTTGCAG ATCAGGACGA TGCCCTTCGT GGAAAGCCAA TAAATGGAAG 
    GAGTGCTCTG TGACCTGTGG GTCTGGGGTA CAGCAGAGGG AGGTGTACTG CAGACTGAGA 
    GGCACTGGTC GAGTGGCTGA AGACATGTGT GAGCCTTCTA CCCGGCCTCA GGTGCAACGG 
    CCATGCTGGC ATCAGGACTG TACGAGGTAC CAGTGGACAA CAGGAGACTG GCTAGACTGT 
    TCAACATCCT GTAAGAAAAA GGAGACCTAT CGGCTGGTGA AATGCGTGAA TGAACGAAAC 
    ATGCAAGTGA ATGAAAGTCT CTGTGACCCT TTAACGAAAC CCGTTTCGAT CAAAAAGTGC 
    AGGAATTCTC ACTGCAAGTA CATGGTGGTG ACAGGAGACT CGTCGCAGTG TGCAGGTAAC 
    TGTGGGCTCA CTTACTCACA GAGGATTACA TACTGTACCA GGATCCAGCC GCCTAAGAAA 
    AATGCATTCC ATCATCAACT TCGGCCTGTA AACTACGGGC AGTGCCCCGT GATACCTTCT 
    CCTCAGGTGT ACAAATGCGA CATTAGAAGT TGTTTGCGTG GAGCCACTTG GAAAGTGGGA 
    AAGTGGAGCA AGTGCTCAGT AACTTGTGGA AATGGGATAA TGGAGAGAAG AGTAGCGTGC 
    AGGACTGAGA ACGGTTGGCC CAGTGACTTA TGTTTAAAGC GTTTAAAGCC AGATGCCCAA 
    AAGAAATGTT ATGCCAATGA CTGTAAATTA CTCACCACCT GCAAAGAAAT CCAAGTTACA 
    AACAACATTA CCAAGGATGG CAACTATGAT CTTAACGTCA GGGGAAGAAT ATTGAAGATT 
    CATTGCTCAG GCATGCAGCT GGAGAACCCT AGAGAATATT TACCCCTGGT CAAAGTTGAA 
    GACAACTTTT CGGAAATATA TGGCCTTAGA CTTCAAAATC CCTACGAATG CCCCTTCAAC 
    GGAAGTAGGA GGGCAGACTG TGCGTGTGAA AATGACTACC CACCTGCCGG ATACACTGTT 
    TTTAGCAAAG TGAGAGTTGA TCTCGCATCC ATGCAAATCA AAACGACGGA TCTTCTTTTC 
    TCCCGGACAC TATTTGGAAA GGCAGTTCCA TTTGCCACAG CTGGAGACTG CTACAGTGCT 
    GCCAGATGCC CACAGGGGCA GTTCAGCATC AACTTAGCAG GAACTGGCAT GAAGGTATCT 
    AGCACGGCAA AGTGGCTCGC TCAGGGGAGG TATGCCTCGG TCATCATCCA CAGATCTCAG 
    GACGGAACCA AAGTGTACGG CAGATGCGGA GGGTTCTGTG GCAAGTGCGT TCCTCACGTG 
    TCTACGGGGC TCCCGATTCA AGTGCTATGA

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

    Adamts20 ( XM_017603351.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017458840.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa55721
    Clone ID Related Accession (Same CDS sequence) XM_017603351.1
    Accession Version XM_017603351.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 20 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000075.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCGGGTGG CCAAGTGGCT GACCGGGTTG CTCTGCCCGA TCTCGCTCCT TCTCACTGGG 
    TCCTGGGAAG TTCGTTTCCA CCCACGACAG GAAGCCCTGG TGAAGACTCT GGCCTCCTAC 
    GAAGTGGTGA CCCCCACGCG GGTCAATGAG TTCGGAGACG TGTTCCCCCA AAACCGGCAT 
    TTCAGCCGGA AGAAACGAAG CTCCGGGGTG CCGGAGCCTC CTCCGCTCAG GACCCACTAC 
    CGTATTAGCG CCTACGGGCA GCTCTTCCAG CTGAACCTGA GCGCTGACTC CGCCTTCCTG 
    GCTGCAGGCT ATACTGAGGT GCACTTGGGG ACCCCGGTGC CCGGACCAGG CGGGCGCAGC 
    GCGGAGCCCC CAGACCTGCG CCACTGTTTC TACCGTGGCC AGGTCAACGC GCGAGAGGAC 
    CACATTGCTG TCTTCAGTCT GTGTGGGGGA CTGATGGGAA CATTCAAAGC AAATGATGGG 
    GAGTATTTCT TAGAGCCAGT CCTGAAGGCA GATGGGAGTG AGCACGAAGA TGACCACAAC 
    AAGCCGCATC TGATCTACAG ACAGGAAGTA AAGAGGAACG CCTTCGTGCG GTCTCAGTCT 
    CATGGGCCTT GCGGAGTTTC AGAAAATCAG ACGGAGAAAA CTGCTTTGCC CTCTCCTAGC 
    TTCCGGAACA CGACCGGAGA CCTTAATAGG AGGAAGGGAG CGGTGTTCGG ATTGGAAGGT 
    GAACGGAGCC GGTTACATTC CAGGAGTAAG CGTTTCCTGT CGTACCCAAG ATACGTGGAA 
    GTTATGGTGA CGGCGGACGC TAAGATGGTT CGCCATCACG GGCAGAATTT GCAGCACTAT 
    GTGCTGACGC TAATGTCCAT CGTTGCTGCA ATCTACAAGG ATTCGAGCAT TGGGAACCTT 
    ATAAATATAG TGATTGTGAA GTTAGTGATA ATTCACAGTG AGCAGGAAGG ACCGGTGATC 
    AGTTTTAATG CAGCCACCAC GTTGCGCAAC TTTTGCTTGT GGCAACAGAG TCAGAATGTT 
    CTGGACGATG CTCATCCTTC CCACCATGAC ACCGCGGTCC TCATCACTAG GGAAGACATT 
    TGTGGAGCTA AGGAGAAATG TGACACATTA GGCTTAGCGG AGTTAGGCAC CCTGTGCGAT 
    CCTTCGAGGA GCTGCTCCAT TAGCGAGGAG AACGGACTGA GCGCCGCCTT CACCATCGCC 
    CACGAGCTTG GGCACGTGTT TAACGTCCCA CACGATGACA GTTTTAAATG TAAAGAATCT 
    GGGACTAAAC ATCAGTATCA CGTAATGGCC CCGACTCTAA ATTACCACAC AAGCCCTTGG 
    ACCTGGTCGG CCTGCAGTCA GAAGCACATA ACGGAGTTTC TGGACACTGG CCATGGAGAA 
    TGCCTTCTCG ACAAACCCAA CGGAAGAACC TATGACCTGT CTCCCCAGCT CCCAGGCTCG 
    GTGTACGATG GGAACAAGCA GTGCGAACTC ATGTTCGGTC CCGGATCGCA AGTGTGCCCC 
    TACTTGAAGC AGTGTCGGCG CCTGTGGTGC ACGAGCGCAG AAGGCGTCCA CAAGGGCTGT 
    CGCACACAGC ACATGCCGCT GGCAGATGGG ACAAGCTGTG GTCCTGGGAT GCACTGCCAC 
    CGCGGGCTGT GTGTGACCAG AGACATGGAG ACCCGTCCTG TGGATGGCGA GTGGGGGCCG 
    TGGGGACCCT ACAGCTCGTG TTCCAGAACC TGTGGTGGGG GAATCAGGAG CACAGCCAGG 
    CTCTGTGACC GGCCTGAGCC ACGAAACGGA GGAAGGTACT GTGTGGGCCG CAGGATGAAA 
    TTTCGGTCAT GTAATACTGA TTCATGTCCA AAAGGCAAGC GAGACTTCCG AGAAAAGCAA 
    TGTTCCGACT TCGATGGTAA ACATTTCGAC ATCAGCGGCC TCCCCCCCAA TGTGAGGTGG 
    CTTCCGAAGT ACAGCGGGAT CGCCGTCAAA GATCGCTGTA AACTCTATTG CCGGGTGGCT 
    GGGACCACCA GCTTCTACCA GCTAAAGGAC AGAGTCGCTG ACGGGACACC CTGTGGGACG 
    GAAACTAACG ACATCTGTGT CCAGGGCCTC TGTCGGCAAG CCGGCTGTGA TCATGTGTTA 
    AACTCCAAGG CCAAGAGAGA CAAATGTGGA GTGTGTGGTG GTGATAACTC TTCGTGCCAG 
    ACCCTGGCGG GTGTCTTCAA CAGTGCACAT TATGGTTACA ATGTCGTTGT AAAGATCCCT 
    GCAGGGGCTA CAAACATTGA AATTCTCCAG CACAGCTATT CTGGAAGACC AGAAGATGAC 
    AACTATCTCG CACTGTCTGA CACTCAAGGG AACTTCCTTC TGAATGGAAA CTTTGTTGTA 
    AGTATGGCAA AGAAAGAGAT CAACATCCAG GGCGCTGTTT TCGAGTACAG TGGGTCCAAC 
    AACTCCATTG AAAGGATCAA TAGCACGGAC CGGCTGGAAG CGGAGCTTGT TCTGCAGGTG 
    TTGTGTGTGG GTAATTTATA CAACCCTGAC GTGCACTATA TCTTCAACAT CCCCATTGAG 
    GAGAGGAGTA ATCTGTTCTC CTGGGATCCG TATGGGCCGT GGCAAGACTG TACCAAAATG 
    TGCCAAGGTA CCCTGGCCTT ATATAAGAGC CCTAAGTTGA TGCATGCTGG TATTATTTGG 
    ATTTCTCTTA AGTCTGGCTG GCTAATGAGA CACATGGAGC ACACGGGCAC GCAAAGTGCC 
    CTGTCTGCAC CCCCTCTTCT CGGTCTTTCT CTTTCTTACT TGGTATTTTC AGACACAGCA 
    GCTACAGGTA CCAAGAGCGG GGGCGGTCCC AGGCCCGTCT CACTGTCCTT TGGCTTTTTA 
    AAGTGCTCCG TGTCCTGTGG AAGAGGCAGT CAGGCCCGGT ACGTGAGCTG CCGTGACGCC 
    CACGATGGAG TAGCGGATGA GTTGAATTGC GCCCACTTGC CTCGACCTGC TGAGGTGTCT 
    CTCTGCTTCA GCCCTTGTGG GGAGTGGCAA GCAGGGGATT GGTCACCGTG TTCAGCCTCC 
    TGTGGACATG GGAAAACCAC TCGGCGTGTT CTATGTGTGA ACTACCACCA ACTGGTGGAC 
    GAGAGTTACT GTGACCCCGA AGGCCGTCCT GTGACTGAAC AAGAATGTCG CCTGGCGGCC 
    TGCCCGCCCT CGTACAGCCG CTCTCCCAGC TCCTCTGAGC AGCCAAGTCA TGGTCCAGGC 
    AGAAATGTTC CATTAACTCA CAAACCAGAA GAGAATCCAG ATCAGGGGGT CCAGCTGTCA 
    ATCAGAGGAA ACCAGTGGAG AACAGGCCCT TGGGGAGCAT GCTCCAGAAG CTGCGCGGGC 
    GGTCTTCAGC ACAGGGCTGT GGTCTGCCAG GACGAAGATG GGCGAAGCGC CACTTCCTGT 
    GAGGCGACCT CCAAGCCCCC AGAGTCAAAG CACTGTGGCT CCGGACCTTG TCCGCAGTGG 
    AATTATGGGG GCTGGGGAGA ATGCACACAG ACCTGTGGCG CAGGGGTAAA ATCAAGATTT 
    GTGATCTGTC AGTTTCCCGA TGGCCAAATG GCACAAGAAC ACAGCTGCGA ACTGCCGAAG 
    CCACCTAGCA TGATGCAATG TCACCTGCGC GCCTGCCCTG ATGATGTGTC CTGGTATCGG 
    GGATCATGGA AATCGTGCTC AGCTTCTTGT GGTAAAGGCA TAAAGTACCG GGAGGTTCTC 
    TGCATTGATC AAGTCCAAAG GAAACTAGAA GAAAAATATT GCAGTCATTT GCATAAACCT 
    CGGACTCACA AACCTTGCAG ATCAGGACGA TGCCCTTCGT GGAAAGCCAA TAAATGGAAG 
    GAGTGCTCTG TGACCTGTGG GTCTGGGGTA CAGCAGAGGG AGGTGTACTG CAGACTGAGA 
    GGCACTGGTC GAGTGGCTGA AGACATGTGT GAGCCTTCTA CCCGGCCTCA GGTGCAACGG 
    CCATGCTGGC ATCAGGACTG TACGAGGTAC CAGTGGACAA CAGGAGACTG GCTAGACTGT 
    TCAACATCCT GTAAGAAAAA GGAGACCTAT CGGCTGGTGA AATGCGTGAA TGAACGAAAC 
    ATGCAAGTGA ATGAAAGTCT CTGTGACCCT TTAACGAAAC CCGTTTCGAT CAAAAAGTGC 
    AGGAATTCTC ACTGCAAGTA CATGGTGGTG ACAGGAGACT CGTCGCAGTG TGCAGGTAAC 
    TGTGGGCTCA CTTACTCACA GAGGATTACA TACTGTACCA GGATCCAGCC GCCTAAGAAA 
    AATGCATTCC ATCATCAACT TCGGCCTGTA AACTACGGGC AGTGCCCCGT GATACCTTCT 
    CCTCAGGTGT ACAAATGCGA CATTAGAAGT TGTTTGCGTG GAGCCACTTG GAAAGTGGGA 
    AAGTGGAGCA AGTGCTCAGT AACTTGTGGA AATGGGATAA TGGAGAGAAG AGTAGCGTGC 
    AGGACTGAGA ACGGTTGGCC CAGTGACTTA TGTTTAAAGC GTTTAAAGCC AGATGCCCAA 
    AAGAAATGTT ATGCCAATGA CTGTAAATTA CTCACCACCT GCAAAGAAAT CCAAGTTACA 
    AACAACATTA CCAAGGATGG CAACTATGAT CTTAACGTCA GGGGAAGAAT ATTGAAGATT 
    CATTGCTCAG GCATGCAGCT GGAGAACCCT AGAGAATATT TACCCCTGGT CAAAGTTGAA 
    GACAACTTTT CGGAAATATA TGGCCTTAGA CTTCAAAATC CCTACGAATG CCCCTTCAAC 
    GGAAGTAGGA GGGCAGACTG TGCGTGTGAA AATGACTACC CACCTGCCGG ATACACTGTT 
    TTTAGCAAAG TGAGAGTTGA TCTCGCATCC ATGCAAATCA AAACGACGGA TCTTCTTTTC 
    TCCCGGACAC TATTTGGAAA GGCAGTTCCA TTTGCCACAG CTGGAGACTG CTACAGTGCT 
    GCCAGATGCC CACAGGGGCA GTTCAGCATC AACTTAGCAG GAACTGGCAT GAAGGTATCT 
    AGCACGGCAA AGTGGCTCGC TCAGGGGAGG TATGCCTCGG TCATCATCCA CAGATCTCAG 
    GACGGAACCA AAGTGTACGG CAGATGCGGA GGGTTCTGTG GCAAGTGCGT TCCTCACGTG 
    TCTACGGGGC TCCCGATTCA AGTGCTATGA

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

    RefSeq XP_017458840.1
    CDS288..5357
    Translation

    Target ORF information:

    RefSeq Version XM_017603351.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 20 (Adamts20), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017603351.1

    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
    ATGCGGGTGG CCAAGTGGCT GACCGGGTTG CTCTGCCCGA TCTCGCTCCT TCTCACTGGG 
    TCCTGGGAAG TTCGTTTCCA CCCACGACAG GAAGCCCTGG TGAAGACTCT GGCCTCCTAC 
    GAAGTGGTGA CCCCCACGCG GGTCAATGAG TTCGGAGACG TGTTCCCCCA AAACCGGCAT 
    TTCAGCCGGA AGAAACGAAG CTCCGGGGTG CCGGAGCCTC CTCCGCTCAG GACCCACTAC 
    CGTATTAGCG CCTACGGGCA GCTCTTCCAG CTGAACCTGA GCGCTGACTC CGCCTTCCTG 
    GCTGCAGGCT ATACTGAGGT GCACTTGGGG ACCCCGGTGC CCGGACCAGG CGGGCGCAGC 
    GCGGAGCCCC CAGACCTGCG CCACTGTTTC TACCGTGGCC AGGTCAACGC GCGAGAGGAC 
    CACATTGCTG TCTTCAGTCT GTGTGGGGGA CTGATGGGAA CATTCAAAGC AAATGATGGG 
    GAGTATTTCT TAGAGCCAGT CCTGAAGGCA GATGGGAGTG AGCACGAAGA TGACCACAAC 
    AAGCCGCATC TGATCTACAG ACAGGAAGTA AAGAGGAACG CCTTCGTGCG GTCTCAGTCT 
    CATGGGCCTT GCGGAGTTTC AGAAAATCAG ACGGAGAAAA CTGCTTTGCC CTCTCCTAGC 
    TTCCGGAACA CGACCGGAGA CCTTAATAGG AGGAAGGGAG CGGTGTTCGG ATTGGAAGGT 
    GAACGGAGCC GGTTACATTC CAGGAGTAAG CGTTTCCTGT CGTACCCAAG ATACGTGGAA 
    GTTATGGTGA CGGCGGACGC TAAGATGGTT CGCCATCACG GGCAGAATTT GCAGCACTAT 
    GTGCTGACGC TAATGTCCAT CGTTGCTGCA ATCTACAAGG ATTCGAGCAT TGGGAACCTT 
    ATAAATATAG TGATTGTGAA GTTAGTGATA ATTCACAGTG AGCAGGAAGG ACCGGTGATC 
    AGTTTTAATG CAGCCACCAC GTTGCGCAAC TTTTGCTTGT GGCAACAGAG TCAGAATGTT 
    CTGGACGATG CTCATCCTTC CCACCATGAC ACCGCGGTCC TCATCACTAG GGAAGACATT 
    TGTGGAGCTA AGGAGAAATG TGACACATTA GGCTTAGCGG AGTTAGGCAC CCTGTGCGAT 
    CCTTCGAGGA GCTGCTCCAT TAGCGAGGAG AACGGACTGA GCGCCGCCTT CACCATCGCC 
    CACGAGCTTG GGCACGTGTT TAACGTCCCA CACGATGACA GTTTTAAATG TAAAGAATCT 
    GGGACTAAAC ATCAGTATCA CGTAATGGCC CCGACTCTAA ATTACCACAC AAGCCCTTGG 
    ACCTGGTCGG CCTGCAGTCA GAAGCACATA ACGGAGTTTC TGGACACTGG CCATGGAGAA 
    TGCCTTCTCG ACAAACCCAA CGGAAGAACC TATGACCTGT CTCCCCAGCT CCCAGGCTCG 
    GTGTACGATG GGAACAAGCA GTGCGAACTC ATGTTCGGTC CCGGATCGCA AGTGTGCCCC 
    TACTTGAAGC AGTGTCGGCG CCTGTGGTGC ACGAGCGCAG AAGGCGTCCA CAAGGGCTGT 
    CGCACACAGC ACATGCCGCT GGCAGATGGG ACAAGCTGTG GTCCTGGGAT GCACTGCCAC 
    CGCGGGCTGT GTGTGACCAG AGACATGGAG ACCCGTCCTG TGGATGGCGA GTGGGGGCCG 
    TGGGGACCCT ACAGCTCGTG TTCCAGAACC TGTGGTGGGG GAATCAGGAG CACAGCCAGG 
    CTCTGTGACC GGCCTGAGCC ACGAAACGGA GGAAGGTACT GTGTGGGCCG CAGGATGAAA 
    TTTCGGTCAT GTAATACTGA TTCATGTCCA AAAGGCAAGC GAGACTTCCG AGAAAAGCAA 
    TGTTCCGACT TCGATGGTAA ACATTTCGAC ATCAGCGGCC TCCCCCCCAA TGTGAGGTGG 
    CTTCCGAAGT ACAGCGGGAT CGCCGTCAAA GATCGCTGTA AACTCTATTG CCGGGTGGCT 
    GGGACCACCA GCTTCTACCA GCTAAAGGAC AGAGTCGCTG ACGGGACACC CTGTGGGACG 
    GAAACTAACG ACATCTGTGT CCAGGGCCTC TGTCGGCAAG CCGGCTGTGA TCATGTGTTA 
    AACTCCAAGG CCAAGAGAGA CAAATGTGGA GTGTGTGGTG GTGATAACTC TTCGTGCCAG 
    ACCCTGGCGG GTGTCTTCAA CAGTGCACAT TATGGTTACA ATGTCGTTGT AAAGATCCCT 
    GCAGGGGCTA CAAACATTGA AATTCTCCAG CACAGCTATT CTGGAAGACC AGAAGATGAC 
    AACTATCTCG CACTGTCTGA CACTCAAGGG AACTTCCTTC TGAATGGAAA CTTTGTTGTA 
    AGTATGGCAA AGAAAGAGAT CAACATCCAG GGCGCTGTTT TCGAGTACAG TGGGTCCAAC 
    AACTCCATTG AAAGGATCAA TAGCACGGAC CGGCTGGAAG CGGAGCTTGT TCTGCAGGTG 
    TTGTGTGTGG GTAATTTATA CAACCCTGAC GTGCACTATA TCTTCAACAT CCCCATTGAG 
    GAGAGGAGTA ATCTGTTCTC CTGGGATCCG TATGGGCCGT GGCAAGACTG TACCAAAATG 
    TGCCAAGGTA CCCTGGCCTT ATATAAGAGC CCTAAGTTGA TGCATGCTGG TATTATTTGG 
    ATTTCTCTTA AGTCTGGCTG GCTAATGAGA CACATGGAGC ACACGGGCAC GCAAAGTGCC 
    CTGTCTGCAC CCCCTCTTCT CGGTCTTTCT CTTTCTTACT TGGTATTTTC AGACACAGCA 
    GCTACAGGTA CCAAGAGCGG GGGCGGTCCC AGGCCCGTCT CACTGTCCTT TGGCTTTTTA 
    AAGTGCTCCG TGTCCTGTGG AAGAGGCAGT CAGGCCCGGT ACGTGAGCTG CCGTGACGCC 
    CACGATGGAG TAGCGGATGA GTTGAATTGC GCCCACTTGC CTCGACCTGC TGAGGTGTCT 
    CTCTGCTTCA GCCCTTGTGG GGAGTGGCAA GCAGGGGATT GGTCACCGTG TTCAGCCTCC 
    TGTGGACATG GGAAAACCAC TCGGCGTGTT CTATGTGTGA ACTACCACCA ACTGGTGGAC 
    GAGAGTTACT GTGACCCCGA AGGCCGTCCT GTGACTGAAC AAGAATGTCG CCTGGCGGCC 
    TGCCCGCCCT CGTACAGCCG CTCTCCCAGC TCCTCTGAGC AGCCAAGTCA TGGTCCAGGC 
    AGAAATGTTC CATTAACTCA CAAACCAGAA GAGAATCCAG ATCAGGGGGT CCAGCTGTCA 
    ATCAGAGGAA ACCAGTGGAG AACAGGCCCT TGGGGAGCAT GCTCCAGAAG CTGCGCGGGC 
    GGTCTTCAGC ACAGGGCTGT GGTCTGCCAG GACGAAGATG GGCGAAGCGC CACTTCCTGT 
    GAGGCGACCT CCAAGCCCCC AGAGTCAAAG CACTGTGGCT CCGGACCTTG TCCGCAGTGG 
    AATTATGGGG GCTGGGGAGA ATGCACACAG ACCTGTGGCG CAGGGGTAAA ATCAAGATTT 
    GTGATCTGTC AGTTTCCCGA TGGCCAAATG GCACAAGAAC ACAGCTGCGA ACTGCCGAAG 
    CCACCTAGCA TGATGCAATG TCACCTGCGC GCCTGCCCTG ATGATGTGTC CTGGTATCGG 
    GGATCATGGA AATCGTGCTC AGCTTCTTGT GGTAAAGGCA TAAAGTACCG GGAGGTTCTC 
    TGCATTGATC AAGTCCAAAG GAAACTAGAA GAAAAATATT GCAGTCATTT GCATAAACCT 
    CGGACTCACA AACCTTGCAG ATCAGGACGA TGCCCTTCGT GGAAAGCCAA TAAATGGAAG 
    GAGTGCTCTG TGACCTGTGG GTCTGGGGTA CAGCAGAGGG AGGTGTACTG CAGACTGAGA 
    GGCACTGGTC GAGTGGCTGA AGACATGTGT GAGCCTTCTA CCCGGCCTCA GGTGCAACGG 
    CCATGCTGGC ATCAGGACTG TACGAGGTAC CAGTGGACAA CAGGAGACTG GCTAGACTGT 
    TCAACATCCT GTAAGAAAAA GGAGACCTAT CGGCTGGTGA AATGCGTGAA TGAACGAAAC 
    ATGCAAGTGA ATGAAAGTCT CTGTGACCCT TTAACGAAAC CCGTTTCGAT CAAAAAGTGC 
    AGGAATTCTC ACTGCAAGTA CATGGTGGTG ACAGGAGACT CGTCGCAGTG TGCAGGTAAC 
    TGTGGGCTCA CTTACTCACA GAGGATTACA TACTGTACCA GGATCCAGCC GCCTAAGAAA 
    AATGCATTCC ATCATCAACT TCGGCCTGTA AACTACGGGC AGTGCCCCGT GATACCTTCT 
    CCTCAGGTGT ACAAATGCGA CATTAGAAGT TGTTTGCGTG GAGCCACTTG GAAAGTGGGA 
    AAGTGGAGCA AGTGCTCAGT AACTTGTGGA AATGGGATAA TGGAGAGAAG AGTAGCGTGC 
    AGGACTGAGA ACGGTTGGCC CAGTGACTTA TGTTTAAAGC GTTTAAAGCC AGATGCCCAA 
    AAGAAATGTT ATGCCAATGA CTGTAAATTA CTCACCACCT GCAAAGAAAT CCAAGTTACA 
    AACAACATTA CCAAGGATGG CAACTATGAT CTTAACGTCA GGGGAAGAAT ATTGAAGATT 
    CATTGCTCAG GCATGCAGCT GGAGAACCCT AGAGAATATT TACCCCTGGT CAAAGTTGAA 
    GACAACTTTT CGGAAATATA TGGCCTTAGA CTTCAAAATC CCTACGAATG CCCCTTCAAC 
    GGAAGTAGGA GGGCAGACTG TGCGTGTGAA AATGACTACC CACCTGCCGG ATACACTGTT 
    TTTAGCAAAG TGAGAGTTGA TCTCGCATCC ATGCAAATCA AAACGACGGA TCTTCTTTTC 
    TCCCGGACAC TATTTGGAAA GGCAGTTCCA TTTGCCACAG CTGGAGACTG CTACAGTGCT 
    GCCAGATGCC CACAGGGGCA GTTCAGCATC AACTTAGCAG GAACTGGCAT GAAGGTATCT 
    AGCACGGCAA AGTGGCTCGC TCAGGGGAGG TATGCCTCGG TCATCATCCA CAGATCTCAG 
    GACGGAACCA AAGTGTACGG CAGATGCGGA GGGTTCTGTG GCAAGTGCGT TCCTCACGTG 
    TCTACGGGGC TCCCGATTCA AGTGCTATGA

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

見積依頼

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