ORF » Species Summary » Xenopus tropicalis » duox1 cDNA ORF clone

duox1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following duox1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the duox1 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
OXa43550 XM_018092661.1
Latest version!		 Xenopus tropicalis dual oxidase 1 (duox1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa55036 XM_031899149.1
Latest version!		 Xenopus tropicalis dual oxidase 1 (duox1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    duox1 ( XM_018092661.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017948150.1 Xenopus tropicalis dual oxidase 1 (duox1), mRNA.
    Price & Availability↑
    CloneID OXa43550
    Clone ID Related Accession (Same CDS sequence) XM_018092661.1
    Accession Version XM_018092661.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4824bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product dual oxidase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) 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 :: Xenopus tropicalis Annotation Release 103 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 :: 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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGTCTACAT CACAAGAAAT ATTTAGTGCT TTGGAACTTG TTTATATTAT TGGGCTTTCT 
    GCTGTTGGCT CCAACCTGGA ATTTGAATTG CTATCGCATT CACTTACTCT AACAGATTCA 
    CAAAAAAACA TTCATTGGGA GATTCAACGA TATGACGGCT GGTACAACAA TCTACACCAA 
    CACAACCGAG GGTCTGCAGG TTTTAGGCTT CTGCGTCTTG TGCCAGCTGC CTACTCCGAT 
    GGAGTTTATC AAGCAATACA AGAACCAGAA CTTCCTAACC CAAGGCAAAT TAGTAATGTG 
    GCCATGCAAG GAGATTCAGG CCTCTCTTCA AACCGCAACC GCACAGTTCT TGGCGTATTT 
    TTTGGATACC ATGTACTTTC TGAAATTATT AGCACAGAAA ACTCTGGATG CCCTGCTGAG 
    TTTCTGAATA TTGCAGTACC TAAAGGGGAT AAAATATTTG ACCCAGATGC CACGGGTCAA 
    GTAATGCTAC CATTCCAGCG CAGTCAGTGG TGGAAATGTA GTGGAGAAAG TCCAAATAAT 
    CCAAGGCACC AGATAAACTC TGTAACAGCA TGGATAGACG GAAGTTCAAT ATATGGTTCA 
    TCCCATTCTT GGAGTGATGC CTTAAGAAGT TTTTCGGGTG GAAAGTTGGC ATCCGATTCT 
    GACCCCATGT TTCCAAAAGA AGCAGGTGAT GCACTTCTAA TGTGGAGAGC ACCAGATCCT 
    TCCACAGGAC ATAGAGGAAA GGAAGGGATA TATGGTTTTG GCAATGCAAG AGCCAATGAG 
    AATCCTTTCC TCCAAGCTGT GAGCATTCTC TGGTTCAGAT ACCATAACTA CCTTGCACAG 
    CAGTTTGCTA AAAAATATCC TCAGTGGTCA GACGAAGATT TATTTCATAA TACCAGAAAA 
    TGGATAATTG CCACTTATCA GAATGTTGTA ATGTATGAAT GGCTGCCTGT ATTTCTTCAG 
    AAGGAAGTGT CAGCTTATGA AGGATACAAT CAACATGTGG ATGCTAGTCT CTCTCATGAG 
    TTCCAGGCTG CTGTTCAATT TATGGCAACA CTGTTACCAG CTGGGATATA TACAAGAAAC 
    AAGACATGCC ATTTTCACAA TGTCCAAAGC TCTGATGGGG GTTTCTGGCC AGCTTATCGT 
    TTGTGTGACA GCTACTGGAA AAGAAAAAAT CCAAACATCA AGACAGCCCA AGATATCGAT 
    AATTTGCTCC TTGGAATGAT TTCCCAGATT GCTGAAAAGG AAGATAATGT TGTTGTTGAA 
    GATTTACGAG ATTATTGGTA TGGAACTCTG AAATATACCC GTATGGATTA CATTTCATGG 
    AGTATACAGC AAGGAAGAGA CTTTGGACTA TGTAGTTACA ATCATGCAAG GCAACATTTT 
    GGACTTTCTC CTATTGCAAA CTGGAGTGAA ATCAATCGAT CTCTGTACCA GAGAAATAAA 
    GAGCTATTTG AAGACCTTGC AAATCTGTAC GGCAATGACA CTGAAAAGCT AGAACTTTTT 
    CCTGGTGTGA TGTTGGAGAG TGATGGAGAC CCTGGTGAAC TCCTCACTGC TATCATCATG 
    GATCAGTTTC AGCGACTCAG AGATGGAGAC AGATTTTGGT TTGAAAATTC AAAGAATGGG 
    CTATTTACCT TGGAGGAAAT AGAAAGAATT AAGAAAACTA CTTTCCATGA TGTCATTTTG 
    TCTGTTACCT CGGCAGACCT TGGGGATTTT CAGCCAGACG TGTTTAAGTG GGTTAATGGA 
    GACCCTTGTC CTCAACCAGA ACAAATATCA GCACAGATGC TTGCCAACTG CACTCCCCCT 
    ACGGTGACTG ATTACTTTGC TGATAGTGTA ACAGGATATA GTATTCTTAT TGCTGTCATA 
    TGTTCATTCC CGTTAGAAGG TGGCATTAAA ACACCAGTAA TGAGTGATTC TATTGGTGCA 
    AGTCTGGTGC GCCTGTTGGC ACAGCCCCAG TCAGACTGGG GTGCCAGGGG CCAACTGAGG 
    CTGCCGCCTG GGCCTCCCCG CTCCAGACAA AAGTTCCTGC TACACCTATC CTGTGCCCTG 
    CATGCTGCCC CCTTCCCCCA GGCGCACAAA GTTCAAGATG GCCAGACAGG TTACATTTTC 
    AAATTAATGC CCTTTTCTTT AACCCAAAAA GTTAGTTTTT TCATTGCTTG GATGGTCGCT 
    CAGTCTCGAA GAAGAAACTT TAAAAGATTT CAAAAAAGGA GGGCAATTCA AAGCATAAGA 
    CAGTCCCTGC CAGCTGAAGG GATATCAGCT CAAGAATGGC AAGGACCGAA AGAACCAACA 
    TGTAATGTTC TATTACAAAT TGATCCTCAA CATGTTATCA AGGTTTTAGA TTCCCGATGT 
    GCCATTAGAA GGACTATCTC TTTGCAGAGC CAGAAAAATG TAATTGTGAT TCAGTCAAAC 
    AGCCATGGCT CCAAAACGTT GCTCATTAGG ATCCCCAAAG AATATGATTT GGTGCTGCTT 
    TTCCACAGTG AGGAAGAATG CAGAGAATTT ATTAACCAGT TACAGGAGAA CGGAATTGAA 
    CTACATCAGT ACAACAAAAA GGAGAAACAT CTGCTGAAAG AAGCTGTAAC AAAAAAACAA 
    AGAAGCCACA TTTTGGAAAC ATTCTTCCGA CAGTCATTTG CCCAGGTACT TCATATCACT 
    CAATCAGACA ATATGGGTAG TAGCGACAAA GTGAAAGAGG CACTTAAGTG TGAATTAAGT 
    AGGACTGAAT TTGCTGAATC ACTGGGACTA AAGCCACAGT CCATGTTTGT GGAGTCAATG 
    TTCTCTCTTG CAGATGAAGA TGGGAATGGG TATTTATCCT TCAGGGAATT CCTAAATATA 
    TTGGTGATTT TTATGACAGG TACCCCAAAA GAAAAATCAG AATTGATGTT TAAGATGTAT 
    GATGTTGATG GCAATGGTTT TCTTTCAAAG GAGGAGTTTT TCACAATGTT AAAATCTTTT 
    ATTGAAATAT CCAACAATTG CATCTCAAAA GACCAAACAG AGCAGGTGAT TGAGATCATG 
    TTTAGAGATT CTGGCTTCCA AAATAAAGAA GAACTGACAC TGGAAGATTT CCACTACCTG 
    CTCCGAGACC ATGACAAGGA ACTCCGCTTT TCCCAACTAC GATTCAAAGG TATGGATGCT 
    CCTGAGGTCT TCAATCAAAT GTGTAGAAGA GTTTCTTTTG TAGATACAAC TAATATGAGA 
    GAGAAAACAT CATCAGAGGC CCGTCTTTAT ACAGAAGCCA AAAAGGAAAA ATACCCAAAA 
    GGCATAATAC ATCAAAAATT GCAAGAGTTC AAACGCTTCG CTGAAAATTA CCGGCGTCAT 
    ATAGTCTGTG TAGTGATTTT CTATGGAATT TCTGTTGGTC TATTCTTAGA GAGAGCATAC 
    CATTATGCTT TTGAATCACA ACACAGAGGT ATTTCTGAAG TCACAATGCC CGGTATCATT 
    ATTTCCAGAG GCACAGCTGC CAGCATATCA TTTATGTTTT CTTACATTCT GCTCACCATG 
    TGCCGAAACC TCATCACTTT TCTGAGAGAG ACATTCTTAA ATCAGTATAT CCCCTTTGAT 
    GCAGCAGTGG ACTTCCACCG CCTTGTGGCC AAGACAGCTA TCATACTAAC AGTATTACAT 
    AGTGTGGGAC ATGCAGTCAA TGTGTATATG TTTTCCATTA CCCCTCTTAG CACTCTATCT 
    TGCCTGTTTC CTAAGATATT TGTTAATGAT GGGTCTGAAT TACCTCAGAG GTATTACTGG 
    TGGTTCTTCC AGACCATACC TGGACTCACT GGTGTGCTGC TTTTAGCAGT CCTTGCATTA 
    ATGTATGTTT TCTCATCTCA CCATTTCCGC CGGATAAGTT TTCGTGGATT TTGGGTCACC 
    CATCATTTTT ATATACTGTT GTATATCTTG ACAATACTCC ATGGCAGTTT TGGCCTATTA 
    CAGCAACCGA AATTTCATGT TTTTTTAATG GCTCCTGCAC TTATCTTTAT TAGGGACAGT 
    CTCATAAGCC TGAGAAGAAA AAAGACAGAA ATTAATGTCA TGAAGGCTGA TCTACTTCCT 
    TCAGATGTCA CTTGTCTACG ATTCCAACGA CCTGCAGACT TTGATTATAA ATCTGGGCAA 
    TGGGTCAGAA TTGCGTGCCT TGCTTTGGGA ACCAATGAAT ACCATCCATT TACATTAACA 
    ACCGCTCCTC ATGAAGACAT CTTGAGTTTG CATATTAGAG CTGCTGGGCC TTGGACCACT 
    CGATTACGTG AACTTTACAG TCCTCAGAGT GTGGCTGAAC TTGGTGGATA TCCAAAGATT 
    TACCTTGATG GACCATTTGG GGAAGGTCAC CAAGAGTGGA ACAAATATGA AGTCTCAGTA 
    CTTGTTGGAG GAGGAATAGG AGTGACTCCT TTTGCATCTA TCCTTAAAGA TTTGGTTTTC 
    AAGTCATCTG TAAACTCAAA AATTGCTTGT AAAAAGATAT ATTTTATATG GGTGACCCGC 
    ACTCAGCGCC ATTTTGAGTG GTTTGCAGAC ATCATTAGAG AGGTAGAAGA GAATGATAAG 
    TGTGATTTGG TTTCTGTCCA TATCTATATC ACTCAGCTTG CTGAAAAGTT TGACCTTCGA 
    ACCACAATGC TGTATATCTG TGAGCGGCAC TTCCAGAAAG TATTAAATCG GAGCTTATTT 
    ACTGGGTTGA GATCTATCAC ACACTTTGGA AGACCACAGT TTGAGCAGTT TTTTATTTCA 
    CTCCAAGAAG TTCATCCAGA GGTTCGCAAA ATTGGCGTAT TCAGCTGTGG CCCTCCAGGA 
    ATGACAAAAA ATGTGGAAAA GGCATGTCAG ATGCTGAACA AGGAAAACCA AGCACATTTT 
    AGCCATCACT TTGAAAATTT CTAG

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

    RefSeq XP_017948150.1
    CDS1..4824
    Translation

    Target ORF information:

    RefSeq Version XM_018092661.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dual oxidase 1 (duox1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018092661.1

    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
    ATGTCTACAT CACAAGAAAT ATTTAGTGCT TTGGAACTTG TTTATATTAT TGGGCTTTCT 
    GCTGTTGGCT CCAACCTGGA ATTTGAATTG CTATCGCATT CACTTACTCT AACAGATTCA 
    CAAAAAAACA TTCATTGGGA GATTCAACGA TATGACGGCT GGTACAACAA TCTACACCAA 
    CACAACCGAG GGTCTGCAGG TTTTAGGCTT CTGCGTCTTG TGCCAGCTGC CTACTCCGAT 
    GGAGTTTATC AAGCAATACA AGAACCAGAA CTTCCTAACC CAAGGCAAAT TAGTAATGTG 
    GCCATGCAAG GAGATTCAGG CCTCTCTTCA AACCGCAACC GCACAGTTCT TGGCGTATTT 
    TTTGGATACC ATGTACTTTC TGAAATTATT AGCACAGAAA ACTCTGGATG CCCTGCTGAG 
    TTTCTGAATA TTGCAGTACC TAAAGGGGAT AAAATATTTG ACCCAGATGC CACGGGTCAA 
    GTAATGCTAC CATTCCAGCG CAGTCAGTGG TGGAAATGTA GTGGAGAAAG TCCAAATAAT 
    CCAAGGCACC AGATAAACTC TGTAACAGCA TGGATAGACG GAAGTTCAAT ATATGGTTCA 
    TCCCATTCTT GGAGTGATGC CTTAAGAAGT TTTTCGGGTG GAAAGTTGGC ATCCGATTCT 
    GACCCCATGT TTCCAAAAGA AGCAGGTGAT GCACTTCTAA TGTGGAGAGC ACCAGATCCT 
    TCCACAGGAC ATAGAGGAAA GGAAGGGATA TATGGTTTTG GCAATGCAAG AGCCAATGAG 
    AATCCTTTCC TCCAAGCTGT GAGCATTCTC TGGTTCAGAT ACCATAACTA CCTTGCACAG 
    CAGTTTGCTA AAAAATATCC TCAGTGGTCA GACGAAGATT TATTTCATAA TACCAGAAAA 
    TGGATAATTG CCACTTATCA GAATGTTGTA ATGTATGAAT GGCTGCCTGT ATTTCTTCAG 
    AAGGAAGTGT CAGCTTATGA AGGATACAAT CAACATGTGG ATGCTAGTCT CTCTCATGAG 
    TTCCAGGCTG CTGTTCAATT TATGGCAACA CTGTTACCAG CTGGGATATA TACAAGAAAC 
    AAGACATGCC ATTTTCACAA TGTCCAAAGC TCTGATGGGG GTTTCTGGCC AGCTTATCGT 
    TTGTGTGACA GCTACTGGAA AAGAAAAAAT CCAAACATCA AGACAGCCCA AGATATCGAT 
    AATTTGCTCC TTGGAATGAT TTCCCAGATT GCTGAAAAGG AAGATAATGT TGTTGTTGAA 
    GATTTACGAG ATTATTGGTA TGGAACTCTG AAATATACCC GTATGGATTA CATTTCATGG 
    AGTATACAGC AAGGAAGAGA CTTTGGACTA TGTAGTTACA ATCATGCAAG GCAACATTTT 
    GGACTTTCTC CTATTGCAAA CTGGAGTGAA ATCAATCGAT CTCTGTACCA GAGAAATAAA 
    GAGCTATTTG AAGACCTTGC AAATCTGTAC GGCAATGACA CTGAAAAGCT AGAACTTTTT 
    CCTGGTGTGA TGTTGGAGAG TGATGGAGAC CCTGGTGAAC TCCTCACTGC TATCATCATG 
    GATCAGTTTC AGCGACTCAG AGATGGAGAC AGATTTTGGT TTGAAAATTC AAAGAATGGG 
    CTATTTACCT TGGAGGAAAT AGAAAGAATT AAGAAAACTA CTTTCCATGA TGTCATTTTG 
    TCTGTTACCT CGGCAGACCT TGGGGATTTT CAGCCAGACG TGTTTAAGTG GGTTAATGGA 
    GACCCTTGTC CTCAACCAGA ACAAATATCA GCACAGATGC TTGCCAACTG CACTCCCCCT 
    ACGGTGACTG ATTACTTTGC TGATAGTGTA ACAGGATATA GTATTCTTAT TGCTGTCATA 
    TGTTCATTCC CGTTAGAAGG TGGCATTAAA ACACCAGTAA TGAGTGATTC TATTGGTGCA 
    AGTCTGGTGC GCCTGTTGGC ACAGCCCCAG TCAGACTGGG GTGCCAGGGG CCAACTGAGG 
    CTGCCGCCTG GGCCTCCCCG CTCCAGACAA AAGTTCCTGC TACACCTATC CTGTGCCCTG 
    CATGCTGCCC CCTTCCCCCA GGCGCACAAA GTTCAAGATG GCCAGACAGG TTACATTTTC 
    AAATTAATGC CCTTTTCTTT AACCCAAAAA GTTAGTTTTT TCATTGCTTG GATGGTCGCT 
    CAGTCTCGAA GAAGAAACTT TAAAAGATTT CAAAAAAGGA GGGCAATTCA AAGCATAAGA 
    CAGTCCCTGC CAGCTGAAGG GATATCAGCT CAAGAATGGC AAGGACCGAA AGAACCAACA 
    TGTAATGTTC TATTACAAAT TGATCCTCAA CATGTTATCA AGGTTTTAGA TTCCCGATGT 
    GCCATTAGAA GGACTATCTC TTTGCAGAGC CAGAAAAATG TAATTGTGAT TCAGTCAAAC 
    AGCCATGGCT CCAAAACGTT GCTCATTAGG ATCCCCAAAG AATATGATTT GGTGCTGCTT 
    TTCCACAGTG AGGAAGAATG CAGAGAATTT ATTAACCAGT TACAGGAGAA CGGAATTGAA 
    CTACATCAGT ACAACAAAAA GGAGAAACAT CTGCTGAAAG AAGCTGTAAC AAAAAAACAA 
    AGAAGCCACA TTTTGGAAAC ATTCTTCCGA CAGTCATTTG CCCAGGTACT TCATATCACT 
    CAATCAGACA ATATGGGTAG TAGCGACAAA GTGAAAGAGG CACTTAAGTG TGAATTAAGT 
    AGGACTGAAT TTGCTGAATC ACTGGGACTA AAGCCACAGT CCATGTTTGT GGAGTCAATG 
    TTCTCTCTTG CAGATGAAGA TGGGAATGGG TATTTATCCT TCAGGGAATT CCTAAATATA 
    TTGGTGATTT TTATGACAGG TACCCCAAAA GAAAAATCAG AATTGATGTT TAAGATGTAT 
    GATGTTGATG GCAATGGTTT TCTTTCAAAG GAGGAGTTTT TCACAATGTT AAAATCTTTT 
    ATTGAAATAT CCAACAATTG CATCTCAAAA GACCAAACAG AGCAGGTGAT TGAGATCATG 
    TTTAGAGATT CTGGCTTCCA AAATAAAGAA GAACTGACAC TGGAAGATTT CCACTACCTG 
    CTCCGAGACC ATGACAAGGA ACTCCGCTTT TCCCAACTAC GATTCAAAGG TATGGATGCT 
    CCTGAGGTCT TCAATCAAAT GTGTAGAAGA GTTTCTTTTG TAGATACAAC TAATATGAGA 
    GAGAAAACAT CATCAGAGGC CCGTCTTTAT ACAGAAGCCA AAAAGGAAAA ATACCCAAAA 
    GGCATAATAC ATCAAAAATT GCAAGAGTTC AAACGCTTCG CTGAAAATTA CCGGCGTCAT 
    ATAGTCTGTG TAGTGATTTT CTATGGAATT TCTGTTGGTC TATTCTTAGA GAGAGCATAC 
    CATTATGCTT TTGAATCACA ACACAGAGGT ATTTCTGAAG TCACAATGCC CGGTATCATT 
    ATTTCCAGAG GCACAGCTGC CAGCATATCA TTTATGTTTT CTTACATTCT GCTCACCATG 
    TGCCGAAACC TCATCACTTT TCTGAGAGAG ACATTCTTAA ATCAGTATAT CCCCTTTGAT 
    GCAGCAGTGG ACTTCCACCG CCTTGTGGCC AAGACAGCTA TCATACTAAC AGTATTACAT 
    AGTGTGGGAC ATGCAGTCAA TGTGTATATG TTTTCCATTA CCCCTCTTAG CACTCTATCT 
    TGCCTGTTTC CTAAGATATT TGTTAATGAT GGGTCTGAAT TACCTCAGAG GTATTACTGG 
    TGGTTCTTCC AGACCATACC TGGACTCACT GGTGTGCTGC TTTTAGCAGT CCTTGCATTA 
    ATGTATGTTT TCTCATCTCA CCATTTCCGC CGGATAAGTT TTCGTGGATT TTGGGTCACC 
    CATCATTTTT ATATACTGTT GTATATCTTG ACAATACTCC ATGGCAGTTT TGGCCTATTA 
    CAGCAACCGA AATTTCATGT TTTTTTAATG GCTCCTGCAC TTATCTTTAT TAGGGACAGT 
    CTCATAAGCC TGAGAAGAAA AAAGACAGAA ATTAATGTCA TGAAGGCTGA TCTACTTCCT 
    TCAGATGTCA CTTGTCTACG ATTCCAACGA CCTGCAGACT TTGATTATAA ATCTGGGCAA 
    TGGGTCAGAA TTGCGTGCCT TGCTTTGGGA ACCAATGAAT ACCATCCATT TACATTAACA 
    ACCGCTCCTC ATGAAGACAT CTTGAGTTTG CATATTAGAG CTGCTGGGCC TTGGACCACT 
    CGATTACGTG AACTTTACAG TCCTCAGAGT GTGGCTGAAC TTGGTGGATA TCCAAAGATT 
    TACCTTGATG GACCATTTGG GGAAGGTCAC CAAGAGTGGA ACAAATATGA AGTCTCAGTA 
    CTTGTTGGAG GAGGAATAGG AGTGACTCCT TTTGCATCTA TCCTTAAAGA TTTGGTTTTC 
    AAGTCATCTG TAAACTCAAA AATTGCTTGT AAAAAGATAT ATTTTATATG GGTGACCCGC 
    ACTCAGCGCC ATTTTGAGTG GTTTGCAGAC ATCATTAGAG AGGTAGAAGA GAATGATAAG 
    TGTGATTTGG TTTCTGTCCA TATCTATATC ACTCAGCTTG CTGAAAAGTT TGACCTTCGA 
    ACCACAATGC TGTATATCTG TGAGCGGCAC TTCCAGAAAG TATTAAATCG GAGCTTATTT 
    ACTGGGTTGA GATCTATCAC ACACTTTGGA AGACCACAGT TTGAGCAGTT TTTTATTTCA 
    CTCCAAGAAG TTCATCCAGA GGTTCGCAAA ATTGGCGTAT TCAGCTGTGG CCCTCCAGGA 
    ATGACAAAAA ATGTGGAAAA GGCATGTCAG ATGCTGAACA AGGAAAACCA AGCACATTTT 
    AGCCATCACT TTGAAAATTT CTAG

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

    duox1 ( XM_031899149.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031755009.1 Xenopus tropicalis dual oxidase 1 (duox1), mRNA.
    Price & Availability↑
    CloneID OXa55036
    Clone ID Related Accession (Same CDS sequence) XM_031899149.1
    Accession Version XM_031899149.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4518bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product dual oxidase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.2) 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 Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAAAACAC GTTCTACCTG GACCTGCGTG TGGCTTTTTA TTGCAGAGCT ATACAACATC 
    ACATATTCAC AAAAAAACAT TCATTGGGAG ATTCAACGAT ATGACGGCTG GTACAACAAT 
    CTACACCAAC ACAACCGAGG GTCTGCAGGT TTTAGGCTTC TGCGTCTTGT GCCAGCTGCC 
    TACTCCGATG GAGTTTATCA AGCAATACAA GAACCAGAAC TTCCTAACCC AAGGCAAATT 
    AGTAATGTGG CCATGCAAGG AGATTCAGGC CTCTCTTCAA ACCGCAACCG CACAGTTCTT 
    GGCGTATTTT TTGGATACCA TGTACTTTCT GAAATTATTA GCACAGAAAA CTCTGGATGC 
    CCTGCTGAGT TTCTGAATAT TGCAGTACCT AAAGGGGATA AAATATTTGA CCCAGATGCC 
    ACGGGTCAAG TAATGCTACC ATTCCAGCGC AGTCAGTGGT GGAAATGTAG TGGAGAAAGT 
    CCAAATAATC CAAGGCACCA GATAAACTCT GTAACAGCAT GGATAGACGG AAGTTCAATA 
    TATGGTTCAT CCCATTCTTG GAGTGATGCC TTAAGAAGTT TTTCGGGTGG AAAGTTGGCA 
    TCCGATTCTG ACCCCATGTT TCCAAAAGAA GCAGGTGATG CACTTCTAAT GTGGAGAGCA 
    CCAGATCCTT CCACAGGACA TAGAGGAAAG GAAGGGATAT ATGGTTTTGG CAATGCAAGA 
    GCCAATGAGA ATCCTTTCCT CCAAGCTGTG AGCATTCTCT GGTTTAGATA CCATAACTAC 
    CTTGCACTGC AGTTTGCTAA AAAATATCCT CAGTGGTCAG ACGAAGATGT ATTTCATAAT 
    ACCAGAAAAT GGATAATTGC CACTTATCAG AATGTTGTAA TGTATGAATG GCTGCCTGTA 
    TTTCTTCAGA AGGAAGTGTC AGCTTATGAA GGATACAATC AACATGTGGA TGCCAGTCTC 
    TCTCATGAGT TCCAGGCTGC TGTTCAATTT ATGGCAACAC TGTTACCAGC TGGGATATAT 
    ACAAGAAACA AGACATGCCA TTTTCACAAT GTCCAAAGCT CTGATGGGGG TTTCTGGCCA 
    GCTTACCGTT TGTGTGACAG TTACTGGAAA AGAAAAAATC CAAACATCAA GACAGCCCAA 
    GATATCGATA ATTTGCTCCT TGGAATGATT TCCCAGATTG CTGAAAAGGA AGATAATGTT 
    GTTGTTGAAG ATTTACGAGA TTATTGGTAT GGAACTCTGA AATATACCCG TATGGATTAC 
    ATTTCATGGA GTATACAGCA AGGAAGAGAC TTTGGACTAT GTAGTTACAA TCATGCAAGG 
    CAACATTTTG GACTTTCTCC TATTGCAAAC TGGAGTGAAA TCAATCGATC TCTGTACCAG 
    AGAAATAAAG AGCTATTTGA AGACCTTGCA AATCTGTACG GCAATGACAC TGAAAAGCTA 
    GAACTTTTTC CTGGTGTGAT GTTGGAGAGT GATGGAGACC CTGGTGAACT CCTCACTGCT 
    ATCATCATGG ATCAGTTTCA GCGACTCAGA GATGGAGACA GATTTTGGTT TGAAAATTCA 
    AAGAATGGGC TATTTACCTT GGAGGAAATT GAAAGAATTA AGAAAACTAC TTTCCATGAT 
    GTCATTTTGT CTGTTACCTC GGCAGACCTT GGGGATTTTC AGCCAGACGT GTTTAAGTGG 
    GTTAATGGAG ACCCTTGTCC TCAACCAGAA CAAATATCAG CACAGATGCT TGCCAACTGC 
    ACTCCCCCTA CGGTGACTGA TTACTTTGCT GATAGTGTAA CAGGATATAG TATTCTTATT 
    GCTGTCATAT GTTCATTCCC GTTAGTTAGT TTTTTCATTG CTTGGATGGT CGCTCGGTCT 
    CGAAGAAGAA ACTTTAAAAG ATTTCAAAAA AGGAGGGCAA TTCAAAGCAT AAGACAGTCC 
    CTGCCAGCTG AAGGGATATC AGCTCAAGAA TGGCAAGGAC CGAAAGAACC AACATGTAAT 
    GTTCTATTAC AAATTGATCC TCAACATGTT ATCAAGGTTT TAGATTCCCG ATGTGCCATT 
    AGAAGGACTA TCTCTTTGCA GAGCCAGAAA AATGTAATTG TGATTCAGTC AAACAGCCAT 
    GGCTCCAAAA CGTTGCTCAT TAGGATCCCC AAAGAATATG ATTTGGTGCT GCTTTTCCAC 
    AGTGAGGAAG AATGCAGAGA ATTTATTAAC CAGTTACAGG AGAACGGAAT TGAACTACAT 
    CAGTACAACA AAAAGGAGAA ACATCTGCTG AAAGAGGCTG TAACAAAAAA ACAAAGAAGC 
    CACATTTTGG AAACATTCTT CCGACAGTCA TTTGCCCAGG TACTTCATAT CACTCAATCA 
    GACAATATGG GTAGTAGCGA CAAAGTGAAA GAAGCACTTA AGTGTGAATT AAGTAGGACT 
    GAATTTGCTG AATCACTGGG ACTAAAGCCA CAGTCCATGT TTGTGGAGTC AATGTTCTCT 
    CTTGCAGATG AAGATGGGAA TGGGTATTTA TCCTTCAGGG AATTCCTAAA TATATTGGTG 
    ATTTTTATGA CAGGTACCCC AAAAGAAAAA TCAGAATTGA TGTTTAAGAT GTATGATGTT 
    GATGGCAATG GTTTTCTTTC AAAGGAGGAG TTTTTCACAA TGTTAAAATC TTTTATTGAA 
    ATATCCAACA ATTGCATCTC AAAAGACCAA ACAGAGCAGG TGATTGAGAT CATGTTTAGA 
    GATTCTGGCT TCCAAAATAA AGAAGAACTG ACACTGGAAG ATTTCCACTA CCTGCTCCGA 
    GACCATGACA AGGAACTCCG CTTTTCCCAA CTACGATTCA AAGGTATGGA TGCTCCTGAG 
    GTCTTCAATC AAATGTGTAG AAGAGTTTCT TTTGTAGATA CAACTAATAT GAGAGAGAAA 
    ACATCATCAG AGGCCCGTCT TTATACAGAA GCCAAAAAGG AAAAATACCC AAAAGGCATA 
    ATACATCAAA AATTGCAAGA GTTCAAACGC TTCGCTGAAA ATTACCGGCG TCATATAGTC 
    TGTGTAGTGA TTTTCTATGG AATTTCTGTT GGTCTATTCT TAGAGAGAGC ATACCATTAT 
    GCTTTTGAAT CACAACACAG AGGTATTTCT GAAGTCACAA TGCCCGGTAT CATTATTTCC 
    AGAGGCACAG CTGCCAGCAT ATCATTTATG TTTTCTTACA TTCTGCTCAC CATGTGCCGA 
    AACCTCATCA CTTTTCTGAG AGAGACATTC TTAAATCAGT ATATCCCCTT TGATGCAGCA 
    GTGGACTTCC ACCGCCTTGT GGCCAAGACA GCTATCATAC TAACAGTATT ACATAGTGTG 
    GGACATGCAG TCAATGTGTA TATGTTTTCC ATTACCCCTC TTAGCACTCT ATCTTGCCTG 
    TTTCCTAAGA TATTTGTTAA TGATGGGTCT GAATTACCTC AGAGGTATTA CTGGTGGTTC 
    TTCCAGACCA TACCCGGGCT CACTGGTGTG CTGCTTTTAG CAGTCCTTGC ATTAATGTAT 
    GTTTTCTCAT CTCACCATTT CCGCCGGATA AGTTTTCGTG GATTTTGGGT CACCCATCAT 
    TTTTATATAC TGTTGTATAT CTTGACAATA CTCCATGGCA GTTTTGGCCT ATTACAGCAA 
    CCGAAATTTC ATGTTTTTTT AATGGCTCCT GCACTTATCT TTATTGGGGA CAGTCTCATA 
    AGCCTGAGAA GAAAAAAGAC AGAAATTAAT GTCATGAAGG CTGATCTACT TCCTTCAGAT 
    GTCACTTGTC TACGATTCCA ACGACCTGCA GACTTTGATT ATAAATCTGG GCAATGGGTC 
    AGAATTGCGT GCCTTGCTTT GGGAACCAAT GAATACCATC CATTTACATT AACAACCGCT 
    CCTCATGAAG ACATCTTGAG TTTGCATATT AGAGCTGCTG GGCCTTGGAC CACTCGATTA 
    CGTGAACTTT ACAGTCCTCA GAGTGTGGCT GAACTTGGTG GATATCCAAA GATTTACCTT 
    GATGGACCAT TTGGGGAAGG TCACCAAGAG TGGAACAAAT ATGAAGTCTC AGTACTTGTT 
    GGAGGAGGAA TAGGAGTGAC TCCTTTTGCA TCTATCCTTA AAGATTTGGT TTTCAAGTCA 
    TCTGTAAACT CAAAAATTGC TTGTAAAAAG ATATATTTTA TATGGGTGAC CCGCACTCAG 
    CGCCATTTTG AGTGGTTTGC AGACATCATT AGAGAGGTAG AAGAGAATGA TAAGTGTGAT 
    TTGGTTTCTG TCCATATCTA TATCACTCAG CTTGCTGAAA AGTTTGACCT TCGAACCACA 
    ATGCTGTATA TCTGTGAGCG GCACTTCCAG AAAGTATTAA ATCGGAGCTT ATTTACTGGG 
    TTGAGATCTA TCACACACTT TGGAAGACCA CAGTTTGAGC AGTTTTTTAT TTCACTCCAA 
    GAAGTTCATC CAGAGGTTCG CAAAATTGGC GTATTCAGCT GTGGCCCTCC AGGAATGACA 
    AAAAATGTGG AAAAGGCATG TCAGATGCTG AACAAGGAAA ACCAAGCACA TTTTAGCCAT 
    CACTTTGAAA ATTTCTAG

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

    RefSeq XP_031755009.1
    CDS110..4627
    Translation

    Target ORF information:

    RefSeq Version XM_031899149.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis dual oxidase 1 (duox1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031899149.1

    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
    ATGAAAACAC GTTCTACCTG GACCTGCGTG TGGCTTTTTA TTGCAGAGCT ATACAACATC 
    ACATATTCAC AAAAAAACAT TCATTGGGAG ATTCAACGAT ATGACGGCTG GTACAACAAT 
    CTACACCAAC ACAACCGAGG GTCTGCAGGT TTTAGGCTTC TGCGTCTTGT GCCAGCTGCC 
    TACTCCGATG GAGTTTATCA AGCAATACAA GAACCAGAAC TTCCTAACCC AAGGCAAATT 
    AGTAATGTGG CCATGCAAGG AGATTCAGGC CTCTCTTCAA ACCGCAACCG CACAGTTCTT 
    GGCGTATTTT TTGGATACCA TGTACTTTCT GAAATTATTA GCACAGAAAA CTCTGGATGC 
    CCTGCTGAGT TTCTGAATAT TGCAGTACCT AAAGGGGATA AAATATTTGA CCCAGATGCC 
    ACGGGTCAAG TAATGCTACC ATTCCAGCGC AGTCAGTGGT GGAAATGTAG TGGAGAAAGT 
    CCAAATAATC CAAGGCACCA GATAAACTCT GTAACAGCAT GGATAGACGG AAGTTCAATA 
    TATGGTTCAT CCCATTCTTG GAGTGATGCC TTAAGAAGTT TTTCGGGTGG AAAGTTGGCA 
    TCCGATTCTG ACCCCATGTT TCCAAAAGAA GCAGGTGATG CACTTCTAAT GTGGAGAGCA 
    CCAGATCCTT CCACAGGACA TAGAGGAAAG GAAGGGATAT ATGGTTTTGG CAATGCAAGA 
    GCCAATGAGA ATCCTTTCCT CCAAGCTGTG AGCATTCTCT GGTTTAGATA CCATAACTAC 
    CTTGCACTGC AGTTTGCTAA AAAATATCCT CAGTGGTCAG ACGAAGATGT ATTTCATAAT 
    ACCAGAAAAT GGATAATTGC CACTTATCAG AATGTTGTAA TGTATGAATG GCTGCCTGTA 
    TTTCTTCAGA AGGAAGTGTC AGCTTATGAA GGATACAATC AACATGTGGA TGCCAGTCTC 
    TCTCATGAGT TCCAGGCTGC TGTTCAATTT ATGGCAACAC TGTTACCAGC TGGGATATAT 
    ACAAGAAACA AGACATGCCA TTTTCACAAT GTCCAAAGCT CTGATGGGGG TTTCTGGCCA 
    GCTTACCGTT TGTGTGACAG TTACTGGAAA AGAAAAAATC CAAACATCAA GACAGCCCAA 
    GATATCGATA ATTTGCTCCT TGGAATGATT TCCCAGATTG CTGAAAAGGA AGATAATGTT 
    GTTGTTGAAG ATTTACGAGA TTATTGGTAT GGAACTCTGA AATATACCCG TATGGATTAC 
    ATTTCATGGA GTATACAGCA AGGAAGAGAC TTTGGACTAT GTAGTTACAA TCATGCAAGG 
    CAACATTTTG GACTTTCTCC TATTGCAAAC TGGAGTGAAA TCAATCGATC TCTGTACCAG 
    AGAAATAAAG AGCTATTTGA AGACCTTGCA AATCTGTACG GCAATGACAC TGAAAAGCTA 
    GAACTTTTTC CTGGTGTGAT GTTGGAGAGT GATGGAGACC CTGGTGAACT CCTCACTGCT 
    ATCATCATGG ATCAGTTTCA GCGACTCAGA GATGGAGACA GATTTTGGTT TGAAAATTCA 
    AAGAATGGGC TATTTACCTT GGAGGAAATT GAAAGAATTA AGAAAACTAC TTTCCATGAT 
    GTCATTTTGT CTGTTACCTC GGCAGACCTT GGGGATTTTC AGCCAGACGT GTTTAAGTGG 
    GTTAATGGAG ACCCTTGTCC TCAACCAGAA CAAATATCAG CACAGATGCT TGCCAACTGC 
    ACTCCCCCTA CGGTGACTGA TTACTTTGCT GATAGTGTAA CAGGATATAG TATTCTTATT 
    GCTGTCATAT GTTCATTCCC GTTAGTTAGT TTTTTCATTG CTTGGATGGT CGCTCGGTCT 
    CGAAGAAGAA ACTTTAAAAG ATTTCAAAAA AGGAGGGCAA TTCAAAGCAT AAGACAGTCC 
    CTGCCAGCTG AAGGGATATC AGCTCAAGAA TGGCAAGGAC CGAAAGAACC AACATGTAAT 
    GTTCTATTAC AAATTGATCC TCAACATGTT ATCAAGGTTT TAGATTCCCG ATGTGCCATT 
    AGAAGGACTA TCTCTTTGCA GAGCCAGAAA AATGTAATTG TGATTCAGTC AAACAGCCAT 
    GGCTCCAAAA CGTTGCTCAT TAGGATCCCC AAAGAATATG ATTTGGTGCT GCTTTTCCAC 
    AGTGAGGAAG AATGCAGAGA ATTTATTAAC CAGTTACAGG AGAACGGAAT TGAACTACAT 
    CAGTACAACA AAAAGGAGAA ACATCTGCTG AAAGAGGCTG TAACAAAAAA ACAAAGAAGC 
    CACATTTTGG AAACATTCTT CCGACAGTCA TTTGCCCAGG TACTTCATAT CACTCAATCA 
    GACAATATGG GTAGTAGCGA CAAAGTGAAA GAAGCACTTA AGTGTGAATT AAGTAGGACT 
    GAATTTGCTG AATCACTGGG ACTAAAGCCA CAGTCCATGT TTGTGGAGTC AATGTTCTCT 
    CTTGCAGATG AAGATGGGAA TGGGTATTTA TCCTTCAGGG AATTCCTAAA TATATTGGTG 
    ATTTTTATGA CAGGTACCCC AAAAGAAAAA TCAGAATTGA TGTTTAAGAT GTATGATGTT 
    GATGGCAATG GTTTTCTTTC AAAGGAGGAG TTTTTCACAA TGTTAAAATC TTTTATTGAA 
    ATATCCAACA ATTGCATCTC AAAAGACCAA ACAGAGCAGG TGATTGAGAT CATGTTTAGA 
    GATTCTGGCT TCCAAAATAA AGAAGAACTG ACACTGGAAG ATTTCCACTA CCTGCTCCGA 
    GACCATGACA AGGAACTCCG CTTTTCCCAA CTACGATTCA AAGGTATGGA TGCTCCTGAG 
    GTCTTCAATC AAATGTGTAG AAGAGTTTCT TTTGTAGATA CAACTAATAT GAGAGAGAAA 
    ACATCATCAG AGGCCCGTCT TTATACAGAA GCCAAAAAGG AAAAATACCC AAAAGGCATA 
    ATACATCAAA AATTGCAAGA GTTCAAACGC TTCGCTGAAA ATTACCGGCG TCATATAGTC 
    TGTGTAGTGA TTTTCTATGG AATTTCTGTT GGTCTATTCT TAGAGAGAGC ATACCATTAT 
    GCTTTTGAAT CACAACACAG AGGTATTTCT GAAGTCACAA TGCCCGGTAT CATTATTTCC 
    AGAGGCACAG CTGCCAGCAT ATCATTTATG TTTTCTTACA TTCTGCTCAC CATGTGCCGA 
    AACCTCATCA CTTTTCTGAG AGAGACATTC TTAAATCAGT ATATCCCCTT TGATGCAGCA 
    GTGGACTTCC ACCGCCTTGT GGCCAAGACA GCTATCATAC TAACAGTATT ACATAGTGTG 
    GGACATGCAG TCAATGTGTA TATGTTTTCC ATTACCCCTC TTAGCACTCT ATCTTGCCTG 
    TTTCCTAAGA TATTTGTTAA TGATGGGTCT GAATTACCTC AGAGGTATTA CTGGTGGTTC 
    TTCCAGACCA TACCCGGGCT CACTGGTGTG CTGCTTTTAG CAGTCCTTGC ATTAATGTAT 
    GTTTTCTCAT CTCACCATTT CCGCCGGATA AGTTTTCGTG GATTTTGGGT CACCCATCAT 
    TTTTATATAC TGTTGTATAT CTTGACAATA CTCCATGGCA GTTTTGGCCT ATTACAGCAA 
    CCGAAATTTC ATGTTTTTTT AATGGCTCCT GCACTTATCT TTATTGGGGA CAGTCTCATA 
    AGCCTGAGAA GAAAAAAGAC AGAAATTAAT GTCATGAAGG CTGATCTACT TCCTTCAGAT 
    GTCACTTGTC TACGATTCCA ACGACCTGCA GACTTTGATT ATAAATCTGG GCAATGGGTC 
    AGAATTGCGT GCCTTGCTTT GGGAACCAAT GAATACCATC CATTTACATT AACAACCGCT 
    CCTCATGAAG ACATCTTGAG TTTGCATATT AGAGCTGCTG GGCCTTGGAC CACTCGATTA 
    CGTGAACTTT ACAGTCCTCA GAGTGTGGCT GAACTTGGTG GATATCCAAA GATTTACCTT 
    GATGGACCAT TTGGGGAAGG TCACCAAGAG TGGAACAAAT ATGAAGTCTC AGTACTTGTT 
    GGAGGAGGAA TAGGAGTGAC TCCTTTTGCA TCTATCCTTA AAGATTTGGT TTTCAAGTCA 
    TCTGTAAACT CAAAAATTGC TTGTAAAAAG ATATATTTTA TATGGGTGAC CCGCACTCAG 
    CGCCATTTTG AGTGGTTTGC AGACATCATT AGAGAGGTAG AAGAGAATGA TAAGTGTGAT 
    TTGGTTTCTG TCCATATCTA TATCACTCAG CTTGCTGAAA AGTTTGACCT TCGAACCACA 
    ATGCTGTATA TCTGTGAGCG GCACTTCCAG AAAGTATTAA ATCGGAGCTT ATTTACTGGG 
    TTGAGATCTA TCACACACTT TGGAAGACCA CAGTTTGAGC AGTTTTTTAT TTCACTCCAA 
    GAAGTTCATC CAGAGGTTCG CAAAATTGGC GTATTCAGCT GTGGCCCTCC AGGAATGACA 
    AAAAATGTGG AAAAGGCATG TCAGATGCTG AACAAGGAAA ACCAAGCACA TTTTAGCCAT 
    CACTTTGAAA ATTTCTAG

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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