ORF » Species Summary » Homo sapiens » DUOX1 cDNA ORF clone

DUOX1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

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
OHu68238 XM_011521682.1
Latest version!		 Homo sapiens dual oxidase 1 (DUOX1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu10600 NM_017434.5
Latest version!		 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu10600 NM_175940.3
Latest version!		 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu68237 XM_011521681.2
Latest version!		 Homo sapiens dual oxidase 1 (DUOX1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu10600 NM_175940.2 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu10600 NM_017434.4 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    DUOX1 ( XM_011521682.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519984.1 Homo sapiens dual oxidase 1 (DUOX1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu68238
    Clone ID Related Accession (Same CDS sequence) XM_011521682.1
    Accession Version XM_011521682.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3594bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product dual oxidase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTGGATGC ACTGCTGCTG GGCATGGCCT CCCAGATCGC AGAGCGAGAG GACCATGTGT 
    TGGTTGAAGA TGTGCGGGGT GAGTCTGAGG CTGTCCCTGC AGGTTGTGAA CTCCTGGCCT 
    CTGGGAAGAG GCTCAGCTGG ACTTCCAGAA CCAGATTTCT GGCCTGGGCC ACTGAAGTTT 
    TCCCGCACAG ACCACCTGGC CAGCTGCCTG CAGCGGGGCC GGGATCTGGG CCTGCCCTCT 
    TACACCAAGG CCAGGGCAGC ACTGGGCTTG TCTCCCATTA CCCGCTGGCA GGACATCAAC 
    CCTGCACTCT CCCGGAGCAA TGACACTGTA CTGGAGGCCA CAGCTGCCCT GTACAACCAG 
    GACTTATCCT GGCTAGAGCT GCTCCCTGGG GGACTCCTGG AGAGCCACCG GGACCCTGGA 
    CCTCTGTTCA GCACCATCGT CCTTGAACAA TTTGTGCGGC TACGGGATGG TGACCGCTAC 
    TGGTTTGAGA ACACCAGGAA TGGGCTGTTC TCCAAGAAGG AGATTGAAGA AATCCGAAAT 
    ACCACCCTGC AGGACGTGCT GGTCGCTGTT ATCAACATTG ACCCCAGTGC TCTGCAGCCC 
    AATGTCTTTG TCTGGCATAA AGGAGACCCC TGTCCGCAGC CGAGACAGCT CAGCACTGAA 
    GGCCTGCCAG CGTGTGCTCC CTCTGTTGTT CGTGACTATT TTGAGGGCAG TGGATTTGGC 
    TTCGGGGTCA CCATCGGGAC CCTCTGTTGC TTCCCTTTGG TGAGCCTGCT CAGTGCCTGG 
    ATTGTTGCCC GGCTCCGGAT GAGAAATTTC AAGAGGCTCC AGGGCCAGGA CCGCCAGAGC 
    ATCGTGTCTG AGAAGCTCGT GGGAGGCATG GAAGCTTTGG AATGGCAAGG CCACAAGGAG 
    CCCTGCCGGC CCGTGCTTGT GTACCTGCAG CCCGGGCAGA TCCGTGTGGT AGATGGCAGG 
    CTCACCGTGC TCCGCACCAT CCAGCTGCAG CCTCCACAGA AGGTCAACTT CGTCCTGTCC 
    AGCAACCGTG GACGCCGCAC TCTGCTGCTC AAGATCCCCA AGGAGTATGA CCTGGTGCTG 
    CTGTTTAACT TGGAGGAAGA GCGGCAGGCG CTGGTGGAAA ATCTCCGGGG AGCTCTGAAG 
    GAGAGCGGGT TGAGCATCCA GGAGTGGGAG CTGCGGGAGC AGGAGCTGAT GAGAGCAGCT 
    GTGACACGGG AGCAGCGGAG GCACCTCCTG GAGACCTTTT TCAGGCACCT TTTCTCCCAG 
    GTGCTGGACA TCAACCAGGC CGACGCAGGG ACCCTGCCCC TGGACTCCTC CCAGAAGGTG 
    CGGGAGGCCC TGACCTGTGA GCTGAGCAGG GCCGAGTTTG CCGAGTCCCT GGGCCTCAAG 
    CCCCAGGACA TGTTTGTGGA GTCCATGTTC TCTCTGGCTG ACAAGGATGG CAATGGCTAC 
    CTGTCCTTCC GAGAGTTCCT GGACATCCTG GTGGTCTTCA TGAAAGGCTC TCCTGAGGAA 
    AAGTCTCGCC TTATGTTCCG CATGTACGAC TTTGATGGGA ATGGCCTCAT TTCCAAGGAT 
    GAGTTCATCA GGATGCTGAG ATCCTTCATC GAGATCTCCA ACAACTGCCT GTCCAAGGCC 
    CAGCTGGCTG AGGTGGTGGA GTCCATGTTC CGGGAGTCGG GATTCCAGGA CAAGGAGGAA 
    CTGACATGGG AAGATTTTCA CTTCATGCTG CGGGACCACA ATAGCGAGCT CCGCTTCACG 
    CAGCTCTGTG TCAAAGGGGT GGAGGTGCCT GAAGTCATCA AGGACCTCTG CCGGCGAGCC 
    TCCTACATCA GCCAGGATAT GATCTGTCCC TCTCCCAGAG TGAGTGCCCG CTGTTCCCGC 
    AGCGACATTG AGACTGAGTT GACACCTCAG AGACTGCAGT GCCCCATGGA CACAGACCCT 
    CCCCAGGAGA TTCGGCGGAG GTTTGGCAAG AAGGTAACGT CATTCCAGCC CTTGCTGTTC 
    ACTGAGGCGC ACCGAGAGAA GTTCCAACGC AGCTGTCTCC ACCAGACGGT GCAACAGTTC 
    AAGCGCTTCA TTGAGAACTA CCGGCGCCAC ATCGGCTGCG TGGCCGTGTT CTACGCCATC 
    GCTGGGGGGC TTTTCCTGGA GAGGGCCTAC TACTACGCCT TTGCCGCACA TCACACGGGC 
    ATCACAGACA CCACCCGCGT GGGAATCATC CTGTCGCGGG GCACAGCAGC CAGCATCTCT 
    TTCATGTTCT CCTACATCTT GCTCACCATG TGCCGCAACC TCATCACCTT CCTGCGAGAA 
    ACCTTCCTCA ACCGCTACGT GCCCTTCGAC GCCGCCGTGG ACTTCCATCG CCTCATTGCC 
    TCCACCGCCA TCGTCCTCAC AGTCTTACAC AGTGTGGGCC ATGTGGTGAA TGTGTACCTG 
    TTCTCCATCA GCCCCCTCAG CGTCCTCTCT TGCCTCTTTC CTGGCCTCTT CCATGATGAT 
    GGGTCTGAGC TCCCCCAGAA GTATTACTGG TGGTTCTTCC AGACCGTACC AGGCCTCACG 
    GGGGTTGTGC TGCTCCTGAT CCTGGCCATC ATGTATGTCT TTGCCTCCCA CCACTTCCGC 
    CGCCGCAGTT TCCGGGGCTT CTGGCTGACC CACCACCTCT ACATCCTGCT CTATGTCCTG 
    CTCATCATCC ATGGTAGCTT TGCCCTGATC CAGCTGCCCC GTTTCCACAT CTTCTTCCTG 
    GTCCCAGCAA TCATCTATGG GGGCGACAAG CTGGTGAGCC TGAGCCGGAA GAAGGTGGAG 
    ATCAGCGTGG TGAAGGCGGA GCTGCTGCCC TCAGGAGTGA CCCACCTGCG GTTCCAGCGG 
    CCCCAGGGCT TTGAGTACAA GTCAGGGCAG TGGGTGCGGA TCGCTTGCCT GGCTCTGGGG 
    ACCACCGAGT ACCACCCCTT CACACTGACC TCTGCGCCCC ATGAGGACAC GCTTAGCCTG 
    CACATCCGGG CAGCAGGGCC CTGGACCACT CGCCTCAGGG AGATCTACTC AGCCCCGACG 
    GGTGACAGAT GTGCCAGATA CCCAAAGCTG TACCTTGATG GACCATTTGG AGAGGGCCAC 
    CAGGAGTGGC ATAAGTTTGA GGTGTCAGTG TTAGTGGGAG GGGGCATTGG GGTCACCCCT 
    TTTGCCTCCA TCCTCAAAGA CCTGGTCTTC AAGTCATCCG TCAGCTGCCA AGTGTTCTGT 
    AAGAAGATCT ACTTCATCTG GGTGACGCGG ACCCAGCGTC AGTTTGAGTG GCTGGCTGAC 
    ATCATCCGAG AGGTGGAGGA GAATGACCAC CAGGACCTGG TGTCTGTGCA CATCTACATC 
    ACCCAGCTGG CTGAGAAGTT CGACCTCAGG ACCACTATGC TGTACATCTG TGAGCGGCAC 
    TTCCAGAAGG TTCTGAACCG GAGTCTATTC ACAGGCCTGC GCTCCATCAC CCACTTTGGC 
    CGTCCCCCCT TTGAGCCCTT CTTCAACTCC CTGCAGGAGG TCCACCCCCA GGTCCGGAAG 
    ATCGGGGTGT TTAGCTGTGG CCCCCCTGGC ATGACCAAGA ATGTGGAAAA GGCCTGTCAG 
    CTCATCAACA GGCAGGACCG GACTCACTTC TCCCACCATT ATGAGAACTT CTAG

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

    RefSeq XP_011519984.1
    CDS20..3613
    Translation

    Target ORF information:

    RefSeq Version XM_011521682.1
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011521682.1

    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
    ATGTGGATGC ACTGCTGCTG GGCATGGCCT CCCAGATCGC AGAGCGAGAG GACCATGTGT 
    TGGTTGAAGA TGTGCGGGGT GAGTCTGAGG CTGTCCCTGC AGGTTGTGAA CTCCTGGCCT 
    CTGGGAAGAG GCTCAGCTGG ACTTCCAGAA CCAGATTTCT GGCCTGGGCC ACTGAAGTTT 
    TCCCGCACAG ACCACCTGGC CAGCTGCCTG CAGCGGGGCC GGGATCTGGG CCTGCCCTCT 
    TACACCAAGG CCAGGGCAGC ACTGGGCTTG TCTCCCATTA CCCGCTGGCA GGACATCAAC 
    CCTGCACTCT CCCGGAGCAA TGACACTGTA CTGGAGGCCA CAGCTGCCCT GTACAACCAG 
    GACTTATCCT GGCTAGAGCT GCTCCCTGGG GGACTCCTGG AGAGCCACCG GGACCCTGGA 
    CCTCTGTTCA GCACCATCGT CCTTGAACAA TTTGTGCGGC TACGGGATGG TGACCGCTAC 
    TGGTTTGAGA ACACCAGGAA TGGGCTGTTC TCCAAGAAGG AGATTGAAGA AATCCGAAAT 
    ACCACCCTGC AGGACGTGCT GGTCGCTGTT ATCAACATTG ACCCCAGTGC TCTGCAGCCC 
    AATGTCTTTG TCTGGCATAA AGGAGACCCC TGTCCGCAGC CGAGACAGCT CAGCACTGAA 
    GGCCTGCCAG CGTGTGCTCC CTCTGTTGTT CGTGACTATT TTGAGGGCAG TGGATTTGGC 
    TTCGGGGTCA CCATCGGGAC CCTCTGTTGC TTCCCTTTGG TGAGCCTGCT CAGTGCCTGG 
    ATTGTTGCCC GGCTCCGGAT GAGAAATTTC AAGAGGCTCC AGGGCCAGGA CCGCCAGAGC 
    ATCGTGTCTG AGAAGCTCGT GGGAGGCATG GAAGCTTTGG AATGGCAAGG CCACAAGGAG 
    CCCTGCCGGC CCGTGCTTGT GTACCTGCAG CCCGGGCAGA TCCGTGTGGT AGATGGCAGG 
    CTCACCGTGC TCCGCACCAT CCAGCTGCAG CCTCCACAGA AGGTCAACTT CGTCCTGTCC 
    AGCAACCGTG GACGCCGCAC TCTGCTGCTC AAGATCCCCA AGGAGTATGA CCTGGTGCTG 
    CTGTTTAACT TGGAGGAAGA GCGGCAGGCG CTGGTGGAAA ATCTCCGGGG AGCTCTGAAG 
    GAGAGCGGGT TGAGCATCCA GGAGTGGGAG CTGCGGGAGC AGGAGCTGAT GAGAGCAGCT 
    GTGACACGGG AGCAGCGGAG GCACCTCCTG GAGACCTTTT TCAGGCACCT TTTCTCCCAG 
    GTGCTGGACA TCAACCAGGC CGACGCAGGG ACCCTGCCCC TGGACTCCTC CCAGAAGGTG 
    CGGGAGGCCC TGACCTGTGA GCTGAGCAGG GCCGAGTTTG CCGAGTCCCT GGGCCTCAAG 
    CCCCAGGACA TGTTTGTGGA GTCCATGTTC TCTCTGGCTG ACAAGGATGG CAATGGCTAC 
    CTGTCCTTCC GAGAGTTCCT GGACATCCTG GTGGTCTTCA TGAAAGGCTC TCCTGAGGAA 
    AAGTCTCGCC TTATGTTCCG CATGTACGAC TTTGATGGGA ATGGCCTCAT TTCCAAGGAT 
    GAGTTCATCA GGATGCTGAG ATCCTTCATC GAGATCTCCA ACAACTGCCT GTCCAAGGCC 
    CAGCTGGCTG AGGTGGTGGA GTCCATGTTC CGGGAGTCGG GATTCCAGGA CAAGGAGGAA 
    CTGACATGGG AAGATTTTCA CTTCATGCTG CGGGACCACA ATAGCGAGCT CCGCTTCACG 
    CAGCTCTGTG TCAAAGGGGT GGAGGTGCCT GAAGTCATCA AGGACCTCTG CCGGCGAGCC 
    TCCTACATCA GCCAGGATAT GATCTGTCCC TCTCCCAGAG TGAGTGCCCG CTGTTCCCGC 
    AGCGACATTG AGACTGAGTT GACACCTCAG AGACTGCAGT GCCCCATGGA CACAGACCCT 
    CCCCAGGAGA TTCGGCGGAG GTTTGGCAAG AAGGTAACGT CATTCCAGCC CTTGCTGTTC 
    ACTGAGGCGC ACCGAGAGAA GTTCCAACGC AGCTGTCTCC ACCAGACGGT GCAACAGTTC 
    AAGCGCTTCA TTGAGAACTA CCGGCGCCAC ATCGGCTGCG TGGCCGTGTT CTACGCCATC 
    GCTGGGGGGC TTTTCCTGGA GAGGGCCTAC TACTACGCCT TTGCCGCACA TCACACGGGC 
    ATCACAGACA CCACCCGCGT GGGAATCATC CTGTCGCGGG GCACAGCAGC CAGCATCTCT 
    TTCATGTTCT CCTACATCTT GCTCACCATG TGCCGCAACC TCATCACCTT CCTGCGAGAA 
    ACCTTCCTCA ACCGCTACGT GCCCTTCGAC GCCGCCGTGG ACTTCCATCG CCTCATTGCC 
    TCCACCGCCA TCGTCCTCAC AGTCTTACAC AGTGTGGGCC ATGTGGTGAA TGTGTACCTG 
    TTCTCCATCA GCCCCCTCAG CGTCCTCTCT TGCCTCTTTC CTGGCCTCTT CCATGATGAT 
    GGGTCTGAGC TCCCCCAGAA GTATTACTGG TGGTTCTTCC AGACCGTACC AGGCCTCACG 
    GGGGTTGTGC TGCTCCTGAT CCTGGCCATC ATGTATGTCT TTGCCTCCCA CCACTTCCGC 
    CGCCGCAGTT TCCGGGGCTT CTGGCTGACC CACCACCTCT ACATCCTGCT CTATGTCCTG 
    CTCATCATCC ATGGTAGCTT TGCCCTGATC CAGCTGCCCC GTTTCCACAT CTTCTTCCTG 
    GTCCCAGCAA TCATCTATGG GGGCGACAAG CTGGTGAGCC TGAGCCGGAA GAAGGTGGAG 
    ATCAGCGTGG TGAAGGCGGA GCTGCTGCCC TCAGGAGTGA CCCACCTGCG GTTCCAGCGG 
    CCCCAGGGCT TTGAGTACAA GTCAGGGCAG TGGGTGCGGA TCGCTTGCCT GGCTCTGGGG 
    ACCACCGAGT ACCACCCCTT CACACTGACC TCTGCGCCCC ATGAGGACAC GCTTAGCCTG 
    CACATCCGGG CAGCAGGGCC CTGGACCACT CGCCTCAGGG AGATCTACTC AGCCCCGACG 
    GGTGACAGAT GTGCCAGATA CCCAAAGCTG TACCTTGATG GACCATTTGG AGAGGGCCAC 
    CAGGAGTGGC ATAAGTTTGA GGTGTCAGTG TTAGTGGGAG GGGGCATTGG GGTCACCCCT 
    TTTGCCTCCA TCCTCAAAGA CCTGGTCTTC AAGTCATCCG TCAGCTGCCA AGTGTTCTGT 
    AAGAAGATCT ACTTCATCTG GGTGACGCGG ACCCAGCGTC AGTTTGAGTG GCTGGCTGAC 
    ATCATCCGAG AGGTGGAGGA GAATGACCAC CAGGACCTGG TGTCTGTGCA CATCTACATC 
    ACCCAGCTGG CTGAGAAGTT CGACCTCAGG ACCACTATGC TGTACATCTG TGAGCGGCAC 
    TTCCAGAAGG TTCTGAACCG GAGTCTATTC ACAGGCCTGC GCTCCATCAC CCACTTTGGC 
    CGTCCCCCCT TTGAGCCCTT CTTCAACTCC CTGCAGGAGG TCCACCCCCA GGTCCGGAAG 
    ATCGGGGTGT TTAGCTGTGG CCCCCCTGGC ATGACCAAGA ATGTGGAAAA GGCCTGTCAG 
    CTCATCAACA GGCAGGACCG GACTCACTTC TCCCACCATT ATGAGAACTT CTAG

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

    DUOX1 ( NM_175940.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_787954.1 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu10600
    Clone ID Related Accession (Same CDS sequence) NM_175940.2 , NM_175940.3 , NM_017434.4 , NM_017434.5
    Accession Version NM_175940.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-08
    Organism Homo sapiens(human)
    Product dual oxidase 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF213465.1, AF230495.1, AC051619.7 and CB852814.1. On Sep 11, 2013 this sequence version replaced NM_175940.1. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1 and 2 encode the same isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF213465.1, AK075268.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968832, SAMEA2142363 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    RefSeq NP_787954.1
    CDS155..4810
    Translation

    Target ORF information:

    RefSeq Version NM_175940.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_175940.2

    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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    DUOX1 ( NM_175940.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_787954.1 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu10600
    Clone ID Related Accession (Same CDS sequence) NM_175940.2 , NM_175940.3 , NM_017434.4 , NM_017434.5
    Accession Version NM_175940.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    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 2019-12-30
    Organism Homo sapiens(human)
    Product dual oxidase 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF213465.1, AF230495.1, AC051619.7 and CB852814.1. On Nov 23, 2018 this sequence version replaced NM_175940.2. Transcript Variant: This variant (2) differs in the 5' UTR compared to variant 1. Variants 1 and 2 encode the same isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF213465.1, BC114628.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968832, SAMEA2142363 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000389037.7/ ENSP00000373689.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    RefSeq NP_787954.1
    CDS155..4810
    Translation

    Target ORF information:

    RefSeq Version NM_175940.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_175940.3

    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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    DUOX1 ( NM_017434.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_059130.2 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu10600
    Clone ID Related Accession (Same CDS sequence) NM_175940.2 , NM_175940.3 , NM_017434.4 , NM_017434.5
    Accession Version NM_017434.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    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 2019-02-23
    Organism Homo sapiens(human)
    Product dual oxidase 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF213465.1, AF230495.1, AC051619.7 and CB852814.1. On Sep 11, 2013 this sequence version replaced NM_017434.3. Transcript Variant: This variant (1) represents the longer transcript. Variants 1 and 2 both encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF230495.1, AK290372.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142586, SAMEA2144333 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    RefSeq NP_059130.2
    CDS347..5002
    Translation

    Target ORF information:

    RefSeq Version NM_017434.4
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017434.4

    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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    DUOX1 ( NM_017434.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_059130.2 Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu10600
    Clone ID Related Accession (Same CDS sequence) NM_175940.2 , NM_175940.3 , NM_017434.4 , NM_017434.5
    Accession Version NM_017434.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    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 2020-01-03
    Organism Homo sapiens(human)
    Product dual oxidase 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF213465.1, AF230495.1, AC051619.7 and CB852814.1. On May 31, 2019 this sequence version replaced NM_017434.4. Transcript Variant: This variant (1) represents the longer transcript. Variants 1 and 2 both encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF230495.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2142586, SAMEA2144333 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    RefSeq NP_059130.2
    CDS347..5002
    Translation

    Target ORF information:

    RefSeq Version NM_017434.5
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017434.5

    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
    ATGGGCTTCT GCCTGGCTCT AGCATGGACA CTTCTGGTTG GGGCATGGAC CCCTCTGGGA 
    GCTCAGAACC CCATTTCGTG GGAGGTGCAG CGATTTGATG GGTGGTACAA CAACCTCATG 
    GAGCACAGAT GGGGCAGCAA AGGCTCCCGG CTGCAGCGCC TGGTCCCAGC CAGCTATGCA 
    GATGGCGTGT ACCAGCCCTT GGGAGAACCC CACCTGCCCA ACCCCCGAGA CCTTAGCAAC 
    ACCATCTCAA GGGGCCCTGC AGGGCTGGCC TCCCTGAGAA ACCGCACAGT GTTGGGGGTC 
    TTCTTTGGCT ATCACGTGCT TTCAGACCTG GTGAGCGTGG AAACTCCCGG CTGCCCCGCC 
    GAGTTCCTCA ACATTCGCAT CCCGCCCGGA GACCCCATGT TCGACCCCGA CCAGCGCGGG 
    GACGTGGTGC TGCCCTTCCA GAGAAGCCGC TGGGACCCCG AGACCGGACG GAGTCCCAGC 
    AATCCCCGGG ACCCGGCCAA CCAGGTGACG GGCTGGCTGG ACGGCAGCGC CATCTATGGT 
    TCCTCGCATT CCTGGAGCGA CGCGCTGCGG AGCTTCTCCA GGGGACAGCT GGCGTCGGGG 
    CCCGACCCCG CTTTTCCCCG AGACTCGCAG AACCCCCTGC TCATGTGGGC GGCGCCCGAC 
    CCCGCCACCG GGCAGAACGG GCCCCGGGGG CTGTACGCCT TCGGGGCAGA GAGAGGGAAC 
    CGGGAACCCT TCCTGCAGGC GCTGGGCCTG CTCTGGTTCC GCTACCACAA CCTGTGGGCG 
    CAGAGGCTGG CCCGCCAGCA CCCAGACTGG GAGGACGAGG AGCTGTTCCA GCACGCACGC 
    AAGAGGGTCA TCGCCACCTA CCAGAACATC GCTGTGTATG AGTGGCTGCC CAGCTTCCTG 
    CAGAAAACAC TCCCGGAGTA TACAGGATAC CGGCCATTTC TGGACCCCAG CATCTCCTCA 
    GAGTTCGTGG CGGCCTCTGA GCAGTTCCTG TCCACCATGG TGCCCCCTGG CGTCTACATG 
    AGAAATGCCA GCTGCCACTT CCAGGGGGTC ATCAATCGGA ACTCAAGTGT CTCCAGAGCT 
    CTCCGGGTCT GCAACAGCTA CTGGAGCCGT GAGCACCCAA GCCTACAAAG TGCTGAAGAT 
    GTGGATGCAC TGCTGCTGGG CATGGCCTCC CAGATCGCAG AGCGAGAGGA CCATGTGTTG 
    GTTGAAGATG TGCGGGATTT CTGGCCTGGG CCACTGAAGT TTTCCCGCAC AGACCACCTG 
    GCCAGCTGCC TGCAGCGGGG CCGGGATCTG GGCCTGCCCT CTTACACCAA GGCCAGGGCA 
    GCACTGGGCT TGTCTCCCAT TACCCGCTGG CAGGACATCA ACCCTGCACT CTCCCGGAGC 
    AATGACACTG TACTGGAGGC CACAGCTGCC CTGTACAACC AGGACTTATC CTGGCTAGAG 
    CTGCTCCCTG GGGGACTCCT GGAGAGCCAC CGGGACCCTG GACCTCTGTT CAGCACCATC 
    GTCCTTGAAC AATTTGTGCG GCTACGGGAT GGTGACCGCT ACTGGTTTGA GAACACCAGG 
    AATGGGCTGT TCTCCAAGAA GGAGATTGAA GAAATCCGAA ATACCACCCT GCAGGACGTG 
    CTGGTCGCTG TTATCAACAT TGACCCCAGT GCTCTGCAGC CCAATGTCTT TGTCTGGCAT 
    AAAGGAGACC CCTGTCCGCA GCCGAGACAG CTCAGCACTG AAGGCCTGCC AGCGTGTGCT 
    CCCTCTGTTG TTCGTGACTA TTTTGAGGGC AGTGGATTTG GCTTCGGGGT CACCATCGGG 
    ACCCTCTGTT GCTTCCCTTT GGTGAGCCTG CTCAGTGCCT GGATTGTTGC CCGGCTCCGG 
    ATGAGAAATT TCAAGAGGCT CCAGGGCCAG GACCGCCAGA GCATCGTGTC TGAGAAGCTC 
    GTGGGAGGCA TGGAAGCTTT GGAATGGCAA GGCCACAAGG AGCCCTGCCG GCCCGTGCTT 
    GTGTACCTGC AGCCCGGGCA GATCCGTGTG GTAGATGGCA GGCTCACCGT GCTCCGCACC 
    ATCCAGCTGC AGCCTCCACA GAAGGTCAAC TTCGTCCTGT CCAGCAACCG TGGACGCCGC 
    ACTCTGCTGC TCAAGATCCC CAAGGAGTAT GACCTGGTGC TGCTGTTTAA CTTGGAGGAA 
    GAGCGGCAGG CGCTGGTGGA AAATCTCCGG GGAGCTCTGA AGGAGAGCGG GTTGAGCATC 
    CAGGAGTGGG AGCTGCGGGA GCAGGAGCTG ATGAGAGCAG CTGTGACACG GGAGCAGCGG 
    AGGCACCTCC TGGAGACCTT TTTCAGGCAC CTTTTCTCCC AGGTGCTGGA CATCAACCAG 
    GCCGACGCAG GGACCCTGCC CCTGGACTCC TCCCAGAAGG TGCGGGAGGC CCTGACCTGT 
    GAGCTGAGCA GGGCCGAGTT TGCCGAGTCC CTGGGCCTCA AGCCCCAGGA CATGTTTGTG 
    GAGTCCATGT TCTCTCTGGC TGACAAGGAT GGCAATGGCT ACCTGTCCTT CCGAGAGTTC 
    CTGGACATCC TGGTGGTCTT CATGAAAGGC TCTCCTGAGG AAAAGTCTCG CCTTATGTTC 
    CGCATGTACG ACTTTGATGG GAATGGCCTC ATTTCCAAGG ATGAGTTCAT CAGGATGCTG 
    AGATCCTTCA TCGAGATCTC CAACAACTGC CTGTCCAAGG CCCAGCTGGC TGAGGTGGTG 
    GAGTCCATGT TCCGGGAGTC GGGATTCCAG GACAAGGAGG AACTGACATG GGAAGATTTT 
    CACTTCATGC TGCGGGACCA CAATAGCGAG CTCCGCTTCA CGCAGCTCTG TGTCAAAGGG 
    GTGGAGGTGC CTGAAGTCAT CAAGGACCTC TGCCGGCGAG CCTCCTACAT CAGCCAGGAT 
    ATGATCTGTC CCTCTCCCAG AGTGAGTGCC CGCTGTTCCC GCAGCGACAT TGAGACTGAG 
    TTGACACCTC AGAGACTGCA GTGCCCCATG GACACAGACC CTCCCCAGGA GATTCGGCGG 
    AGGTTTGGCA AGAAGGTAAC GTCATTCCAG CCCTTGCTGT TCACTGAGGC GCACCGAGAG 
    AAGTTCCAAC GCAGCTGTCT CCACCAGACG GTGCAACAGT TCAAGCGCTT CATTGAGAAC 
    TACCGGCGCC ACATCGGCTG CGTGGCCGTG TTCTACGCCA TCGCTGGGGG GCTTTTCCTG 
    GAGAGGGCCT ACTACTACGC CTTTGCCGCA CATCACACGG GCATCACAGA CACCACCCGC 
    GTGGGAATCA TCCTGTCGCG GGGCACAGCA GCCAGCATCT CTTTCATGTT CTCCTACATC 
    TTGCTCACCA TGTGCCGCAA CCTCATCACC TTCCTGCGAG AAACCTTCCT CAACCGCTAC 
    GTGCCCTTCG ACGCCGCCGT GGACTTCCAT CGCCTCATTG CCTCCACCGC CATCGTCCTC 
    ACAGTCTTAC ACAGTGTGGG CCATGTGGTG AATGTGTACC TGTTCTCCAT CAGCCCCCTC 
    AGCGTCCTCT CTTGCCTCTT TCCTGGCCTC TTCCATGATG ATGGGTCTGA GCTCCCCCAG 
    AAGTATTACT GGTGGTTCTT CCAGACCGTA CCAGGCCTCA CGGGGGTTGT GCTGCTCCTG 
    ATCCTGGCCA TCATGTATGT CTTTGCCTCC CACCACTTCC GCCGCCGCAG TTTCCGGGGC 
    TTCTGGCTGA CCCACCACCT CTACATCCTG CTCTATGTCC TGCTCATCAT CCATGGTAGC 
    TTTGCCCTGA TCCAGCTGCC CCGTTTCCAC ATCTTCTTCC TGGTCCCAGC AATCATCTAT 
    GGGGGCGACA AGCTGGTGAG CCTGAGCCGG AAGAAGGTGG AGATCAGCGT GGTGAAGGCG 
    GAGCTGCTGC CCTCAGGAGT GACCCACCTG CGGTTCCAGC GGCCCCAGGG CTTTGAGTAC 
    AAGTCAGGGC AGTGGGTGCG GATCGCTTGC CTGGCTCTGG GGACCACCGA GTACCACCCC 
    TTCACACTGA CCTCTGCGCC CCATGAGGAC ACGCTTAGCC TGCACATCCG GGCAGCAGGG 
    CCCTGGACCA CTCGCCTCAG GGAGATCTAC TCAGCCCCGA CGGGTGACAG ATGTGCCAGA 
    TACCCAAAGC TGTACCTTGA TGGACCATTT GGAGAGGGCC ACCAGGAGTG GCATAAGTTT 
    GAGGTGTCAG TGTTAGTGGG AGGGGGCATT GGGGTCACCC CTTTTGCCTC CATCCTCAAA 
    GACCTGGTCT TCAAGTCATC CGTCAGCTGC CAAGTGTTCT GTAAGAAGAT CTACTTCATC 
    TGGGTGACGC GGACCCAGCG TCAGTTTGAG TGGCTGGCTG ACATCATCCG AGAGGTGGAG 
    GAGAATGACC ACCAGGACCT GGTGTCTGTG CACATCTACA TCACCCAGCT GGCTGAGAAG 
    TTCGACCTCA GGACCACTAT GCTGTACATC TGTGAGCGGC ACTTCCAGAA GGTTCTGAAC 
    CGGAGTCTAT TCACAGGCCT GCGCTCCATC ACCCACTTTG GCCGTCCCCC CTTTGAGCCC 
    TTCTTCAACT CCCTGCAGGA GGTCCACCCC CAGGTCCGGA AGATCGGGGT GTTTAGCTGT 
    GGCCCCCCTG GCATGACCAA GAATGTGGAA AAGGCCTGTC AGCTCATCAA CAGGCAGGAC 
    CGGACTCACT TCTCCCACCA TTATGAGAAC TTCTAG

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

    DUOX1 ( XM_011521681.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519983.1 Homo sapiens dual oxidase 1 (DUOX1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu68237
    Clone ID Related Accession (Same CDS sequence) XM_011521681.2
    Accession Version XM_011521681.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4539bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product dual oxidase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011521681.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGAGCACA GATGGGGCAG CAAAGGCTCC CGGCTGCAGC GCCTGGTCCC AGCCAGCTAT 
    GCAGATGGCG TGTACCAGCC CTTGGGAGAA CCCCACCTGC CCAACCCCCG AGACCTTAGC 
    AACACCATCT CAAGGGGCCC TGCAGGGCTG GCCTCCCTGA GAAACCGCAC AGTGTTGGGG 
    GTCTTCTTTG GCTATCACGT GCTTTCAGAC CTGGTGAGCG TGGAAACTCC CGGCTGCCCC 
    GCCGAGTTCC TCAACATTCG CATCCCGCCC GGAGACCCCA TGTTCGACCC CGACCAGCGC 
    GGGGACGTGG TGCTGCCCTT CCAGAGAAGC CGCTGGGACC CCGAGACCGG ACGGAGTCCC 
    AGCAATCCCC GGGACCCGGC CAACCAGGTG ACGGGCTGGC TGGACGGCAG CGCCATCTAT 
    GGTTCCTCGC ATTCCTGGAG CGACGCGCTG CGGAGCTTCT CCAGGGGACA GCTGGCGTCG 
    GGGCCCGACC CCGCTTTTCC CCGAGACTCG CAGAACCCCC TGCTCATGTG GGCGGCGCCC 
    GACCCCGCCA CCGGGCAGAA CGGGCCCCGG GGGCTGTACG CCTTCGGGGC AGAGAGAGGG 
    AACCGGGAAC CCTTCCTGCA GGCGCTGGGC CTGCTCTGGT TCCGCTACCA CAACCTGTGG 
    GCGCAGAGGC TGGCCCGCCA GCACCCAGAC TGGGAGGACG AGGAGCTGTT CCAGCACGCA 
    CGCAAGAGGG TCATCGCCAC CTACCAGAAC ATCGCTGTGT ATGAGTGGCT GCCCAGCTTC 
    CTGCAGAAAA CACTCCCGGA GTATACAGGA TACCGGCCAT TTCTGGACCC CAGCATCTCC 
    TCAGAGTTCG TGGCGGCCTC TGAGCAGTTC CTGTCCACCA TGGTGCCCCC TGGCGTCTAC 
    ATGAGAAATG CCAGCTGCCA CTTCCAGGGG GTCATCAATC GGAACTCAAG TGTCTCCAGA 
    GCTCTCCGGG TCTGCAACAG CTACTGGAGC CGTGAGCACC CAAGCCTACA AAGTGCTGAA 
    GATGTGGATG CACTGCTGCT GGGCATGGCC TCCCAGATCG CAGAGCGAGA GGACCATGTG 
    TTGGTTGAAG ATGTGCGGGA TTTCTGGCCT GGGCCACTGA AGTTTTCCCG CACAGACCAC 
    CTGGCCAGCT GCCTGCAGCG GGGCCGGGAT CTGGGCCTGC CCTCTTACAC CAAGGCCAGG 
    GCAGCACTGG GCTTGTCTCC CATTACCCGC TGGCAGGACA TCAACCCTGC ACTCTCCCGG 
    AGCAATGACA CTGTACTGGA GGCCACAGCT GCCCTGTACA ACCAGGACTT ATCCTGGCTA 
    GAGCTGCTCC CTGGGGGACT CCTGGAGAGC CACCGGGACC CTGGACCTCT GTTCAGCACC 
    ATCGTCCTTG AACAATTTGT GCGGCTACGG GATGGTGACC GCTACTGGTT TGAGAACACC 
    AGGAATGGGC TGTTCTCCAA GAAGGAGATT GAAGAAATCC GAAATACCAC CCTGCAGGAC 
    GTGCTGGTCG CTGTTATCAA CATTGACCCC AGTGCTCTGC AGCCCAATGT CTTTGTCTGG 
    CATAAAGGAG ACCCCTGTCC GCAGCCGAGA CAGCTCAGCA CTGAAGGCCT GCCAGCGTGT 
    GCTCCCTCTG TTGTTCGTGA CTATTTTGAG GGCAGTGGAT TTGGCTTCGG GGTCACCATC 
    GGGACCCTCT GTTGCTTCCC TTTGGTGAGC CTGCTCAGTG CCTGGATTGT TGCCCGGCTC 
    CGGATGAGAA ATTTCAAGAG GCTCCAGGGC CAGGACCGCC AGAGCATCGT GTCTGAGAAG 
    CTCGTGGGAG GCATGGAAGC TTTGGAATGG CAAGGCCACA AGGAGCCCTG CCGGCCCGTG 
    CTTGTGTACC TGCAGCCCGG GCAGATCCGT GTGGTAGATG GCAGGCTCAC CGTGCTCCGC 
    ACCATCCAGC TGCAGCCTCC ACAGAAGGTC AACTTCGTCC TGTCCAGCAA CCGTGGACGC 
    CGCACTCTGC TGCTCAAGAT CCCCAAGGAG TATGACCTGG TGCTGCTGTT TAACTTGGAG 
    GAAGAGCGGC AGGCGCTGGT GGAAAATCTC CGGGGAGCTC TGAAGGAGAG CGGGTTGAGC 
    ATCCAGGAGT GGGAGCTGCG GGAGCAGGAG CTGATGAGAG CAGCTGTGAC ACGGGAGCAG 
    CGGAGGCACC TCCTGGAGAC CTTTTTCAGG CACCTTTTCT CCCAGGTGCT GGACATCAAC 
    CAGGCCGACG CAGGGACCCT GCCCCTGGAC TCCTCCCAGA AGGTGCGGGA GGCCCTGACC 
    TGTGAGCTGA GCAGGGCCGA GTTTGCCGAG TCCCTGGGCC TCAAGCCCCA GGACATGTTT 
    GTGGAGTCCA TGTTCTCTCT GGCTGACAAG GATGGCAATG GCTACCTGTC CTTCCGAGAG 
    TTCCTGGACA TCCTGGTGGT CTTCATGAAA GGCTCTCCTG AGGAAAAGTC TCGCCTTATG 
    TTCCGCATGT ACGACTTTGA TGGGAATGGC CTCATTTCCA AGGATGAGTT CATCAGGATG 
    CTGAGATCCT TCATCGAGAT CTCCAACAAC TGCCTGTCCA AGGCCCAGCT GGCTGAGGTG 
    GTGGAGTCCA TGTTCCGGGA GTCGGGATTC CAGGACAAGG AGGAACTGAC ATGGGAAGAT 
    TTTCACTTCA TGCTGCGGGA CCACAATAGC GAGCTCCGCT TCACGCAGCT CTGTGTCAAA 
    GGGGTGGAGG TGCCTGAAGT CATCAAGGAC CTCTGCCGGC GAGCCTCCTA CATCAGCCAG 
    GATATGATCT GTCCCTCTCC CAGAGTGAGT GCCCGCTGTT CCCGCAGCGA CATTGAGACT 
    GAGTTGACAC CTCAGAGACT GCAGTGCCCC ATGGACACAG ACCCTCCCCA GGAGATTCGG 
    CGGAGGTTTG GCAAGAAGGT AACGTCATTC CAGCCCTTGC TGTTCACTGA GGCGCACCGA 
    GAGAAGTTCC AACGCAGCTG TCTCCACCAG ACGGTGCAAC AGTTCAAGCG CTTCATTGAG 
    AACTACCGGC GCCACATCGG CTGCGTGGCC GTGTTCTACG CCATCGCTGG GGGGCTTTTC 
    CTGGAGAGGG CCTACTACTA CGCCTTTGCC GCACATCACA CGGGCATCAC AGACACCACC 
    CGCGTGGGAA TCATCCTGTC GCGGGGCACA GCAGCCAGCA TCTCTTTCAT GTTCTCCTAC 
    ATCTTGCTCA CCATGTGCCG CAACCTCATC ACCTTCCTGC GAGAAACCTT CCTCAACCGC 
    TACGTGCCCT TCGACGCCGC CGTGGACTTC CATCGCCTCA TTGCCTCCAC CGCCATCGTC 
    CTCACAGTCT TACACAGTGT GGGCCATGTG GTGAATGTGT ACCTGTTCTC CATCAGCCCC 
    CTCAGCGTCC TCTCTTGCCT CTTTCCTGGC CTCTTCCATG ATGATGGGTC TGAGCTCCCC 
    CAGAAGTATT ACTGGTGGTT CTTCCAGACC GTACCAGGCC TCACGGGGGT TGTGCTGCTC 
    CTGATCCTGG CCATCATGTA TGTCTTTGCC TCCCACCACT TCCGCCGCCG CAGTTTCCGG 
    GGCTTCTGGC TGACCCACCA CCTCTACATC CTGCTCTATG TCCTGCTCAT CATCCATGGT 
    AGCTTTGCCC TGATCCAGCT GCCCCGTTTC CACATCTTCT TCCTGGTCCC AGCAATCATC 
    TATGGGGGCG ACAAGCTGGT GAGCCTGAGC CGGAAGAAGG TGGAGATCAG CGTGGTGAAG 
    GCGGAGCTGC TGCCCTCAGG AGTGACCCAC CTGCGGTTCC AGCGGCCCCA GGGCTTTGAG 
    TACAAGTCAG GGCAGTGGGT GCGGATCGCT TGCCTGGCTC TGGGGACCAC CGAGTACCAC 
    CCCTTCACAC TGACCTCTGC GCCCCATGAG GACACGCTTA GCCTGCACAT CCGGGCAGCA 
    GGGCCCTGGA CCACTCGCCT CAGGGAGATC TACTCAGCCC CGACGGGTGA CAGATGTGCC 
    AGATACCCAA AGCTGTACCT TGATGGACCA TTTGGAGAGG GCCACCAGGA GTGGCATAAG 
    TTTGAGGTGT CAGTGTTAGT GGGAGGGGGC ATTGGGGTCA CCCCTTTTGC CTCCATCCTC 
    AAAGACCTGG TCTTCAAGTC ATCCGTCAGC TGCCAAGTGT TCTGTAAGAA GATCTACTTC 
    ATCTGGGTGA CGCGGACCCA GCGTCAGTTT GAGTGGCTGG CTGACATCAT CCGAGAGGTG 
    GAGGAGAATG ACCACCAGGA CCTGGTGTCT GTGCACATCT ACATCACCCA GCTGGCTGAG 
    AAGTTCGACC TCAGGACCAC TATGCTGTAC ATCTGTGAGC GGCACTTCCA GAAGGTTCTG 
    AACCGGAGTC TATTCACAGG CCTGCGCTCC ATCACCCACT TTGGCCGTCC CCCCTTTGAG 
    CCCTTCTTCA ACTCCCTGCA GGAGGTCCAC CCCCAGGTCC GGAAGATCGG GGTGTTTAGC 
    TGTGGCCCCC CTGGCATGAC CAAGAATGTG GAAAAGGCCT GTCAGCTCAT CAACAGGCAG 
    GACCGGACTC ACTTCTCCCA CCATTATGAG AACTTCTAG

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

    RefSeq XP_011519983.1
    CDS165..4703
    Translation

    Target ORF information:

    RefSeq Version XM_011521681.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dual oxidase 1 (DUOX1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011521681.2

    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
    ATGGAGCACA GATGGGGCAG CAAAGGCTCC CGGCTGCAGC GCCTGGTCCC AGCCAGCTAT 
    GCAGATGGCG TGTACCAGCC CTTGGGAGAA CCCCACCTGC CCAACCCCCG AGACCTTAGC 
    AACACCATCT CAAGGGGCCC TGCAGGGCTG GCCTCCCTGA GAAACCGCAC AGTGTTGGGG 
    GTCTTCTTTG GCTATCACGT GCTTTCAGAC CTGGTGAGCG TGGAAACTCC CGGCTGCCCC 
    GCCGAGTTCC TCAACATTCG CATCCCGCCC GGAGACCCCA TGTTCGACCC CGACCAGCGC 
    GGGGACGTGG TGCTGCCCTT CCAGAGAAGC CGCTGGGACC CCGAGACCGG ACGGAGTCCC 
    AGCAATCCCC GGGACCCGGC CAACCAGGTG ACGGGCTGGC TGGACGGCAG CGCCATCTAT 
    GGTTCCTCGC ATTCCTGGAG CGACGCGCTG CGGAGCTTCT CCAGGGGACA GCTGGCGTCG 
    GGGCCCGACC CCGCTTTTCC CCGAGACTCG CAGAACCCCC TGCTCATGTG GGCGGCGCCC 
    GACCCCGCCA CCGGGCAGAA CGGGCCCCGG GGGCTGTACG CCTTCGGGGC AGAGAGAGGG 
    AACCGGGAAC CCTTCCTGCA GGCGCTGGGC CTGCTCTGGT TCCGCTACCA CAACCTGTGG 
    GCGCAGAGGC TGGCCCGCCA GCACCCAGAC TGGGAGGACG AGGAGCTGTT CCAGCACGCA 
    CGCAAGAGGG TCATCGCCAC CTACCAGAAC ATCGCTGTGT ATGAGTGGCT GCCCAGCTTC 
    CTGCAGAAAA CACTCCCGGA GTATACAGGA TACCGGCCAT TTCTGGACCC CAGCATCTCC 
    TCAGAGTTCG TGGCGGCCTC TGAGCAGTTC CTGTCCACCA TGGTGCCCCC TGGCGTCTAC 
    ATGAGAAATG CCAGCTGCCA CTTCCAGGGG GTCATCAATC GGAACTCAAG TGTCTCCAGA 
    GCTCTCCGGG TCTGCAACAG CTACTGGAGC CGTGAGCACC CAAGCCTACA AAGTGCTGAA 
    GATGTGGATG CACTGCTGCT GGGCATGGCC TCCCAGATCG CAGAGCGAGA GGACCATGTG 
    TTGGTTGAAG ATGTGCGGGA TTTCTGGCCT GGGCCACTGA AGTTTTCCCG CACAGACCAC 
    CTGGCCAGCT GCCTGCAGCG GGGCCGGGAT CTGGGCCTGC CCTCTTACAC CAAGGCCAGG 
    GCAGCACTGG GCTTGTCTCC CATTACCCGC TGGCAGGACA TCAACCCTGC ACTCTCCCGG 
    AGCAATGACA CTGTACTGGA GGCCACAGCT GCCCTGTACA ACCAGGACTT ATCCTGGCTA 
    GAGCTGCTCC CTGGGGGACT CCTGGAGAGC CACCGGGACC CTGGACCTCT GTTCAGCACC 
    ATCGTCCTTG AACAATTTGT GCGGCTACGG GATGGTGACC GCTACTGGTT TGAGAACACC 
    AGGAATGGGC TGTTCTCCAA GAAGGAGATT GAAGAAATCC GAAATACCAC CCTGCAGGAC 
    GTGCTGGTCG CTGTTATCAA CATTGACCCC AGTGCTCTGC AGCCCAATGT CTTTGTCTGG 
    CATAAAGGAG ACCCCTGTCC GCAGCCGAGA CAGCTCAGCA CTGAAGGCCT GCCAGCGTGT 
    GCTCCCTCTG TTGTTCGTGA CTATTTTGAG GGCAGTGGAT TTGGCTTCGG GGTCACCATC 
    GGGACCCTCT GTTGCTTCCC TTTGGTGAGC CTGCTCAGTG CCTGGATTGT TGCCCGGCTC 
    CGGATGAGAA ATTTCAAGAG GCTCCAGGGC CAGGACCGCC AGAGCATCGT GTCTGAGAAG 
    CTCGTGGGAG GCATGGAAGC TTTGGAATGG CAAGGCCACA AGGAGCCCTG CCGGCCCGTG 
    CTTGTGTACC TGCAGCCCGG GCAGATCCGT GTGGTAGATG GCAGGCTCAC CGTGCTCCGC 
    ACCATCCAGC TGCAGCCTCC ACAGAAGGTC AACTTCGTCC TGTCCAGCAA CCGTGGACGC 
    CGCACTCTGC TGCTCAAGAT CCCCAAGGAG TATGACCTGG TGCTGCTGTT TAACTTGGAG 
    GAAGAGCGGC AGGCGCTGGT GGAAAATCTC CGGGGAGCTC TGAAGGAGAG CGGGTTGAGC 
    ATCCAGGAGT GGGAGCTGCG GGAGCAGGAG CTGATGAGAG CAGCTGTGAC ACGGGAGCAG 
    CGGAGGCACC TCCTGGAGAC CTTTTTCAGG CACCTTTTCT CCCAGGTGCT GGACATCAAC 
    CAGGCCGACG CAGGGACCCT GCCCCTGGAC TCCTCCCAGA AGGTGCGGGA GGCCCTGACC 
    TGTGAGCTGA GCAGGGCCGA GTTTGCCGAG TCCCTGGGCC TCAAGCCCCA GGACATGTTT 
    GTGGAGTCCA TGTTCTCTCT GGCTGACAAG GATGGCAATG GCTACCTGTC CTTCCGAGAG 
    TTCCTGGACA TCCTGGTGGT CTTCATGAAA GGCTCTCCTG AGGAAAAGTC TCGCCTTATG 
    TTCCGCATGT ACGACTTTGA TGGGAATGGC CTCATTTCCA AGGATGAGTT CATCAGGATG 
    CTGAGATCCT TCATCGAGAT CTCCAACAAC TGCCTGTCCA AGGCCCAGCT GGCTGAGGTG 
    GTGGAGTCCA TGTTCCGGGA GTCGGGATTC CAGGACAAGG AGGAACTGAC ATGGGAAGAT 
    TTTCACTTCA TGCTGCGGGA CCACAATAGC GAGCTCCGCT TCACGCAGCT CTGTGTCAAA 
    GGGGTGGAGG TGCCTGAAGT CATCAAGGAC CTCTGCCGGC GAGCCTCCTA CATCAGCCAG 
    GATATGATCT GTCCCTCTCC CAGAGTGAGT GCCCGCTGTT CCCGCAGCGA CATTGAGACT 
    GAGTTGACAC CTCAGAGACT GCAGTGCCCC ATGGACACAG ACCCTCCCCA GGAGATTCGG 
    CGGAGGTTTG GCAAGAAGGT AACGTCATTC CAGCCCTTGC TGTTCACTGA GGCGCACCGA 
    GAGAAGTTCC AACGCAGCTG TCTCCACCAG ACGGTGCAAC AGTTCAAGCG CTTCATTGAG 
    AACTACCGGC GCCACATCGG CTGCGTGGCC GTGTTCTACG CCATCGCTGG GGGGCTTTTC 
    CTGGAGAGGG CCTACTACTA CGCCTTTGCC GCACATCACA CGGGCATCAC AGACACCACC 
    CGCGTGGGAA TCATCCTGTC GCGGGGCACA GCAGCCAGCA TCTCTTTCAT GTTCTCCTAC 
    ATCTTGCTCA CCATGTGCCG CAACCTCATC ACCTTCCTGC GAGAAACCTT CCTCAACCGC 
    TACGTGCCCT TCGACGCCGC CGTGGACTTC CATCGCCTCA TTGCCTCCAC CGCCATCGTC 
    CTCACAGTCT TACACAGTGT GGGCCATGTG GTGAATGTGT ACCTGTTCTC CATCAGCCCC 
    CTCAGCGTCC TCTCTTGCCT CTTTCCTGGC CTCTTCCATG ATGATGGGTC TGAGCTCCCC 
    CAGAAGTATT ACTGGTGGTT CTTCCAGACC GTACCAGGCC TCACGGGGGT TGTGCTGCTC 
    CTGATCCTGG CCATCATGTA TGTCTTTGCC TCCCACCACT TCCGCCGCCG CAGTTTCCGG 
    GGCTTCTGGC TGACCCACCA CCTCTACATC CTGCTCTATG TCCTGCTCAT CATCCATGGT 
    AGCTTTGCCC TGATCCAGCT GCCCCGTTTC CACATCTTCT TCCTGGTCCC AGCAATCATC 
    TATGGGGGCG ACAAGCTGGT GAGCCTGAGC CGGAAGAAGG TGGAGATCAG CGTGGTGAAG 
    GCGGAGCTGC TGCCCTCAGG AGTGACCCAC CTGCGGTTCC AGCGGCCCCA GGGCTTTGAG 
    TACAAGTCAG GGCAGTGGGT GCGGATCGCT TGCCTGGCTC TGGGGACCAC CGAGTACCAC 
    CCCTTCACAC TGACCTCTGC GCCCCATGAG GACACGCTTA GCCTGCACAT CCGGGCAGCA 
    GGGCCCTGGA CCACTCGCCT CAGGGAGATC TACTCAGCCC CGACGGGTGA CAGATGTGCC 
    AGATACCCAA AGCTGTACCT TGATGGACCA TTTGGAGAGG GCCACCAGGA GTGGCATAAG 
    TTTGAGGTGT CAGTGTTAGT GGGAGGGGGC ATTGGGGTCA CCCCTTTTGC CTCCATCCTC 
    AAAGACCTGG TCTTCAAGTC ATCCGTCAGC TGCCAAGTGT TCTGTAAGAA GATCTACTTC 
    ATCTGGGTGA CGCGGACCCA GCGTCAGTTT GAGTGGCTGG CTGACATCAT CCGAGAGGTG 
    GAGGAGAATG ACCACCAGGA CCTGGTGTCT GTGCACATCT ACATCACCCA GCTGGCTGAG 
    AAGTTCGACC TCAGGACCAC TATGCTGTAC ATCTGTGAGC GGCACTTCCA GAAGGTTCTG 
    AACCGGAGTC TATTCACAGG CCTGCGCTCC ATCACCCACT TTGGCCGTCC CCCCTTTGAG 
    CCCTTCTTCA ACTCCCTGCA GGAGGTCCAC CCCCAGGTCC GGAAGATCGG GGTGTTTAGC 
    TGTGGCCCCC CTGGCATGAC CAAGAATGTG GAAAAGGCCT GTCAGCTCAT CAACAGGCAG 
    GACCGGACTC ACTTCTCCCA CCATTATGAG AACTTCTAG

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

見積依頼

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