ORF » Species Summary » Mesocricetus auratus » DUOX1 cDNA ORF clone

DUOX1 cDNA ORF clone, Mesocricetus auratus(Golden hamster)

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
OMe121741 XM_005068452.2
Latest version!		 Mesocricetus auratus dual oxidase 1 (Duox1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMe247533 XM_021226237.1
Latest version!		 Mesocricetus auratus dual oxidase 1 (Duox1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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

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

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

  • Reference Sequences (Refseq)
    DUOX1 ( XM_005068452.2 ) cDNA ORF clone, Mesocricetus auratus(Golden hamster) -> XP_005068509.1 Mesocricetus auratus dual oxidase 1 (Duox1), mRNA.
    Price & Availability↑
    CloneID OMe121741
    Clone ID Related Accession (Same CDS sequence) XM_005068452.2
    Accession Version XM_005068452.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4215bp)
    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 1436630400000
    Organism Mesocricetus auratus(Golden hamster)
    Product dual oxidase 1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004801618.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 13, 2015 this sequence version replaced XM_005068452.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mesocricetus auratus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGGTTTCC ACCTAGCTCT GGCCTGGATC CTCCTGGTTG GGACATCAGC CTGTCTGGGA 
    GCTCAGAACT CCATTTCTTG GGAGGTACAG CGATTTGATG GATGGTATAA CAACCTCAAG 
    GAGCACAGAT GGGGCAGCAA AGGCTCTCGG CTGCAGCGCC TTGTCCCAGC CAGCTATGCA 
    GATGGTGTGT ACCAGCCCTT GAGAGAACCC CACCTGCCTA ACCCCCGAGA CCTTAGCAAC 
    ACGTCCATGA GAGGTCCTGC TGGGCAGCCC TCACTGCGGA ACCGTACAGT CCTGGGTGTC 
    TTCTTTGGCT ACCACGTGCT CTCGGACCTG GTGAGCGTGG AAACACCAGG CTGCCCCGCG 
    GAGTTCCTCA ACATTTACAT CCCGCGTGGA GATCCCGTGT TCGACCCAGA CAAACGCGGG 
    GACGTGGAGC TGCCCTTTCA GAGGAGCCGC TGGGATCCCA AGACCGGACA GAGTCCCAGC 
    AACCCCAGGG ACCTGACCAA CCAGGTGACC GGCTGGCTGG ATGGCAGTGC CATCTATGGT 
    CTCTGTGGTT TCAGTAACAG TTCTTGCTCT TTGCATTTTA GGAATGCCAG TTGCCACTTC 
    CAAAGGATTG CCAATATTAA CTCAAGTTTC TCCAGAGCTC TCCGGGTCTG CAACAGCTAC 
    TGGAGTCGAG AGCACCCAAA CTTACGAAGT GCTGAAGACG TGGATGCGCT GCTGCTGGGC 
    ATGGCCTCCC AGATTGCAGA GAGAGAGGAC CATGTCGTGG TTGAGGATGT ACAAGATTTC 
    TGGCCTGGCC CACTGAAGTT CTCCCGTACA GACTACCTGG CCAGCTGCCT ACAGCGGGGT 
    CGGGATCTAG GCCTGCCTTC TTACATCAAA GCCAGAGCAG CTCTGGGTCT GCCTCCCATT 
    TCCCACTGGC AAGACATCAA CCCTGCACTC TCGAGGAGCA ATGACACTGT GCTGGAGGCC 
    ACAGCTGCCC TATACAATCA GGACCTGTCT CGTCTGGAGC TGCTCCCAGG AGGGCTTCTG 
    GAAAGCCATG GGGACCCTGG ACCTCTTTTC AGCACCATTG TCCTCGACCA ATTTGTCAGG 
    CTACGAGATG GTGACCGCTA CTGGTTTGAG AACAACAGGA ATGGACTGTT CTCTAAGGAA 
    GAAATTGCAG AAATCAGAAA CACTTCCCTC CGGGACATTC TAGTGGCTGT CACCAAGGTG 
    GACCCCAGAG CCCTGCAGCC CAATGTCTTC TTTTGGCTTG CCGGAGACCC CTGTCCCCAG 
    CCAAGTCAGC TCAGCACCAA GGGCCTACCA GCCTGTGCCC CCCTCTTCAT TCGAGACTAT 
    TTCAAGGGCA GTGGATTTGG CTTCGGACTC ACCATTGGGA CTCTCTGCTG CTTCCCCTTA 
    GTCAGCCTGC TCAGCGCCTG GATTGTTGCC CGGCTTCGGA TGAGGAATTT CAAGAGGCTT 
    CAGAGACAGG ACCGGCAGAG CATCATGTCT GAGAAGCTTG TAGGGGGAGT GGAAGCCTTG 
    GAGTGGCAGG GCCGCAAGGA ACCCTGCAGG CCAGTACTTG TACACTTGCA GCCTGGACAG 
    ATCCGAATAG TAGATGGCAG GCTCACCGTG CTCCGTACCA TCCAGCTGCG GCCCCCACAG 
    CAGGTCAACC TCATCCTGTC CAGCAACCGT GGACGCCGCA CCCTGCTGCT CAAGATCCCC 
    AAGGAGTATG ACCTGGCGCT GATGTTTAAC ACGGAGGAAG AGCGGCAGGC ACTGGTAGAA 
    AACATCAGGG GGGCTCTGAA GGAGAGCGAA CTGAGCTTCC AGGAGTGGGA GCTGCGGGAG 
    CAGGAATTGA TGAGGACAGC AGTGACAAGG GAACAACGGA GTCACCTCCT GGAGACTTTT 
    TTCAGGCACC TTTTCTCCCA GGTGTTAGAC ATCAATCAGG CAGATGCGGG GACTCTGCCT 
    CTGGACTCTT CGATGAAAGT GCGAGAGGCC CTGACCTGCG AGCTGAGCAG GGTTGAATTT 
    GCAGACTCCT TGGGCCTCAA GCCCCAGGAC ATGTTTGTGG AATCCATGTT TTCTTTGGCC 
    GACAAGGATG GCAATGGCTA CCTATCCTTC AGGGAGTTCC TGGACATCCT GGTGGTCTTC 
    ATGAAAGGTT CCCCCGAGGA GAAGTCTCGT CTTATGTTCC GAATGTATGA CTTTGATGGG 
    AATGGTCTCA TTTCCAAGGA TGAGTTCATT AGGATGCTAA GGTCCTTCAT CGAGATCTCC 
    AACAACTGCC TATCCAAGGC CCAGCTGACT GAGGTGGTGG AGTCCATGTT CCGGGAGTCG 
    GGCTTCCAGG ACAAGGAGGA GTTGACCTGG GAGGACTTCC ACTTCATGTT GCGGGACCAT 
    GACAGCGATC TCCGATTTAC GCAGCTCTGT GTCAAAGGGG TGGAAGTGCC TGAAGTCATC 
    AAGACCCTCT GCCGTCGAGC CTCCTACATC AGCCAGGAGA AGATGTGCCC TTCGCCCAGA 
    ATGAGCGCCC ACTGTGCCCG CAATGCCATC AAGACTGAGG CATCACCACA GAGACTACAG 
    TGTCCCATGG ACACAGACCC TCCTCAAGAG ATTCGACGGA GGTTTGGCAA GAAGGTAACT 
    TCGTTCCAGC CCTTGCTGTT CACTGAGGCA CACCGAGAGA AGCTCCAACA CAGCCGCCGC 
    CACCAAACGT TGCAGCAGTT CAAGCGCTTC GTTGAGAACT ACCGGCGCCA CATAGGCTGT 
    GTGGCAGTGT TCTACGCCAT CACTGGAGCG CTCTTCCTGG AGAGGGCCTA CTACTATGCG 
    TTTGCGGCTC ACCACAGTGG CATCACCGAT ACCACCCGTG TAGGCATCAT CCTGTCCCGG 
    GGCACGGCGG CCAGCATCTC CTTCATGTTT TCCTACATCC TGCTCACCAT GTGCCGCAAC 
    CTCATCACCT TCTTGCGGGA GACCTTCCTC AACCGCTACA TTCCCTTTGA TGCGGCCGTG 
    GACTTCCATC GCCTCATCGC CTCCACAGCC ATCGTCCTCA CAGTCCTACA CAGTGCTGGC 
    CATGTAGTGA ACGTGTACCT CTTCTCCATC AGTCCACTCA GTGTTCTATC TTGCCTCTTC 
    CCTGGCCTCT TCCACGACGA TGGGTCAGAG TTCCCTCAGA AGTATTACTG GTGGTTCTTC 
    CAGACTGTAC CAGGCCTCAC CGGGGTGCTG CTGCTCCTGG CCCTGGCCAT CATGTACGTC 
    TTCGCCTCCC ACCACTTCCG CCGCCGCAGT TTCCGGGGCT TCTGGCTGAC CCACCACCTC 
    TACATTTTTC TCTACATCCT GCTCATCATC CATGGCAGCT TTGCTCTGAT CCAGATGCCC 
    CGATTCCACA TCTTCTTCCT GGTCCCGGCA ATTATCTATG TGGGGGACAA GCTGGTGAGC 
    CTGAGCCGGA AGAAGGTGGA GATCAGCGTG GTGAAGGCTG AGCTGCTGCC TTCAGGAGTG 
    ACCCACCTGC GGTTCCAGAG GCCCCAGGGC TTTGAGTATA AGTCAGGGCA GTGGGTGCGG 
    ATTGCCTGCC TGGCTCTGGG GACCACGGAG TACCACCCCT TCACATTGAC CTCTGCCCCG 
    CACGAGGACA CACTCAGCCT GCACATCCGG GCAGCTGGAC CCTGGACCAC CCGCCTCAGG 
    GAGATCTACT CACCTCCGAC TGGTGACACC TGTGCCAGAT ACCCAAAGCT GTACCTCGAC 
    GGGCCGTTTG GAGAGGGCCA CCAGGAGTGG CATAAGTTTG AGGTGTCAGT GCTAGTGGGA 
    GCTGGAATTG GGGTCACCCC CTTTGCCTCC ATCCTCAAAG ACCTGGTTTT CAAGTCGTCT 
    GTCAGCTGCC AAGTGTTCTG TAAGAAGATC TACTTCATTT GGGTGACAAG GACTCAGCGG 
    CAGTTTGAGT GGCTGGCTGA CATCATCCGG GAGGTGGAGG AGAACGACCA CCAGGACCTG 
    GTGTCTGTGC ACATCTACAT CACCCAGCTG GCTGAGAAGT TTGACCTCAG GACCACCATG 
    CTGTACATCT GTGAGCGGCA CTTCCAGAAG GTGCTGAACC GGAGTTTGTT CACGGGCCTG 
    CGCTCTGTCA CCCACTTTGG CCGCCCTCCC TTTGAGCCTT TCTTCAACTC TCTGCAGGAA 
    GTCCACCCCC AGGTTCGAAA GATTGGAGTA TTTAGCTGTG GACCCCCTGG CATGACCAAG 
    AACGTGGAGA AGGCCTGCCA GCTCATCAAC AGGCAGGACC GGACTCATTT CTCTCACCAT 
    TATGAGAACT TCTAG

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

    RefSeq XP_005068509.1
    CDS1..4215
    Translation

    Target ORF information:

    RefSeq Version XM_005068452.2
    Organism Mesocricetus auratus(Golden hamster)
    Definition Mesocricetus auratus dual oxidase 1 (Duox1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005068452.2

    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
    ATGGGTTTCC ACCTAGCTCT GGCCTGGATC CTCCTGGTTG GGACATCAGC CTGTCTGGGA 
    GCTCAGAACT CCATTTCTTG GGAGGTACAG CGATTTGATG GATGGTATAA CAACCTCAAG 
    GAGCACAGAT GGGGCAGCAA AGGCTCTCGG CTGCAGCGCC TTGTCCCAGC CAGCTATGCA 
    GATGGTGTGT ACCAGCCCTT GAGAGAACCC CACCTGCCTA ACCCCCGAGA CCTTAGCAAC 
    ACGTCCATGA GAGGTCCTGC TGGGCAGCCC TCACTGCGGA ACCGTACAGT CCTGGGTGTC 
    TTCTTTGGCT ACCACGTGCT CTCGGACCTG GTGAGCGTGG AAACACCAGG CTGCCCCGCG 
    GAGTTCCTCA ACATTTACAT CCCGCGTGGA GATCCCGTGT TCGACCCAGA CAAACGCGGG 
    GACGTGGAGC TGCCCTTTCA GAGGAGCCGC TGGGATCCCA AGACCGGACA GAGTCCCAGC 
    AACCCCAGGG ACCTGACCAA CCAGGTGACC GGCTGGCTGG ATGGCAGTGC CATCTATGGT 
    CTCTGTGGTT TCAGTAACAG TTCTTGCTCT TTGCATTTTA GGAATGCCAG TTGCCACTTC 
    CAAAGGATTG CCAATATTAA CTCAAGTTTC TCCAGAGCTC TCCGGGTCTG CAACAGCTAC 
    TGGAGTCGAG AGCACCCAAA CTTACGAAGT GCTGAAGACG TGGATGCGCT GCTGCTGGGC 
    ATGGCCTCCC AGATTGCAGA GAGAGAGGAC CATGTCGTGG TTGAGGATGT ACAAGATTTC 
    TGGCCTGGCC CACTGAAGTT CTCCCGTACA GACTACCTGG CCAGCTGCCT ACAGCGGGGT 
    CGGGATCTAG GCCTGCCTTC TTACATCAAA GCCAGAGCAG CTCTGGGTCT GCCTCCCATT 
    TCCCACTGGC AAGACATCAA CCCTGCACTC TCGAGGAGCA ATGACACTGT GCTGGAGGCC 
    ACAGCTGCCC TATACAATCA GGACCTGTCT CGTCTGGAGC TGCTCCCAGG AGGGCTTCTG 
    GAAAGCCATG GGGACCCTGG ACCTCTTTTC AGCACCATTG TCCTCGACCA ATTTGTCAGG 
    CTACGAGATG GTGACCGCTA CTGGTTTGAG AACAACAGGA ATGGACTGTT CTCTAAGGAA 
    GAAATTGCAG AAATCAGAAA CACTTCCCTC CGGGACATTC TAGTGGCTGT CACCAAGGTG 
    GACCCCAGAG CCCTGCAGCC CAATGTCTTC TTTTGGCTTG CCGGAGACCC CTGTCCCCAG 
    CCAAGTCAGC TCAGCACCAA GGGCCTACCA GCCTGTGCCC CCCTCTTCAT TCGAGACTAT 
    TTCAAGGGCA GTGGATTTGG CTTCGGACTC ACCATTGGGA CTCTCTGCTG CTTCCCCTTA 
    GTCAGCCTGC TCAGCGCCTG GATTGTTGCC CGGCTTCGGA TGAGGAATTT CAAGAGGCTT 
    CAGAGACAGG ACCGGCAGAG CATCATGTCT GAGAAGCTTG TAGGGGGAGT GGAAGCCTTG 
    GAGTGGCAGG GCCGCAAGGA ACCCTGCAGG CCAGTACTTG TACACTTGCA GCCTGGACAG 
    ATCCGAATAG TAGATGGCAG GCTCACCGTG CTCCGTACCA TCCAGCTGCG GCCCCCACAG 
    CAGGTCAACC TCATCCTGTC CAGCAACCGT GGACGCCGCA CCCTGCTGCT CAAGATCCCC 
    AAGGAGTATG ACCTGGCGCT GATGTTTAAC ACGGAGGAAG AGCGGCAGGC ACTGGTAGAA 
    AACATCAGGG GGGCTCTGAA GGAGAGCGAA CTGAGCTTCC AGGAGTGGGA GCTGCGGGAG 
    CAGGAATTGA TGAGGACAGC AGTGACAAGG GAACAACGGA GTCACCTCCT GGAGACTTTT 
    TTCAGGCACC TTTTCTCCCA GGTGTTAGAC ATCAATCAGG CAGATGCGGG GACTCTGCCT 
    CTGGACTCTT CGATGAAAGT GCGAGAGGCC CTGACCTGCG AGCTGAGCAG GGTTGAATTT 
    GCAGACTCCT TGGGCCTCAA GCCCCAGGAC ATGTTTGTGG AATCCATGTT TTCTTTGGCC 
    GACAAGGATG GCAATGGCTA CCTATCCTTC AGGGAGTTCC TGGACATCCT GGTGGTCTTC 
    ATGAAAGGTT CCCCCGAGGA GAAGTCTCGT CTTATGTTCC GAATGTATGA CTTTGATGGG 
    AATGGTCTCA TTTCCAAGGA TGAGTTCATT AGGATGCTAA GGTCCTTCAT CGAGATCTCC 
    AACAACTGCC TATCCAAGGC CCAGCTGACT GAGGTGGTGG AGTCCATGTT CCGGGAGTCG 
    GGCTTCCAGG ACAAGGAGGA GTTGACCTGG GAGGACTTCC ACTTCATGTT GCGGGACCAT 
    GACAGCGATC TCCGATTTAC GCAGCTCTGT GTCAAAGGGG TGGAAGTGCC TGAAGTCATC 
    AAGACCCTCT GCCGTCGAGC CTCCTACATC AGCCAGGAGA AGATGTGCCC TTCGCCCAGA 
    ATGAGCGCCC ACTGTGCCCG CAATGCCATC AAGACTGAGG CATCACCACA GAGACTACAG 
    TGTCCCATGG ACACAGACCC TCCTCAAGAG ATTCGACGGA GGTTTGGCAA GAAGGTAACT 
    TCGTTCCAGC CCTTGCTGTT CACTGAGGCA CACCGAGAGA AGCTCCAACA CAGCCGCCGC 
    CACCAAACGT TGCAGCAGTT CAAGCGCTTC GTTGAGAACT ACCGGCGCCA CATAGGCTGT 
    GTGGCAGTGT TCTACGCCAT CACTGGAGCG CTCTTCCTGG AGAGGGCCTA CTACTATGCG 
    TTTGCGGCTC ACCACAGTGG CATCACCGAT ACCACCCGTG TAGGCATCAT CCTGTCCCGG 
    GGCACGGCGG CCAGCATCTC CTTCATGTTT TCCTACATCC TGCTCACCAT GTGCCGCAAC 
    CTCATCACCT TCTTGCGGGA GACCTTCCTC AACCGCTACA TTCCCTTTGA TGCGGCCGTG 
    GACTTCCATC GCCTCATCGC CTCCACAGCC ATCGTCCTCA CAGTCCTACA CAGTGCTGGC 
    CATGTAGTGA ACGTGTACCT CTTCTCCATC AGTCCACTCA GTGTTCTATC TTGCCTCTTC 
    CCTGGCCTCT TCCACGACGA TGGGTCAGAG TTCCCTCAGA AGTATTACTG GTGGTTCTTC 
    CAGACTGTAC CAGGCCTCAC CGGGGTGCTG CTGCTCCTGG CCCTGGCCAT CATGTACGTC 
    TTCGCCTCCC ACCACTTCCG CCGCCGCAGT TTCCGGGGCT TCTGGCTGAC CCACCACCTC 
    TACATTTTTC TCTACATCCT GCTCATCATC CATGGCAGCT TTGCTCTGAT CCAGATGCCC 
    CGATTCCACA TCTTCTTCCT GGTCCCGGCA ATTATCTATG TGGGGGACAA GCTGGTGAGC 
    CTGAGCCGGA AGAAGGTGGA GATCAGCGTG GTGAAGGCTG AGCTGCTGCC TTCAGGAGTG 
    ACCCACCTGC GGTTCCAGAG GCCCCAGGGC TTTGAGTATA AGTCAGGGCA GTGGGTGCGG 
    ATTGCCTGCC TGGCTCTGGG GACCACGGAG TACCACCCCT TCACATTGAC CTCTGCCCCG 
    CACGAGGACA CACTCAGCCT GCACATCCGG GCAGCTGGAC CCTGGACCAC CCGCCTCAGG 
    GAGATCTACT CACCTCCGAC TGGTGACACC TGTGCCAGAT ACCCAAAGCT GTACCTCGAC 
    GGGCCGTTTG GAGAGGGCCA CCAGGAGTGG CATAAGTTTG AGGTGTCAGT GCTAGTGGGA 
    GCTGGAATTG GGGTCACCCC CTTTGCCTCC ATCCTCAAAG ACCTGGTTTT CAAGTCGTCT 
    GTCAGCTGCC AAGTGTTCTG TAAGAAGATC TACTTCATTT GGGTGACAAG GACTCAGCGG 
    CAGTTTGAGT GGCTGGCTGA CATCATCCGG GAGGTGGAGG AGAACGACCA CCAGGACCTG 
    GTGTCTGTGC ACATCTACAT CACCCAGCTG GCTGAGAAGT TTGACCTCAG GACCACCATG 
    CTGTACATCT GTGAGCGGCA CTTCCAGAAG GTGCTGAACC GGAGTTTGTT CACGGGCCTG 
    CGCTCTGTCA CCCACTTTGG CCGCCCTCCC TTTGAGCCTT TCTTCAACTC TCTGCAGGAA 
    GTCCACCCCC AGGTTCGAAA GATTGGAGTA TTTAGCTGTG GACCCCCTGG CATGACCAAG 
    AACGTGGAGA AGGCCTGCCA GCTCATCAAC AGGCAGGACC GGACTCATTT CTCTCACCAT 
    TATGAGAACT TCTAG

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

    DUOX1 ( XM_021226237.1 ) cDNA ORF clone, Mesocricetus auratus(Golden hamster) -> XP_021081896.1 Mesocricetus auratus dual oxidase 1 (Duox1), mRNA.
    Price & Availability↑
    CloneID OMe247533
    Clone ID Related Accession (Same CDS sequence) XM_021226237.1
    Accession Version XM_021226237.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 1495296000000
    Organism Mesocricetus auratus(golden hamster)
    Product dual oxidase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004801618.1) 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 :: Mesocricetus auratus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGGTTTCC ACCTAGCTCT GGCCTGGATC CTCCTGGTTG GGACATCAGC CTGTCTGGGA 
    GCTCAGAACT CCATTTCTTG GGAGGTACAG CGATTTGATG GATGGTATAA CAACCTCAAG 
    GAGCACAGAT GGGGCAGCAA AGGCTCTCGG CTGCAGCGCC TTGTCCCAGC CAGCTATGCA 
    GATGGTGTGT ACCAGCCCTT GAGAGAACCC CACCTGCCTA ACCCCCGAGA CCTTAGCAAC 
    ACGTCCATGA GAGGTCCTGC TGGGCAGCCC TCACTGCGGA ACCGTACAGT CCTGGGTGTC 
    TTCTTTGGCT ACCACGTGCT CTCGGACCTG GTGAGCGTGG AAACACCAGG CTGCCCCGCG 
    GAGTTCCTCA ACATTTACAT CCCGCGTGGA GATCCCGTGT TCGACCCAGA CAAACGCGGG 
    GACGTGGAGC TGCCCTTTCA GAGGAGCCGC TGGGATCCCA AGACCGGACA GAGTCCCAGC 
    AACCCCAGGG ACCTGGTGAG GAATGCCAGT TGCCACTTCC AAAGGATTGC CAATATTAAC 
    TCAAGTTTCT CCAGAGCTCT CCGGGTCTGC AACAGCTACT GGAGTCGAGA GCACCCAAAC 
    TTACGAAGTG CTGAAGACGT GGATGCGCTG CTGCTGGGCA TGGCCTCCCA GATTGCAGAG 
    AGAGAGGACC ATGTCGTGGT TGAGGATGTA CAAGATTTCT GGCCTGGCCC ACTGAAGTTC 
    TCCCGTACAG ACTACCTGGC CAGCTGCCTA CAGCGGGGTC GGGATCTAGG CCTGCCTTCT 
    TACATCAAAG CCAGAGCAGC TCTGGGTCTG CCTCCCATTT CCCACTGGCA AGACATCAAC 
    CCTGCACTCT CGAGGAGCAA TGACACTGTG CTGGAGGCCA CAGCTGCCCT ATACAATCAG 
    GACCTGTCTC GTCTGGAGCT GCTCCCAGGA GGGCTTCTGG AAAGCCATGG GGACCCTGGA 
    CCTCTTTTCA GCACCATTGT CCTCGACCAA TTTGTCAGGC TACGAGATGG TGACCGCTAC 
    TGGTTTGAGA ACAACAGGAA TGGACTGTTC TCTAAGGAAG AAATTGCAGA AATCAGAAAC 
    ACTTCCCTCC GGGACATTCT AGTGGCTGTC ACCAAGGTGG ACCCCAGAGC CCTGCAGCCC 
    AATGTCTTCT TTTGGCTTGC CGGAGACCCC TGTCCCCAGC CAAGTCAGCT CAGCACCAAG 
    GGCCTACCAG CCTGTGCCCC CCTCTTCATT CGAGACTATT TCAAGGGCAG TGGATTTGGC 
    TTCGGACTCA CCATTGGGAC TCTCTGCTGC TTCCCCTTAG TCAGCCTGCT CAGCGCCTGG 
    ATTGTTGCCC GGCTTCGGAT GAGGAATTTC AAGAGGCTTC AGAGACAGGA CCGGCAGAGC 
    ATCATGTCTG AGAAGCTTGT AGGGGGAGTG GAAGCCTTGG AGTGGCAGGG CCGCAAGGAA 
    CCCTGCAGGC CAGTACTTGT ACACTTGCAG CCTGGACAGA TCCGAATAGT AGATGGCAGG 
    CTCACCGTGC TCCGTACCAT CCAGCTGCGG CCCCCACAGC AGGTCAACCT CATCCTGTCC 
    AGCAACCGTG GACGCCGCAC CCTGCTGCTC AAGATCCCCA AGGAGTATGA CCTGGCGCTG 
    ATGTTTAACA CGGAGGAAGA GCGGCAGGCA CTGGTAGAAA ACATCAGGGG GGCTCTGAAG 
    GAGAGCGAAC TGAGCTTCCA GGAGTGGGAG CTGCGGGAGC AGGAATTGAT GAGGACAGCA 
    GTGACAAGGG AACAACGGAG TCACCTCCTG GAGACTTTTT TCAGGCACCT TTTCTCCCAG 
    GTGTTAGACA TCAATCAGGC AGATGCGGGG ACTCTGCCTC TGGACTCTTC GATGAAAGTG 
    CGAGAGGCCC TGACCTGCGA GCTGAGCAGG GTTGAATTTG CAGACTCCTT GGGCCTCAAG 
    CCCCAGGACA TGTTTGTGGA ATCCATGTTT TCTTTGGCCG ACAAGGATGG CAATGGCTAC 
    CTATCCTTCA GGGAGTTCCT GGACATCCTG GTGGTCTTCA TGAAAGGTTC CCCCGAGGAG 
    AAGTCTCGTC TTATGTTCCG AATGTATGAC TTTGATGGGA ATGGTCTCAT TTCCAAGGAT 
    GAGTTCATTA GGATGCTAAG GTCCTTCATC GAGATCTCCA ACAACTGCCT ATCCAAGGCC 
    CAGCTGACTG AGGTGGTGGA GTCCATGTTC CGGGAGTCGG GCTTCCAGGA CAAGGAGGAG 
    TTGACCTGGG AGGACTTCCA CTTCATGTTG CGGGACCATG ACAGCGATCT CCGATTTACG 
    CAGCTCTGTG TCAAAGGGGT GGAAGTGCCT GAAGTCATCA AGACCCTCTG CCGTCGAGCC 
    TCCTACATCA GCCAGGAGAA GATGTGCCCT TCGCCCAGAA TGAGCGCCCA CTGTGCCCGC 
    AATGCCATCA AGACTGAGGC ATCACCACAG AGACTACAGT GTCCCATGGA CACAGACCCT 
    CCTCAAGAGA TTCGACGGAG GTTTGGCAAG AAGGTAACTT CGTTCCAGCC CTTGCTGTTC 
    ACTGAGGCAC ACCGAGAGAA GCTCCAACAC AGCCGCCGCC ACCAAACGTT GCAGCAGTTC 
    AAGCGCTTCG TTGAGAACTA CCGGCGCCAC ATAGGCTGTG TGGCAGTGTT CTACGCCATC 
    ACTGGAGCGC TCTTCCTGGA GAGGGCCTAC TACTATGCGT TTGCGGCTCA CCACAGTGGC 
    ATCACCGATA CCACCCGTGT AGGCATCATC CTGTCCCGGG GCACGGCGGC CAGCATCTCC 
    TTCATGTTTT CCTACATCCT GCTCACCATG TGCCGCAACC TCATCACCTT CTTGCGGGAG 
    ACCTTCCTCA ACCGCTACAT TCCCTTTGAT GCGGCCGTGG ACTTCCATCG CCTCATCGCC 
    TCCACAGCCA TCGTCCTCAC AGTCCTACAC AGTGCTGGCC ATGTAGTGAA CGTGTACCTC 
    TTCTCCATCA GTCCACTCAG TGTTCTATCT TGCCTCTTCC CTGGCCTCTT CCACGACGAT 
    GGGTCAGAGT TCCCTCAGAA GTATTACTGG TGGTTCTTCC AGACTGTACC AGGCCTCACC 
    GGGGTGCTGC TGCTCCTGGC CCTGGCCATC ATGTACGTCT TCGCCTCCCA CCACTTCCGC 
    CGCCGCAGTT TCCGGGGCTT CTGGCTGACC CACCACCTCT ACATTTTTCT CTACATCCTG 
    CTCATCATCC ATGGCAGCTT TGCTCTGATC CAGATGCCCC GATTCCACAT CTTCTTCCTG 
    GTCCCGGCAA TTATCTATGT GGGGGACAAG CTGGTGAGCC TGAGCCGGAA GAAGGTGGAG 
    ATCAGCGTGG TGAAGGCTGA GCTGCTGCCT TCAGGAGTGA CCCACCTGCG GTTCCAGAGG 
    CCCCAGGGCT TTGAGTATAA GTCAGGGCAG TGGGTGCGGA TTGCCTGCCT GGCTCTGGGG 
    ACCACGGAGT ACCACCCCTT CACATTGACC TCTGCCCCGC ACGAGGACAC ACTCAGCCTG 
    CACATCCGGG CAGCTGGACC CTGGACCACC CGCCTCAGGG AGATCTACTC ACCTCCGACT 
    GGTGACACCT GTGCCAGATA CCCAAAGCTG TACCTCGACG GGCCGTTTGG AGAGGGCCAC 
    CAGGAGTGGC ATAAGTTTGA GGTGTCAGTG CTAGTGGGAG CTGGAATTGG GGTCACCCCC 
    TTTGCCTCCA TCCTCAAAGA CCTGGTTTTC AAGTCGTCTG TCAGCTGCCA AGTGTTCTGT 
    AAGAAGATCT ACTTCATTTG GGTGACAAGG ACTCAGCGGC AGTTTGAGTG GCTGGCTGAC 
    ATCATCCGGG AGGTGGAGGA GAACGACCAC CAGGACCTGG TGTCTGTGCA CATCTACATC 
    ACCCAGCTGG CTGAGAAGTT TGACCTCAGG ACCACCATGC TGTACATCTG TGAGCGGCAC 
    TTCCAGAAGG TGCTGAACCG GAGTTTGTTC ACGGGCCTGC GCTCTGTCAC CCACTTTGGC 
    CGCCCTCCCT TTGAGCCTTT CTTCAACTCT CTGCAGGAAG TCCACCCCCA GGTTCGAAAG 
    ATTGGAGTAT TTAGCTGTGG ACCCCCTGGC ATGACCAAGA ACGTGGAGAA GGCCTGCCAG 
    CTCATCAACA GGCAGGACCG GACTCATTTC TCTCACCATT ATGAGAACTT CTAG

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

    RefSeq XP_021081896.1
    CDS42..4175
    Translation

    Target ORF information:

    RefSeq Version XM_021226237.1
    Organism Mesocricetus auratus(golden hamster)
    Definition Mesocricetus auratus dual oxidase 1 (Duox1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021226237.1

    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
    ATGGGTTTCC ACCTAGCTCT GGCCTGGATC CTCCTGGTTG GGACATCAGC CTGTCTGGGA 
    GCTCAGAACT CCATTTCTTG GGAGGTACAG CGATTTGATG GATGGTATAA CAACCTCAAG 
    GAGCACAGAT GGGGCAGCAA AGGCTCTCGG CTGCAGCGCC TTGTCCCAGC CAGCTATGCA 
    GATGGTGTGT ACCAGCCCTT GAGAGAACCC CACCTGCCTA ACCCCCGAGA CCTTAGCAAC 
    ACGTCCATGA GAGGTCCTGC TGGGCAGCCC TCACTGCGGA ACCGTACAGT CCTGGGTGTC 
    TTCTTTGGCT ACCACGTGCT CTCGGACCTG GTGAGCGTGG AAACACCAGG CTGCCCCGCG 
    GAGTTCCTCA ACATTTACAT CCCGCGTGGA GATCCCGTGT TCGACCCAGA CAAACGCGGG 
    GACGTGGAGC TGCCCTTTCA GAGGAGCCGC TGGGATCCCA AGACCGGACA GAGTCCCAGC 
    AACCCCAGGG ACCTGGTGAG GAATGCCAGT TGCCACTTCC AAAGGATTGC CAATATTAAC 
    TCAAGTTTCT CCAGAGCTCT CCGGGTCTGC AACAGCTACT GGAGTCGAGA GCACCCAAAC 
    TTACGAAGTG CTGAAGACGT GGATGCGCTG CTGCTGGGCA TGGCCTCCCA GATTGCAGAG 
    AGAGAGGACC ATGTCGTGGT TGAGGATGTA CAAGATTTCT GGCCTGGCCC ACTGAAGTTC 
    TCCCGTACAG ACTACCTGGC CAGCTGCCTA CAGCGGGGTC GGGATCTAGG CCTGCCTTCT 
    TACATCAAAG CCAGAGCAGC TCTGGGTCTG CCTCCCATTT CCCACTGGCA AGACATCAAC 
    CCTGCACTCT CGAGGAGCAA TGACACTGTG CTGGAGGCCA CAGCTGCCCT ATACAATCAG 
    GACCTGTCTC GTCTGGAGCT GCTCCCAGGA GGGCTTCTGG AAAGCCATGG GGACCCTGGA 
    CCTCTTTTCA GCACCATTGT CCTCGACCAA TTTGTCAGGC TACGAGATGG TGACCGCTAC 
    TGGTTTGAGA ACAACAGGAA TGGACTGTTC TCTAAGGAAG AAATTGCAGA AATCAGAAAC 
    ACTTCCCTCC GGGACATTCT AGTGGCTGTC ACCAAGGTGG ACCCCAGAGC CCTGCAGCCC 
    AATGTCTTCT TTTGGCTTGC CGGAGACCCC TGTCCCCAGC CAAGTCAGCT CAGCACCAAG 
    GGCCTACCAG CCTGTGCCCC CCTCTTCATT CGAGACTATT TCAAGGGCAG TGGATTTGGC 
    TTCGGACTCA CCATTGGGAC TCTCTGCTGC TTCCCCTTAG TCAGCCTGCT CAGCGCCTGG 
    ATTGTTGCCC GGCTTCGGAT GAGGAATTTC AAGAGGCTTC AGAGACAGGA CCGGCAGAGC 
    ATCATGTCTG AGAAGCTTGT AGGGGGAGTG GAAGCCTTGG AGTGGCAGGG CCGCAAGGAA 
    CCCTGCAGGC CAGTACTTGT ACACTTGCAG CCTGGACAGA TCCGAATAGT AGATGGCAGG 
    CTCACCGTGC TCCGTACCAT CCAGCTGCGG CCCCCACAGC AGGTCAACCT CATCCTGTCC 
    AGCAACCGTG GACGCCGCAC CCTGCTGCTC AAGATCCCCA AGGAGTATGA CCTGGCGCTG 
    ATGTTTAACA CGGAGGAAGA GCGGCAGGCA CTGGTAGAAA ACATCAGGGG GGCTCTGAAG 
    GAGAGCGAAC TGAGCTTCCA GGAGTGGGAG CTGCGGGAGC AGGAATTGAT GAGGACAGCA 
    GTGACAAGGG AACAACGGAG TCACCTCCTG GAGACTTTTT TCAGGCACCT TTTCTCCCAG 
    GTGTTAGACA TCAATCAGGC AGATGCGGGG ACTCTGCCTC TGGACTCTTC GATGAAAGTG 
    CGAGAGGCCC TGACCTGCGA GCTGAGCAGG GTTGAATTTG CAGACTCCTT GGGCCTCAAG 
    CCCCAGGACA TGTTTGTGGA ATCCATGTTT TCTTTGGCCG ACAAGGATGG CAATGGCTAC 
    CTATCCTTCA GGGAGTTCCT GGACATCCTG GTGGTCTTCA TGAAAGGTTC CCCCGAGGAG 
    AAGTCTCGTC TTATGTTCCG AATGTATGAC TTTGATGGGA ATGGTCTCAT TTCCAAGGAT 
    GAGTTCATTA GGATGCTAAG GTCCTTCATC GAGATCTCCA ACAACTGCCT ATCCAAGGCC 
    CAGCTGACTG AGGTGGTGGA GTCCATGTTC CGGGAGTCGG GCTTCCAGGA CAAGGAGGAG 
    TTGACCTGGG AGGACTTCCA CTTCATGTTG CGGGACCATG ACAGCGATCT CCGATTTACG 
    CAGCTCTGTG TCAAAGGGGT GGAAGTGCCT GAAGTCATCA AGACCCTCTG CCGTCGAGCC 
    TCCTACATCA GCCAGGAGAA GATGTGCCCT TCGCCCAGAA TGAGCGCCCA CTGTGCCCGC 
    AATGCCATCA AGACTGAGGC ATCACCACAG AGACTACAGT GTCCCATGGA CACAGACCCT 
    CCTCAAGAGA TTCGACGGAG GTTTGGCAAG AAGGTAACTT CGTTCCAGCC CTTGCTGTTC 
    ACTGAGGCAC ACCGAGAGAA GCTCCAACAC AGCCGCCGCC ACCAAACGTT GCAGCAGTTC 
    AAGCGCTTCG TTGAGAACTA CCGGCGCCAC ATAGGCTGTG TGGCAGTGTT CTACGCCATC 
    ACTGGAGCGC TCTTCCTGGA GAGGGCCTAC TACTATGCGT TTGCGGCTCA CCACAGTGGC 
    ATCACCGATA CCACCCGTGT AGGCATCATC CTGTCCCGGG GCACGGCGGC CAGCATCTCC 
    TTCATGTTTT CCTACATCCT GCTCACCATG TGCCGCAACC TCATCACCTT CTTGCGGGAG 
    ACCTTCCTCA ACCGCTACAT TCCCTTTGAT GCGGCCGTGG ACTTCCATCG CCTCATCGCC 
    TCCACAGCCA TCGTCCTCAC AGTCCTACAC AGTGCTGGCC ATGTAGTGAA CGTGTACCTC 
    TTCTCCATCA GTCCACTCAG TGTTCTATCT TGCCTCTTCC CTGGCCTCTT CCACGACGAT 
    GGGTCAGAGT TCCCTCAGAA GTATTACTGG TGGTTCTTCC AGACTGTACC AGGCCTCACC 
    GGGGTGCTGC TGCTCCTGGC CCTGGCCATC ATGTACGTCT TCGCCTCCCA CCACTTCCGC 
    CGCCGCAGTT TCCGGGGCTT CTGGCTGACC CACCACCTCT ACATTTTTCT CTACATCCTG 
    CTCATCATCC ATGGCAGCTT TGCTCTGATC CAGATGCCCC GATTCCACAT CTTCTTCCTG 
    GTCCCGGCAA TTATCTATGT GGGGGACAAG CTGGTGAGCC TGAGCCGGAA GAAGGTGGAG 
    ATCAGCGTGG TGAAGGCTGA GCTGCTGCCT TCAGGAGTGA CCCACCTGCG GTTCCAGAGG 
    CCCCAGGGCT TTGAGTATAA GTCAGGGCAG TGGGTGCGGA TTGCCTGCCT GGCTCTGGGG 
    ACCACGGAGT ACCACCCCTT CACATTGACC TCTGCCCCGC ACGAGGACAC ACTCAGCCTG 
    CACATCCGGG CAGCTGGACC CTGGACCACC CGCCTCAGGG AGATCTACTC ACCTCCGACT 
    GGTGACACCT GTGCCAGATA CCCAAAGCTG TACCTCGACG GGCCGTTTGG AGAGGGCCAC 
    CAGGAGTGGC ATAAGTTTGA GGTGTCAGTG CTAGTGGGAG CTGGAATTGG GGTCACCCCC 
    TTTGCCTCCA TCCTCAAAGA CCTGGTTTTC AAGTCGTCTG TCAGCTGCCA AGTGTTCTGT 
    AAGAAGATCT ACTTCATTTG GGTGACAAGG ACTCAGCGGC AGTTTGAGTG GCTGGCTGAC 
    ATCATCCGGG AGGTGGAGGA GAACGACCAC CAGGACCTGG TGTCTGTGCA CATCTACATC 
    ACCCAGCTGG CTGAGAAGTT TGACCTCAGG ACCACCATGC TGTACATCTG TGAGCGGCAC 
    TTCCAGAAGG TGCTGAACCG GAGTTTGTTC ACGGGCCTGC GCTCTGTCAC CCACTTTGGC 
    CGCCCTCCCT TTGAGCCTTT CTTCAACTCT CTGCAGGAAG TCCACCCCCA GGTTCGAAAG 
    ATTGGAGTAT TTAGCTGTGG ACCCCCTGGC ATGACCAAGA ACGTGGAGAA GGCCTGCCAG 
    CTCATCAACA GGCAGGACCG GACTCATTTC TCTCACCATT ATGAGAACTT CTAG

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission