| Gene Symbol | DDX46 |
| Entrez Gene ID | 100221983 |
| Full Name | DEAD-box helicase 46 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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DDX46 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following DDX46 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DDX46 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.
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Reference Sequences (Refseq)
CloneID OTd15983 Clone ID Related Accession (Same CDS sequence) XM_012575344.1 Accession Version XM_012575344.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3279bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product probable ATP-dependent RNA helicase DDX46 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197295.1) 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 :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 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 :: 5% 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
3241ATGAGCAGGG GCGGCATAGC ACCCTCCACC CACCGGGGGG GCGCCAGCGC GGGCGCGGCG
CGAAGGGGCG GCGCTCCCTC CCGGGCGCTC TCCGTGCGGG CGGGGAAATG GCCGCCGCCG
CCGCCGTGTA GCGGGAGCGC CGCCGCCATG GGCCGCGAGT CCAGGCATTA CCGGAAGCGC
TCTGCGTCCC GGGGGCGCTC CGGGAGCCGT TCCAGGAGCC GTTCCCCGTC GGACAAGAGG
AAGCGCGAGG ACAGGCGCTC CCGGAGCCGG GACCGGGACC GCAGGCGGGA GAGGTCGCGC
AGCAGGGACA AGAGAAGGTC TCGCTCGCGG GACAGAAAGC GTCAAAGACG TTCAAGGAGC
AGAGAAAGGG AACGGAGCCG AGAGAGAAGA CGATCCCGGA GCCGAGACAG GAGGCGCTCA
AGGAGCAGGA GTAGAGGGAG ACGGTCGCGA TCCTCCAGTC CAAGCAAGAA CAGGAAAACA
GAAAACAGAT CAAGATCTAA AGAAAAGACA GAAGGTGTGG AAATCTCCAA AGAAAAGAAA
AAAGACAAAG ATGACAAAGA GGAAGAGAAA GATAAAGATG CTACCACAAA TGCTGTGGCC
ACTGAGAATT TTGATCAGAA CAAACTAGAA GAAGAAATGA GAAAACGAAA AGAAAGAGTG
GAGAAATGGA GGGAAGAACA ACGCAAGAAG GCAATGGAAA ACATAGGAGA GCTAAAAAAA
GAAATTGAAG AGATGAAACA GGGGAAAAAA TGGAGTTTAG AAGATGATGA TGATGATGAA
GAGGAAACTG CAGAAGGAGA AAAAGAAGGC AATGAGGTTG AAGATGAGGA GTTAGATCCT
TTAGATGCTT ATATGGAAGA AGTAAAAGAA GAGGTCAAGA AGTTCAATAT GAGAAGTGTG
AAAGGTGGAG GTGGGAGTGA AAAGAAAACT GGACCAACTG TTACCAAGGT GGTTACTGTG
GTGACAACCA AAAAGGCAGC TGCTGAGTCA GAAAAGAAGA AAGGGGAACT CATGGAAAAT
GACCAAGATG CAATGGAGTA TTCCTCAGAA GAGGAGGAAG TTGACCTTCA GACTGCCCTG
ACTGGCTATC AGACCAAGCA GAGAAAGCTG CTAGAACCAG TGGATCATGG AAAGATAGAA
TATGAACCTT TCAGGAAAAA CTTCTATGTT GAAGTACCAG AACTAGCTAA AATGACTCAA
GAAGAGGTCA ATGTGTACAG GCTGGAGCTG GAAGGAATTA CAGTCAAGGG AAAAGGCTGT
CCCAAACCAA TAAAAACCTG GGTACAATGT GGTATTTCCA TGAAGATTCT CACTGCCCTC
AAAAAACATG GCTATGAAAA GCCCACGCCG ATTCAGACCC AGGCTATCCC AGCAATTATG
AACGGACGGG ATTTGATTGG CATTGCTAAA ACAGGAAGTG GAAAAACTAT TGCATTTCTG
TTGCCCATGT TCAGACACAT TATGGATCAG AGAGCATTAG AAGAAGGAGA AGGTCCAATA
GCTGTCATTA TGACACCTAC ACGTGAGTTG GCTTTGCAGA TTACCAAGGA GTGCAAGAAA
TTCTCCAAGA CACTTGGGCT TCGAGTTGTC TGTGTTTATG GAGGAACGGG AATCAGTGAA
CAGATAGCTG AACTCAAAAG AGGTGCTGAA ATTATTGTTT GCACACCTGG ACGTATGATT
GACATGTTAG CAGCTAACAA TGGACGGGTG ACAAACCTGC GTAGAGTCAC GTACGTTGTA
CTTGATGAAG CTGACAGAAT GTTTGACATG GGGTTTGAAC CTCAGGTCAT GCGCATTGTA
GACAACGTCA GGCCTGACCG TCAGACTGTC ATGTTCTCTG CTACTTTCCC CAGAGCTATG
GAGGCCCTGG CTCGCAGGAT CCTCAGCAAA CCTATAGAGG TGCAGGTTGG AGGCAGAAGT
GTTGTCTGTT CTGATGTGGA GCAACACGTG ATTGTCATAG AAGAGGAGAA CAAATTTCTG
AAGTTACTGG AGCTACTGGG ACATTATCAG GAGAAAGGAT CTGTTATCAT ATTTGTAGAT
AAGCAAGAAC ACGCTGATGG GTTATTGAAA GATTTAATGA GGGCCTCTTA TCCTTGCTTG
TCTCTCCATG GAGGTATTGA TCAGTATGAC AGGGACAGCA TCATTAATGA CTTCAAGAAT
GGAACCTGCA AACTACTGGT GGCCACATCT GTAGCAGCCA GGGGCTTGGA TGTGAAGCAG
CTGATGCTGG TGGTCAATTA CAGCTGTCCC AACCACTATG AGGACTACGT GCACCGAGCC
GGCCGCACTG GGCGAGCTGG CAACAAAGGA TATGCATATA CATTCATTAC TGAGGATCAG
GCACGTTATG CTGGTGATAT CATTAAGGCT TTGGAATTGT CTGGGAATCC AATTCCTCCT
GATCTGGAGA AGCTCTGGGC TGACTTCAAA GACCAACAGA AGGCTGAGGG AAAGTTGATT
AAAAAAAGCA GTGGATTCTC AGGCAAAGGT TTTAAATTTG ATGAAACAGA ACAGGCTTTG
GCTAATGAAA GAAAGAAGCT ACAAAAAGCA GCTCTTGGCT TGCAAGATTC AGATGATGAA
GATACAGCTG TTGATATTGA TGAACAAATT GAAAGCATGT TCAATTCAAA GAAAAGAGTA
AAAGACATGG CAGCACCAGG AACATCAAAT GCTCCTACAC CATCAGCTGG GAATGCAGAA
AAATTGGAAA TTGCTAAAAG ATTGGCTTTG AGAATCAATG CCCAGAAGAA TCTTGGAGCA
GAGGCACAAG TCATGGTTCC CTTCCACTTT AAGGATGTGA TGCAGCAGGC TACAAATGCT
ATCCTGAGAG GAGGCACAAT CCAAGCTCCT ACTGTGTCTG CCAAGACCAT TGCAGAGCAA
CTGGCTGAAA AGATCAATGC CAAGCTCAAT TATGTACCCA TAGAGAAGCA AGAGGAAGAG
AAACAGGATG GAGGACAGAA TGAATCCTTC AAGAGATATG AAGAGGAATT AGAGATCAAT
GACTTCCCAC AGACTGCCAG ATGGAAAGTT ACCTCCAAAG AAGCACTGCA GAGAATCAGT
GAATATTCTG AAGCTGCCAT TACAATCAGA GGAACTTACT TCCCTCCAGG CAAAGAACCC
AAAGAAGGAG AACGAAAGAT TTATTTGGCT ATAGAAAGTG CCAATGAACT TGCTGTACAG
AAAGCAAAGG CAGAAATCAC ACGACTTATA AAAGAGGAGC TCATCAGATT GCAAAATTCT
TACCAACCAA CCAACAAAGG AAGATACAAA GTTCTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430798.1 CDS 1..3279 Translation 
Target ORF information:
RefSeq Version XM_012575344.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata DEAD (Asp-Glu-Ala-Asp) box polypeptide 46 (DDX46), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012575344.1
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
3241ATGAGCAGGG GCGGCATAGC ACCCTCCACC CACCGGGGGG GCGCCAGCGC GGGCGCGGCG
CGAAGGGGCG GCGCTCCCTC CCGGGCGCTC TCCGTGCGGG CGGGGAAATG GCCGCCGCCG
CCGCCGTGTA GCGGGAGCGC CGCCGCCATG GGCCGCGAGT CCAGGCATTA CCGGAAGCGC
TCTGCGTCCC GGGGGCGCTC CGGGAGCCGT TCCAGGAGCC GTTCCCCGTC GGACAAGAGG
AAGCGCGAGG ACAGGCGCTC CCGGAGCCGG GACCGGGACC GCAGGCGGGA GAGGTCGCGC
AGCAGGGACA AGAGAAGGTC TCGCTCGCGG GACAGAAAGC GTCAAAGACG TTCAAGGAGC
AGAGAAAGGG AACGGAGCCG AGAGAGAAGA CGATCCCGGA GCCGAGACAG GAGGCGCTCA
AGGAGCAGGA GTAGAGGGAG ACGGTCGCGA TCCTCCAGTC CAAGCAAGAA CAGGAAAACA
GAAAACAGAT CAAGATCTAA AGAAAAGACA GAAGGTGTGG AAATCTCCAA AGAAAAGAAA
AAAGACAAAG ATGACAAAGA GGAAGAGAAA GATAAAGATG CTACCACAAA TGCTGTGGCC
ACTGAGAATT TTGATCAGAA CAAACTAGAA GAAGAAATGA GAAAACGAAA AGAAAGAGTG
GAGAAATGGA GGGAAGAACA ACGCAAGAAG GCAATGGAAA ACATAGGAGA GCTAAAAAAA
GAAATTGAAG AGATGAAACA GGGGAAAAAA TGGAGTTTAG AAGATGATGA TGATGATGAA
GAGGAAACTG CAGAAGGAGA AAAAGAAGGC AATGAGGTTG AAGATGAGGA GTTAGATCCT
TTAGATGCTT ATATGGAAGA AGTAAAAGAA GAGGTCAAGA AGTTCAATAT GAGAAGTGTG
AAAGGTGGAG GTGGGAGTGA AAAGAAAACT GGACCAACTG TTACCAAGGT GGTTACTGTG
GTGACAACCA AAAAGGCAGC TGCTGAGTCA GAAAAGAAGA AAGGGGAACT CATGGAAAAT
GACCAAGATG CAATGGAGTA TTCCTCAGAA GAGGAGGAAG TTGACCTTCA GACTGCCCTG
ACTGGCTATC AGACCAAGCA GAGAAAGCTG CTAGAACCAG TGGATCATGG AAAGATAGAA
TATGAACCTT TCAGGAAAAA CTTCTATGTT GAAGTACCAG AACTAGCTAA AATGACTCAA
GAAGAGGTCA ATGTGTACAG GCTGGAGCTG GAAGGAATTA CAGTCAAGGG AAAAGGCTGT
CCCAAACCAA TAAAAACCTG GGTACAATGT GGTATTTCCA TGAAGATTCT CACTGCCCTC
AAAAAACATG GCTATGAAAA GCCCACGCCG ATTCAGACCC AGGCTATCCC AGCAATTATG
AACGGACGGG ATTTGATTGG CATTGCTAAA ACAGGAAGTG GAAAAACTAT TGCATTTCTG
TTGCCCATGT TCAGACACAT TATGGATCAG AGAGCATTAG AAGAAGGAGA AGGTCCAATA
GCTGTCATTA TGACACCTAC ACGTGAGTTG GCTTTGCAGA TTACCAAGGA GTGCAAGAAA
TTCTCCAAGA CACTTGGGCT TCGAGTTGTC TGTGTTTATG GAGGAACGGG AATCAGTGAA
CAGATAGCTG AACTCAAAAG AGGTGCTGAA ATTATTGTTT GCACACCTGG ACGTATGATT
GACATGTTAG CAGCTAACAA TGGACGGGTG ACAAACCTGC GTAGAGTCAC GTACGTTGTA
CTTGATGAAG CTGACAGAAT GTTTGACATG GGGTTTGAAC CTCAGGTCAT GCGCATTGTA
GACAACGTCA GGCCTGACCG TCAGACTGTC ATGTTCTCTG CTACTTTCCC CAGAGCTATG
GAGGCCCTGG CTCGCAGGAT CCTCAGCAAA CCTATAGAGG TGCAGGTTGG AGGCAGAAGT
GTTGTCTGTT CTGATGTGGA GCAACACGTG ATTGTCATAG AAGAGGAGAA CAAATTTCTG
AAGTTACTGG AGCTACTGGG ACATTATCAG GAGAAAGGAT CTGTTATCAT ATTTGTAGAT
AAGCAAGAAC ACGCTGATGG GTTATTGAAA GATTTAATGA GGGCCTCTTA TCCTTGCTTG
TCTCTCCATG GAGGTATTGA TCAGTATGAC AGGGACAGCA TCATTAATGA CTTCAAGAAT
GGAACCTGCA AACTACTGGT GGCCACATCT GTAGCAGCCA GGGGCTTGGA TGTGAAGCAG
CTGATGCTGG TGGTCAATTA CAGCTGTCCC AACCACTATG AGGACTACGT GCACCGAGCC
GGCCGCACTG GGCGAGCTGG CAACAAAGGA TATGCATATA CATTCATTAC TGAGGATCAG
GCACGTTATG CTGGTGATAT CATTAAGGCT TTGGAATTGT CTGGGAATCC AATTCCTCCT
GATCTGGAGA AGCTCTGGGC TGACTTCAAA GACCAACAGA AGGCTGAGGG AAAGTTGATT
AAAAAAAGCA GTGGATTCTC AGGCAAAGGT TTTAAATTTG ATGAAACAGA ACAGGCTTTG
GCTAATGAAA GAAAGAAGCT ACAAAAAGCA GCTCTTGGCT TGCAAGATTC AGATGATGAA
GATACAGCTG TTGATATTGA TGAACAAATT GAAAGCATGT TCAATTCAAA GAAAAGAGTA
AAAGACATGG CAGCACCAGG AACATCAAAT GCTCCTACAC CATCAGCTGG GAATGCAGAA
AAATTGGAAA TTGCTAAAAG ATTGGCTTTG AGAATCAATG CCCAGAAGAA TCTTGGAGCA
GAGGCACAAG TCATGGTTCC CTTCCACTTT AAGGATGTGA TGCAGCAGGC TACAAATGCT
ATCCTGAGAG GAGGCACAAT CCAAGCTCCT ACTGTGTCTG CCAAGACCAT TGCAGAGCAA
CTGGCTGAAA AGATCAATGC CAAGCTCAAT TATGTACCCA TAGAGAAGCA AGAGGAAGAG
AAACAGGATG GAGGACAGAA TGAATCCTTC AAGAGATATG AAGAGGAATT AGAGATCAAT
GACTTCCCAC AGACTGCCAG ATGGAAAGTT ACCTCCAAAG AAGCACTGCA GAGAATCAGT
GAATATTCTG AAGCTGCCAT TACAATCAGA GGAACTTACT TCCCTCCAGG CAAAGAACCC
AAAGAAGGAG AACGAAAGAT TTATTTGGCT ATAGAAAGTG CCAATGAACT TGCTGTACAG
AAAGCAAAGG CAGAAATCAC ACGACTTATA AAAGAGGAGC TCATCAGATT GCAAAATTCT
TACCAACCAA CCAACAAAGG AAGATACAAA GTTCTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd28550 Clone ID Related Accession (Same CDS sequence) XM_012575344.2 Accession Version XM_012575344.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product probable ATP-dependent RNA helicase DDX46 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044225.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012575344.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGGGCCGCG AGTCCAGGCA TTACCGGAAG CGCTCTGCGT CCCGGGGGCG CTCCGGGAGC
CGTTCCAGGA GCCGTTCCCC GTCGGACAAG AGGAAGCGCG AGGACAGGCG CTCCCGGAGC
CGGGACCGGG ACCGCAGGCG AGAGAGGTCG CGCAGCAGGG ACAAGAGAAG GTCTCGCTCG
CGGGACAGAA AGCGTCAAAG ACGTTCAAGG AGCAGAGAAA GGGAACGGAG CCGAGAGAGA
AGACGATCCC GGAGCCGAGA CAGGAGGCGC TCCAGGAGCA GGAGTAGAGG GAGACGGTCG
CGATCCTCCA GTCCAAGCAA GAACAGGAAA ACAGAAAACA GATCAAGATC TAAAGAAAAG
ACAGAAGGTG TGGAAATCTC CAAAGAAAAG AAAAAAGACA AAGATGACAA AGAGGAAGAG
AAAGATAAAG ATGCTACCAC AAATGCTGTG GCCACTGAGA ATTTTGATCA GAACAAACTA
GAAGAAGAAA TGAGAAAACG AAAAGAAAGA GTGGAGAAAT GGAGGGAAGA ACAACGCAAG
AAGGCAATGG AAAACATAGG AGAGCTAAAA AAAGAAATTG AAGAGATGAA ACAGGGGAAA
AAATGGAGTT TAGAAGATGA TGATGATGAT GAAGAGGAAA CTGCAGAAGG AGAAAAAGAA
GGCAATGAGG TTGAAGATGA GGAGTTAGAT CCTTTAGATG CTTATATGGA AGAAGTAAAA
GAAGAGGTCA AGAAGTTCAA TATGAGAAGT GTGAAAGGTG GAGGTGGGAG TGAAAAGAAA
ACTGGACCAA CTGTTACCAA GGTGGTTACT GTGGTGACAA CCAAAAAGGC AGCTGCTGAG
TCAGAAAAGA AGAAAGGGGA ACTCATGGAA AATGACCAAG ATGCAATGGA GTATTCCTCA
GAAGAGGAGG AAGTTGACCT TCAGACTGCC CTGACTGGCT ATCAGACCAA GCAGAGAAAG
CTGCTAGAAC CAGTGGATCA TGGAAAGATA GAATATGAAC CTTTCAGGAA AAACTTCTAT
GTTGAAGTAC CAGAACTAGC TAAAATGACT CAAGAAGAGG TCAATGTGTA CAGGCTGGAG
CTGGAAGGAA TTACAGTCAA GGGAAAAGGC TGTCCCAAAC CAATAAAAAC CTGGGTACAA
TGTGGTATTT CCATGAAGAT TCTCACTGCC CTCAAAAAAC ATGGCTATGA AAAGCCCACG
CCGATTCAGA CCCAGGCTAT CCCAGCAATT ATGAACGGAC GGGATTTGAT TGGCATTGCT
AAAACAGGAA GTGGAAAAAC TATTGCATTT CTGTTGCCCA TGTTCAGACA CATTATGGAT
CAGAGAGCAT TAGAAGAAGG AGAAGGTCCA ATAGCTGTCA TTATGACACC TACACGTGAG
TTGGCTTTGC AGATTACCAA GGAGTGCAAG AAATTCTCCA AGACACTTGG GCTTCGAGTT
GTCTGTGTTT ATGGAGGAAC GGGAATCAGT GAACAGATAG CTGAACTCAA AAGAGGTGCT
GAAATTATTG TTTGCACACC TGGACGTATG ATTGACATGT TAGCAGCTAA CAATGGACGG
GTGACAAACC TGCGTAGAGT CACGTACGTT GTACTTGATG AAGCTGACAG AATGTTTGAC
ATGGGGTTTG AACCTCAGGT CATGCGCATT GTAGACAACG TCAGGCCTGA CCGTCAGACT
GTCATGTTCT CTGCTACTTT CCCCAGAGCT ATGGAGGCCC TGGCTCGCAG GATCCTCAGC
AAACCTATAG AGGTGCAGGT TGGAGGCAGA AGTGTTGTCT GTTCTGATGT GGAGCAACAC
GTGATTGTCA TAGAAGAGGA GAACAAATTT CTGAAGTTAC TGGAGCTACT GGGACATTAT
CAGGAGAAAG GATCTGTTAT CATATTTGTA GATAAGCAAG AACACGCTGA TGGGTTATTG
AAAGATTTAA TGAGGGCCTC TTATCCTTGC TTGTCTCTCC ATGGAGGTAT TGATCAGTAT
GACAGGGACA GCATCATTAA TGACTTCAAG AATGGAACCT GCAAACTACT GGTGGCCACA
TCTGTAGCAG CCAGGGGCTT GGATGTGAAG CAGCTGATGC TGGTGGTCAA TTACAGCTGT
CCCAACCACT ATGAGGACTA CGTGCACCGA GCCGGCCGCA CTGGGCGAGC TGGCAACAAA
GGATATGCAT ATACATTCAT TACTGAGGAT CAGGCACGTT ATGCTGGTGA TATCATTAAG
GCTTTGGAAT TGTCTGGGAA TCCAATTCCT CCTGATCTGG AGAAGCTCTG GGCTGACTTC
AAAGACCAAC AGAAGGCTGA GGGAAAGTTG ATTAAAAAAA GCAGTGGATT CTCAGGCAAA
GGTTTTAAAT TTGATGAAAC AGAACAGGCT TTGGCTAATG AAAGAAAGAA GCTACAAAAA
GCAGCTCTTG GCTTGCAAGA TTCAGATGAT GAAGATACAG CTGTTGATAT TGATGAACAA
ATTGAAAGCA TGTTCAATTC AAAGAAAAGA GTAAAAGACA TGGCAGCACC AGGAACATCA
AATGCTCCTA CACCATCAGC TGGGAATGCA GAAAAATTGG AAATTGCTAA AAGATTGGCT
TTGAGAATCA ATGCCCAGAA GAATCTTGGA GCAGAGGCAC AAGTCATGGT TCCCTTCCAC
TTTAAGGATG TGATGCAGCA GGCTACAAAT GCTATCCTGA GAGGAGGCAC AATCCAAGCT
CCTACTGTGT CTGCCAAGAC CATTGCAGAG CAACTGGCTG AAAAGATCAA TGCCAAGCTC
AATTATGTAC CCATAGAGAA GCAAGAGGAA GAGAAACAGG ATGGAGGACA GAATGAATCC
TTCAAGAGAT ATGAAGAGGA ATTAGAGATC AATGACTTCC CACAGACTGC CAGATGGAAA
GTTACCTCCA AAGAAGCACT GCAGAGAATC AGTGAATATT CTGAAGCTGC CATTACAATC
AGAGGAACTT ACTTCCCTCC AGGCAAAGAA CCCAAAGAAG GAGAACGAAA GATTTATTTG
GCTATAGAAA GTGCCAATGA ACTTGCTGTA CAGAAAGCAA AGGCAGAAAT CACACGACTT
ATAAAAGAGG AGCTCATCAG ATTGCAAAAT TCTTACCAAC CAACCAACAA AGGAAGATAC
AAAGTTCTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012430798.2 CDS 82..3213 Translation
Target ORF information:
RefSeq Version XM_012575344.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata DEAD-box helicase 46 (DDX46), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012575344.2
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
3121ATGGGCCGCG AGTCCAGGCA TTACCGGAAG CGCTCTGCGT CCCGGGGGCG CTCCGGGAGC
CGTTCCAGGA GCCGTTCCCC GTCGGACAAG AGGAAGCGCG AGGACAGGCG CTCCCGGAGC
CGGGACCGGG ACCGCAGGCG AGAGAGGTCG CGCAGCAGGG ACAAGAGAAG GTCTCGCTCG
CGGGACAGAA AGCGTCAAAG ACGTTCAAGG AGCAGAGAAA GGGAACGGAG CCGAGAGAGA
AGACGATCCC GGAGCCGAGA CAGGAGGCGC TCCAGGAGCA GGAGTAGAGG GAGACGGTCG
CGATCCTCCA GTCCAAGCAA GAACAGGAAA ACAGAAAACA GATCAAGATC TAAAGAAAAG
ACAGAAGGTG TGGAAATCTC CAAAGAAAAG AAAAAAGACA AAGATGACAA AGAGGAAGAG
AAAGATAAAG ATGCTACCAC AAATGCTGTG GCCACTGAGA ATTTTGATCA GAACAAACTA
GAAGAAGAAA TGAGAAAACG AAAAGAAAGA GTGGAGAAAT GGAGGGAAGA ACAACGCAAG
AAGGCAATGG AAAACATAGG AGAGCTAAAA AAAGAAATTG AAGAGATGAA ACAGGGGAAA
AAATGGAGTT TAGAAGATGA TGATGATGAT GAAGAGGAAA CTGCAGAAGG AGAAAAAGAA
GGCAATGAGG TTGAAGATGA GGAGTTAGAT CCTTTAGATG CTTATATGGA AGAAGTAAAA
GAAGAGGTCA AGAAGTTCAA TATGAGAAGT GTGAAAGGTG GAGGTGGGAG TGAAAAGAAA
ACTGGACCAA CTGTTACCAA GGTGGTTACT GTGGTGACAA CCAAAAAGGC AGCTGCTGAG
TCAGAAAAGA AGAAAGGGGA ACTCATGGAA AATGACCAAG ATGCAATGGA GTATTCCTCA
GAAGAGGAGG AAGTTGACCT TCAGACTGCC CTGACTGGCT ATCAGACCAA GCAGAGAAAG
CTGCTAGAAC CAGTGGATCA TGGAAAGATA GAATATGAAC CTTTCAGGAA AAACTTCTAT
GTTGAAGTAC CAGAACTAGC TAAAATGACT CAAGAAGAGG TCAATGTGTA CAGGCTGGAG
CTGGAAGGAA TTACAGTCAA GGGAAAAGGC TGTCCCAAAC CAATAAAAAC CTGGGTACAA
TGTGGTATTT CCATGAAGAT TCTCACTGCC CTCAAAAAAC ATGGCTATGA AAAGCCCACG
CCGATTCAGA CCCAGGCTAT CCCAGCAATT ATGAACGGAC GGGATTTGAT TGGCATTGCT
AAAACAGGAA GTGGAAAAAC TATTGCATTT CTGTTGCCCA TGTTCAGACA CATTATGGAT
CAGAGAGCAT TAGAAGAAGG AGAAGGTCCA ATAGCTGTCA TTATGACACC TACACGTGAG
TTGGCTTTGC AGATTACCAA GGAGTGCAAG AAATTCTCCA AGACACTTGG GCTTCGAGTT
GTCTGTGTTT ATGGAGGAAC GGGAATCAGT GAACAGATAG CTGAACTCAA AAGAGGTGCT
GAAATTATTG TTTGCACACC TGGACGTATG ATTGACATGT TAGCAGCTAA CAATGGACGG
GTGACAAACC TGCGTAGAGT CACGTACGTT GTACTTGATG AAGCTGACAG AATGTTTGAC
ATGGGGTTTG AACCTCAGGT CATGCGCATT GTAGACAACG TCAGGCCTGA CCGTCAGACT
GTCATGTTCT CTGCTACTTT CCCCAGAGCT ATGGAGGCCC TGGCTCGCAG GATCCTCAGC
AAACCTATAG AGGTGCAGGT TGGAGGCAGA AGTGTTGTCT GTTCTGATGT GGAGCAACAC
GTGATTGTCA TAGAAGAGGA GAACAAATTT CTGAAGTTAC TGGAGCTACT GGGACATTAT
CAGGAGAAAG GATCTGTTAT CATATTTGTA GATAAGCAAG AACACGCTGA TGGGTTATTG
AAAGATTTAA TGAGGGCCTC TTATCCTTGC TTGTCTCTCC ATGGAGGTAT TGATCAGTAT
GACAGGGACA GCATCATTAA TGACTTCAAG AATGGAACCT GCAAACTACT GGTGGCCACA
TCTGTAGCAG CCAGGGGCTT GGATGTGAAG CAGCTGATGC TGGTGGTCAA TTACAGCTGT
CCCAACCACT ATGAGGACTA CGTGCACCGA GCCGGCCGCA CTGGGCGAGC TGGCAACAAA
GGATATGCAT ATACATTCAT TACTGAGGAT CAGGCACGTT ATGCTGGTGA TATCATTAAG
GCTTTGGAAT TGTCTGGGAA TCCAATTCCT CCTGATCTGG AGAAGCTCTG GGCTGACTTC
AAAGACCAAC AGAAGGCTGA GGGAAAGTTG ATTAAAAAAA GCAGTGGATT CTCAGGCAAA
GGTTTTAAAT TTGATGAAAC AGAACAGGCT TTGGCTAATG AAAGAAAGAA GCTACAAAAA
GCAGCTCTTG GCTTGCAAGA TTCAGATGAT GAAGATACAG CTGTTGATAT TGATGAACAA
ATTGAAAGCA TGTTCAATTC AAAGAAAAGA GTAAAAGACA TGGCAGCACC AGGAACATCA
AATGCTCCTA CACCATCAGC TGGGAATGCA GAAAAATTGG AAATTGCTAA AAGATTGGCT
TTGAGAATCA ATGCCCAGAA GAATCTTGGA GCAGAGGCAC AAGTCATGGT TCCCTTCCAC
TTTAAGGATG TGATGCAGCA GGCTACAAAT GCTATCCTGA GAGGAGGCAC AATCCAAGCT
CCTACTGTGT CTGCCAAGAC CATTGCAGAG CAACTGGCTG AAAAGATCAA TGCCAAGCTC
AATTATGTAC CCATAGAGAA GCAAGAGGAA GAGAAACAGG ATGGAGGACA GAATGAATCC
TTCAAGAGAT ATGAAGAGGA ATTAGAGATC AATGACTTCC CACAGACTGC CAGATGGAAA
GTTACCTCCA AAGAAGCACT GCAGAGAATC AGTGAATATT CTGAAGCTGC CATTACAATC
AGAGGAACTT ACTTCCCTCC AGGCAAAGAA CCCAAAGAAG GAGAACGAAA GATTTATTTG
GCTATAGAAA GTGCCAATGA ACTTGCTGTA CAGAAAGCAA AGGCAGAAAT CACACGACTT
ATAAAAGAGG AGCTCATCAG ATTGCAAAAT TCTTACCAAC CAACCAACAA AGGAAGATAC
AAAGTTCTAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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