| Gene Symbol | WDR60 |
| Entrez Gene ID | 100217534 |
| Full Name | WD repeat domain 60 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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WDR60 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following WDR60 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR60 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 OTd06834 Clone ID Related Accession (Same CDS sequence) XM_002189052.2 Accession Version XM_002189052.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3099bp)
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 WD repeat-containing protein 60 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198268.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2013 this sequence version replaced XM_002189052.1. ##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 :: 3% 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
3061ATGCAGTCTG AGCTTCAGGC CTCTTCCAGG TCTAGGAAGA AAAGAACCAA AGAAGATACT
TGGAAAGCAG AAGAACTTAG GAAACATCTA AAGGCATTAC TACCAGATAG TCAAAATGAA
GACCGAAAAC ACAGAGAAAA GAAACTGCAG AGAGAGAGGA CTGTTCATGA CACAGACCCT
AACAGACATG AACGCAGAGA CAGAGAGAAG AGCAAGGAAA GAACAAGAGA GAGAGAGAGG
TTTAAATCCA GTGAAAGGGA CAGGGATAAA AGGAGAGAGA AAGAAAGGGA AAAAGAACAC
CAGAGAGGAG ACCGAGAGGG ACACAAAGTT CAAGAGTCAT GGGAGGAGAG ACACAGCATA
CTAAAACATA AAGACAGGGA GACTGATAGA GAACGAGACA AAAAGCACAA GAGATATGAG
ACAAAGCAAA TAGATCCACA AAATTACCTG AAATCATTGG AAGGAGGAGA TACAGAACAT
CACAGAAGAA GAGAAATCAG GCATCGTTTG GAGGAGGAGA AAACAAGAAC TGAAGAGCGA
GAAAGAAGAC ATAAAGCACT GAAGGATAAT GATTTAAGAA AGAAAATTGA AAAATTTTTA
GCATACAAAG TTGAAGAAGG TGAACATGTG CACAAGTTAG AGAAACATCA GGAGCTGGAT
AAAGAGAGAG AAAGAAAACA CAGGCAAAAA AAAGAACATT CTATTGGGGC AGAAAAAGAG
AGACTTTCTA AAGAGAAAAG TCATAAACAT TATGGAAAGG AAGAGGAAGA AAAACATAAA
TCAAAGAGAT CTAAAGAAAA ATCTTCCCAT GGAGACCGAG AAGACCCAGC AGCAGAAGCT
GATGAGAGAG TAAAAAGTAG AGAAAAGGAA AGAAAGAAAT ATGATATAAG GTACAGTGAA
TACAAAAAGG AGGAGAGGAT TCAAGAAGAA ATGAGCCATC AGCTTGTAAG GACTGTAAAA
GATAAAGGAA AACTTGTTGA AACAGAGAAC ATGGACACAA GACAAGAGGA AGTGAAAGAT
ACACACATCT CTAATCCAGA CACAGGACTT GAGGATTTTT CACTGAATTA TGAAGATGAC
TTTGAAGTCT ATGAAGATGA TTTTGAAGAT GATGAAGACA AAAGTGGTGA AGCAGAAGAT
GCAGAAGAAA ACCTAAGAGA TCCTCAATTT TCCAGAACAT CAGAAATTGA AGAAATTCAA
AGAGCAATTA CTGCAGAGAA TGAGAGACTT TTTACTCCAT TGCCAAAGAA ACTAGAAAAT
GAAAAAAAGG GAGCAGTCAC AGAAAGGCAA GATTCTTCTG TCAGAAGCTC TTTTCGTGGA
ATATTCATGG ATTTCCAAAT GGCAAACCAA AGACAAAGCA GCCGAAGTAT GGCCAGTAAG
CAGAAAAAAC GGAGTTCAGA ACTTCTCCCA CTAATTGACC TGGATTTCTC AGTTAGTTTT
TCATTACTGG ATTTGCCCCC TGTCAATGAG TACGACATGT ACATCAGGAA TTTTGGTAAA
ATGAACACTA AGCAGGCATA TGTTCAGTGT AATGAGGACA ATCTTGATAG AGACATTCAG
ACTGAGGAAG TTGAGACACT GGAGAAGTGG ACACAGCATC CAGGAGAAAG TGCTCTTGTA
TCTGGAGGTC CCATAAACAG CCAGGATACA TCAGTGCATG GAGCTCCAAC ACCTAAAATT
GATTCACAAA GATTAGCAAA TTTTCTCCGG TCTGCATGCC AGGTGATTGC TGTTTTGCTA
GAGGAAGATC AAGTTGCAAC ACAACCCAGG AAACTAAGAT CTCGACAAAC CAGTCTGTCT
ATTAGTGATA GCTGTTTCCA GTTAAATACT AACCAGCCAT TCCTCCATGG CCGAAAAATA
CCCTACTTAT ATGTCTCCCA AGTTCAGAAG CAGACACTAC TTTCTGCTCA TGGATTGCCT
GAAAAGGCAG ATGTGGATTT GCTGAGCAGA AAGAGCCTTA TATGTGTTTG GAACATCTGG
CAGCCCTCCA GTCCTCAGAA AGTTTTAATA TGTGATTCAG AGGTGATATG TTGCTGCTTT
AGTCCCAGTA AAGCAACATT AGTTTTTGCT GGAACAGTAG ATGGTTCATT GTTGGTGTGG
GATCTTCGAG AAGACTCAAG AATGCACCCT TGTATGATGA TCACTGGAAC TGAGTGGACA
TTTAGAGTTC CCACATTTTC CACAGATGGC ATTCTAAATT CAGTAAACCA CACCTCTCCT
ATACTGGCAG TGGAACCTAT CTCAACTTCT CTCAACAGTG ACCACAGTTA CAGGCTCTCA
AGCCTGTCTT ATCAGGAGGA AATGTCAGGC CCTCCATTTC AGATAGCTTC AATGGATGAA
AATGGAATCC TCAATATGTG GGTAGTTGTT GAATTGCAAA AAGCAGATCT AGCTGGTTCA
CAAACTGACT TAGGCTTAGT TCCTGGAGGG AAAGTGAAGT TAGTACATAG CTCTACTATG
GAATTGAGTA ACAGCCTTTT CCCAAAGGAA ATTAGCCAGA GAATGCCACA GACACTGACT
ATTAAATTTC TGTCTTCTAA TCCAAATCAC TTCATTGTTG GAACAAACAT TGGTCTGGTA
GGCCATGGTA CAAGGCATGA TTTAAAAGTT ATTCCAAAGC TATTCAGGCC CCAGGAGAGC
AGACTGAGAT CCATAAGCAT CACTGCAATT GATTTCTTCC CTTTTGGAAA GCCACTGTTT
TTGGTTGGCT GTTCAGATGG AAGTATTAGA TTACACCAGA TGACATCAGA GTATCCCCTC
ATGCAGTGGA ATGACAGCAC AAAGGGACAG CCAATTATTG CCCTGCAGTG GGCTTTGACA
AGACCTGCTG TGTTCTTCGC CCTGGATGCA TCATCCAATA TTTACATTTG GGATCTTCTG
GAAAATGATT TGTTGCCTGT GGCCAAGCAG ACTATCCCAT CAGAGAGGGT TGTAACTATG
ACTTTGCTGG GAGAGCCAGA AAAAACAAAT GGATTGTTAG GAATCGTGCT GGCCAAGGAA
TCTGGGCAGA TAGAAATTCA GTATGTAAAG AAGAAGTGGG CATTACCTCA GCCTGAGGAA
TCTGACAAAC TGTATTCTAT TTTATTGCAG TCTTTTTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002189088.2 CDS 1..3099 Translation 
Target ORF information:
RefSeq Version XM_002189052.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WD repeat domain 60 (WDR60), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002189052.2
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
3061ATGCAGTCTG AGCTTCAGGC CTCTTCCAGG TCTAGGAAGA AAAGAACCAA AGAAGATACT
TGGAAAGCAG AAGAACTTAG GAAACATCTA AAGGCATTAC TACCAGATAG TCAAAATGAA
GACCGAAAAC ACAGAGAAAA GAAACTGCAG AGAGAGAGGA CTGTTCATGA CACAGACCCT
AACAGACATG AACGCAGAGA CAGAGAGAAG AGCAAGGAAA GAACAAGAGA GAGAGAGAGG
TTTAAATCCA GTGAAAGGGA CAGGGATAAA AGGAGAGAGA AAGAAAGGGA AAAAGAACAC
CAGAGAGGAG ACCGAGAGGG ACACAAAGTT CAAGAGTCAT GGGAGGAGAG ACACAGCATA
CTAAAACATA AAGACAGGGA GACTGATAGA GAACGAGACA AAAAGCACAA GAGATATGAG
ACAAAGCAAA TAGATCCACA AAATTACCTG AAATCATTGG AAGGAGGAGA TACAGAACAT
CACAGAAGAA GAGAAATCAG GCATCGTTTG GAGGAGGAGA AAACAAGAAC TGAAGAGCGA
GAAAGAAGAC ATAAAGCACT GAAGGATAAT GATTTAAGAA AGAAAATTGA AAAATTTTTA
GCATACAAAG TTGAAGAAGG TGAACATGTG CACAAGTTAG AGAAACATCA GGAGCTGGAT
AAAGAGAGAG AAAGAAAACA CAGGCAAAAA AAAGAACATT CTATTGGGGC AGAAAAAGAG
AGACTTTCTA AAGAGAAAAG TCATAAACAT TATGGAAAGG AAGAGGAAGA AAAACATAAA
TCAAAGAGAT CTAAAGAAAA ATCTTCCCAT GGAGACCGAG AAGACCCAGC AGCAGAAGCT
GATGAGAGAG TAAAAAGTAG AGAAAAGGAA AGAAAGAAAT ATGATATAAG GTACAGTGAA
TACAAAAAGG AGGAGAGGAT TCAAGAAGAA ATGAGCCATC AGCTTGTAAG GACTGTAAAA
GATAAAGGAA AACTTGTTGA AACAGAGAAC ATGGACACAA GACAAGAGGA AGTGAAAGAT
ACACACATCT CTAATCCAGA CACAGGACTT GAGGATTTTT CACTGAATTA TGAAGATGAC
TTTGAAGTCT ATGAAGATGA TTTTGAAGAT GATGAAGACA AAAGTGGTGA AGCAGAAGAT
GCAGAAGAAA ACCTAAGAGA TCCTCAATTT TCCAGAACAT CAGAAATTGA AGAAATTCAA
AGAGCAATTA CTGCAGAGAA TGAGAGACTT TTTACTCCAT TGCCAAAGAA ACTAGAAAAT
GAAAAAAAGG GAGCAGTCAC AGAAAGGCAA GATTCTTCTG TCAGAAGCTC TTTTCGTGGA
ATATTCATGG ATTTCCAAAT GGCAAACCAA AGACAAAGCA GCCGAAGTAT GGCCAGTAAG
CAGAAAAAAC GGAGTTCAGA ACTTCTCCCA CTAATTGACC TGGATTTCTC AGTTAGTTTT
TCATTACTGG ATTTGCCCCC TGTCAATGAG TACGACATGT ACATCAGGAA TTTTGGTAAA
ATGAACACTA AGCAGGCATA TGTTCAGTGT AATGAGGACA ATCTTGATAG AGACATTCAG
ACTGAGGAAG TTGAGACACT GGAGAAGTGG ACACAGCATC CAGGAGAAAG TGCTCTTGTA
TCTGGAGGTC CCATAAACAG CCAGGATACA TCAGTGCATG GAGCTCCAAC ACCTAAAATT
GATTCACAAA GATTAGCAAA TTTTCTCCGG TCTGCATGCC AGGTGATTGC TGTTTTGCTA
GAGGAAGATC AAGTTGCAAC ACAACCCAGG AAACTAAGAT CTCGACAAAC CAGTCTGTCT
ATTAGTGATA GCTGTTTCCA GTTAAATACT AACCAGCCAT TCCTCCATGG CCGAAAAATA
CCCTACTTAT ATGTCTCCCA AGTTCAGAAG CAGACACTAC TTTCTGCTCA TGGATTGCCT
GAAAAGGCAG ATGTGGATTT GCTGAGCAGA AAGAGCCTTA TATGTGTTTG GAACATCTGG
CAGCCCTCCA GTCCTCAGAA AGTTTTAATA TGTGATTCAG AGGTGATATG TTGCTGCTTT
AGTCCCAGTA AAGCAACATT AGTTTTTGCT GGAACAGTAG ATGGTTCATT GTTGGTGTGG
GATCTTCGAG AAGACTCAAG AATGCACCCT TGTATGATGA TCACTGGAAC TGAGTGGACA
TTTAGAGTTC CCACATTTTC CACAGATGGC ATTCTAAATT CAGTAAACCA CACCTCTCCT
ATACTGGCAG TGGAACCTAT CTCAACTTCT CTCAACAGTG ACCACAGTTA CAGGCTCTCA
AGCCTGTCTT ATCAGGAGGA AATGTCAGGC CCTCCATTTC AGATAGCTTC AATGGATGAA
AATGGAATCC TCAATATGTG GGTAGTTGTT GAATTGCAAA AAGCAGATCT AGCTGGTTCA
CAAACTGACT TAGGCTTAGT TCCTGGAGGG AAAGTGAAGT TAGTACATAG CTCTACTATG
GAATTGAGTA ACAGCCTTTT CCCAAAGGAA ATTAGCCAGA GAATGCCACA GACACTGACT
ATTAAATTTC TGTCTTCTAA TCCAAATCAC TTCATTGTTG GAACAAACAT TGGTCTGGTA
GGCCATGGTA CAAGGCATGA TTTAAAAGTT ATTCCAAAGC TATTCAGGCC CCAGGAGAGC
AGACTGAGAT CCATAAGCAT CACTGCAATT GATTTCTTCC CTTTTGGAAA GCCACTGTTT
TTGGTTGGCT GTTCAGATGG AAGTATTAGA TTACACCAGA TGACATCAGA GTATCCCCTC
ATGCAGTGGA ATGACAGCAC AAAGGGACAG CCAATTATTG CCCTGCAGTG GGCTTTGACA
AGACCTGCTG TGTTCTTCGC CCTGGATGCA TCATCCAATA TTTACATTTG GGATCTTCTG
GAAAATGATT TGTTGCCTGT GGCCAAGCAG ACTATCCCAT CAGAGAGGGT TGTAACTATG
ACTTTGCTGG GAGAGCCAGA AAAAACAAAT GGATTGTTAG GAATCGTGCT GGCCAAGGAA
TCTGGGCAGA TAGAAATTCA GTATGTAAAG AAGAAGTGGG CATTACCTCA GCCTGAGGAA
TCTGACAAAC TGTATTCTAT TTTATTGCAG TCTTTTTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34302 Clone ID Related Accession (Same CDS sequence) XM_030264287.1 Accession Version XM_030264287.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3075bp)
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 WD repeat-containing protein 60 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 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
3061ATGGAGGGGG ACAAGAAAAG AACCAAAGAA GATACTTGGA AAGCAGAAGA ACTTAGGAAA
CATCTAAAGG CATTACTACC AGATAGTCAA AATGAAGACC GAAAACACAG AGAAAAGAAA
CTGCAGAGAG AGAGGACTGT TCATGACACA GACCCTAACA GACATGAACG CAGAGACAGA
GAGAAGAGCA AGGAAAGAAC AAGAGAGAGA GAGAGGTTTA AATCCAGTGA AAGGGACAGG
GATAAAAGGA GAGAGAAAGA AAGGGAAAAA GAACACCAGA GAGGAGACCG AGAGGGACAC
AAAGTTCAAG AGTCATGGGA GGAGAGACAC AGCATACTAA AACATAAAGA CAGGGAGACT
GATAGAGAAC GAGACAAAAA GCACAAGAGA TATGAGACAA AGCAAATAGA TCCACAAAAT
TACCTGAAAT CATTGGAAGG AGGAGATACA GAACATCACA GAAGAAGAGA AATCAGGCAT
CGTTTGGAGG AGGAGAAAAC AAGAACTGAA GAGCGAGAAA GAAGACATAA AGCACTGAAG
GATAATGATT TAAGAAAGAA AATTGAAAAA TTTTTAGCAT ACAAAGTTGA AGAAGGTGAA
CATGTGCACA AGTTAGAGAA ACATCAGGAG CTGGATAAAG AGAGAGAAAG AAAACACAGG
CAAAAAAAAG AACATTCTAT TGGGGCAGAA AAAGAGAGAC TTTCTAAAGA GAAAAGTCAT
AAACATTATG GAAAGGAAGA GGAAGAAAAA CATAAATCAA AGAGATCTAA AGAAAAATCT
TCCCATGGAG ACCGAGAAGA CCCAGCAGCA GAAGCTGATG AGAGAGTAAA AAGTAGAGAA
AAGGAAAGAA AGAAATATGA TATAAGGTAC AGTGAATACA AAAAGGAGGA GAGGATTCAA
GAAGAAATGA GCCATCAGCT TGTAAGGACT GTAAAAGATA AAGGAAAACT TGTTGAAACA
GAGAACATGG ACACAAGACA AGAGGAAGTG AAAGATACAC ACATCTCTAA TCCAGACACA
GGACTTGAGG ATTTTTCACT GAATTATGAA GATGACTTTG AAGTCTATGA AGATGATTTT
GAAGATGATG AAGACAAAAG TGGTGAAGCA GAAGATGCAG AAGAAAACCT AAGAGATCCT
CAATTTTCCA GAACATCAGA AATTGAAGAA ATTCAAAGAG CAATTACTGC AGAGAATGAG
AGACTTTTTA CTCCATTGCC AAAGAAACTA GAAAATGAAA AAAAGGGAGC AGTCACAGAA
AGGCAAGATT CTTCTGTCAG AAGCTCTTTT CGTGGAATAT TCATGGATTT CCAAATGGCA
AACCAAAGAC AAAGCAGCCG AAGTATGGCC AGTAAGCAGA AAAAACGGAG TTCAGAACTT
CTCCCACTAA TTGACCTGGA TTTCTCAGTT AGTTTTTCAT TACTGGATTT GCCCCCTGTC
AATGAGTACG ACATGTACAT CAGGAATTTT GGTAAAATGA ACACTAAGCA GGCATATGTT
CAGTGTAATG AGGACAATCT TGATAGAGAC ATTCAGACTG AGGAAGTTGA GACACTGGAG
AAGTGGACAC AGCATCCAGG AGAAAGTGCT CTTGTATCTG GAGGTCCCAT AAACAGCCAG
GATACATCAG TGCATGGAGC TCCAACACCT AAAATTGATT CACAAAGATT AGCAAATTTT
CTCCGGTCTG CATGCCAGGT GATTGCTGTT TTGCTAGAGG AAGATCAAGT TGCAACACAA
CCCAGGAAAC TAAGATCTCG ACAAACCAGT CTGTCTATTA GTGATAGCTG TTTCCAGTTA
AATACTAACC AGCCATTCCT CCATGGCCGA AAAATACCCT ACTTATATGT CTCCCAAGTT
CAGAAGCAGA CACTACTTTC TGCTCATGGA TTGCCTGAAA AGGCAGATGT GGATTTGCTG
AGCAGAAAGA GCCTTATATG TGTTTGGAAC ATCTGGCAGC CCTCCAGTCC TCAGAAAGTT
TTAATATGTG ATTCAGAGGT GATATGTTGC TGCTTTAGTC CCAGTAAAGC AACATTAGTT
TTTGCTGGAA CAGTAGATGG TTCGTTGTTG GTGTGGGATC TTCGAGAAGA CTCAAGAATG
CACCCTTGTA TGATGATCAC TGGAACTGAG TGGACATTTA GAGTTCCCAC ATTTTCCACA
GATGGCATTC TAAATTCAGT AAACCACACC TCTCCTATAC TGGCAGTGGA ACCTATCTCA
ACTTCTCTCA ACAGTGACCA CAGTTACAGG CTCTCAAGCC TGTCTTATCA GGAGGAGATA
TCAGGCCCTC CATTTCAGAT AGCTTCAATG GATGAAAATG GAATCCTCAA TATGTGGGTA
GTTGTTGAAT TGCAAAAAGC AGATCTAGCT GGTTCACAAA CTGACTTAGG CTTAGTTCCT
GGAGGGAAAG TGAAGTTAGT ACATAGCTCT ACTATGGAAT TGAGTAACAG CCTTTTCCCA
AAGGAAATTA GCCAGAGAAT GCCACAGACA CTGACTATTA AATTTCTGTC TTCTAATCCA
AATCACTTCA TTGTTGGAAC AAACATTGGT CTGGTAGGCC ATGGTACAAG GCATGATTTA
AAAGTTGTTC CAAAGCTATT CAGGCCCCAG GAGAGCAGAC TGAGATCTAT AAGCATCACT
GCAATTGATT TCTTCCCTTT TGGAAAGCCA CTGTTTTTGG TTGGCTGTTC AGATGGAAGT
ATTAGATTAC ACCAGATGAC ATCAGAGTAT CCCCTCATGC AGTGGAATGA CAGCACAAAG
GGACAGCCAA TTATTGCCCT GCAGTGGGCT TTGACAAGAC CTGCTGTGTT CTTCGCCCTG
GATGCATCAT CCAATATTTA CATTTGGGAT CTTCTGGAAA ATGATTTGTT GCCTGTGGCC
AAGCAGACCA TCCCATCAGA GAGGGTTGTA ACTATGACTC TGCTGGGAGA GCCAGAAAAA
ACAAATGGAT TGTTAGGAAT GGTGCTGGCC AAGGAATCTG GGCAGATAGA AATTCAGTAT
GTAAAGAAGA AGTGGGCATT ACCTCAGCCT GAGGAATCTG ACAAACTGTA TTCTATTTTA
TTGCAGTCTT TTTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120147.1 CDS 75..3149 Translation
Target ORF information:
RefSeq Version XM_030264287.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WD repeat domain 60 (WDR60), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030264287.1
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
3061ATGGAGGGGG ACAAGAAAAG AACCAAAGAA GATACTTGGA AAGCAGAAGA ACTTAGGAAA
CATCTAAAGG CATTACTACC AGATAGTCAA AATGAAGACC GAAAACACAG AGAAAAGAAA
CTGCAGAGAG AGAGGACTGT TCATGACACA GACCCTAACA GACATGAACG CAGAGACAGA
GAGAAGAGCA AGGAAAGAAC AAGAGAGAGA GAGAGGTTTA AATCCAGTGA AAGGGACAGG
GATAAAAGGA GAGAGAAAGA AAGGGAAAAA GAACACCAGA GAGGAGACCG AGAGGGACAC
AAAGTTCAAG AGTCATGGGA GGAGAGACAC AGCATACTAA AACATAAAGA CAGGGAGACT
GATAGAGAAC GAGACAAAAA GCACAAGAGA TATGAGACAA AGCAAATAGA TCCACAAAAT
TACCTGAAAT CATTGGAAGG AGGAGATACA GAACATCACA GAAGAAGAGA AATCAGGCAT
CGTTTGGAGG AGGAGAAAAC AAGAACTGAA GAGCGAGAAA GAAGACATAA AGCACTGAAG
GATAATGATT TAAGAAAGAA AATTGAAAAA TTTTTAGCAT ACAAAGTTGA AGAAGGTGAA
CATGTGCACA AGTTAGAGAA ACATCAGGAG CTGGATAAAG AGAGAGAAAG AAAACACAGG
CAAAAAAAAG AACATTCTAT TGGGGCAGAA AAAGAGAGAC TTTCTAAAGA GAAAAGTCAT
AAACATTATG GAAAGGAAGA GGAAGAAAAA CATAAATCAA AGAGATCTAA AGAAAAATCT
TCCCATGGAG ACCGAGAAGA CCCAGCAGCA GAAGCTGATG AGAGAGTAAA AAGTAGAGAA
AAGGAAAGAA AGAAATATGA TATAAGGTAC AGTGAATACA AAAAGGAGGA GAGGATTCAA
GAAGAAATGA GCCATCAGCT TGTAAGGACT GTAAAAGATA AAGGAAAACT TGTTGAAACA
GAGAACATGG ACACAAGACA AGAGGAAGTG AAAGATACAC ACATCTCTAA TCCAGACACA
GGACTTGAGG ATTTTTCACT GAATTATGAA GATGACTTTG AAGTCTATGA AGATGATTTT
GAAGATGATG AAGACAAAAG TGGTGAAGCA GAAGATGCAG AAGAAAACCT AAGAGATCCT
CAATTTTCCA GAACATCAGA AATTGAAGAA ATTCAAAGAG CAATTACTGC AGAGAATGAG
AGACTTTTTA CTCCATTGCC AAAGAAACTA GAAAATGAAA AAAAGGGAGC AGTCACAGAA
AGGCAAGATT CTTCTGTCAG AAGCTCTTTT CGTGGAATAT TCATGGATTT CCAAATGGCA
AACCAAAGAC AAAGCAGCCG AAGTATGGCC AGTAAGCAGA AAAAACGGAG TTCAGAACTT
CTCCCACTAA TTGACCTGGA TTTCTCAGTT AGTTTTTCAT TACTGGATTT GCCCCCTGTC
AATGAGTACG ACATGTACAT CAGGAATTTT GGTAAAATGA ACACTAAGCA GGCATATGTT
CAGTGTAATG AGGACAATCT TGATAGAGAC ATTCAGACTG AGGAAGTTGA GACACTGGAG
AAGTGGACAC AGCATCCAGG AGAAAGTGCT CTTGTATCTG GAGGTCCCAT AAACAGCCAG
GATACATCAG TGCATGGAGC TCCAACACCT AAAATTGATT CACAAAGATT AGCAAATTTT
CTCCGGTCTG CATGCCAGGT GATTGCTGTT TTGCTAGAGG AAGATCAAGT TGCAACACAA
CCCAGGAAAC TAAGATCTCG ACAAACCAGT CTGTCTATTA GTGATAGCTG TTTCCAGTTA
AATACTAACC AGCCATTCCT CCATGGCCGA AAAATACCCT ACTTATATGT CTCCCAAGTT
CAGAAGCAGA CACTACTTTC TGCTCATGGA TTGCCTGAAA AGGCAGATGT GGATTTGCTG
AGCAGAAAGA GCCTTATATG TGTTTGGAAC ATCTGGCAGC CCTCCAGTCC TCAGAAAGTT
TTAATATGTG ATTCAGAGGT GATATGTTGC TGCTTTAGTC CCAGTAAAGC AACATTAGTT
TTTGCTGGAA CAGTAGATGG TTCGTTGTTG GTGTGGGATC TTCGAGAAGA CTCAAGAATG
CACCCTTGTA TGATGATCAC TGGAACTGAG TGGACATTTA GAGTTCCCAC ATTTTCCACA
GATGGCATTC TAAATTCAGT AAACCACACC TCTCCTATAC TGGCAGTGGA ACCTATCTCA
ACTTCTCTCA ACAGTGACCA CAGTTACAGG CTCTCAAGCC TGTCTTATCA GGAGGAGATA
TCAGGCCCTC CATTTCAGAT AGCTTCAATG GATGAAAATG GAATCCTCAA TATGTGGGTA
GTTGTTGAAT TGCAAAAAGC AGATCTAGCT GGTTCACAAA CTGACTTAGG CTTAGTTCCT
GGAGGGAAAG TGAAGTTAGT ACATAGCTCT ACTATGGAAT TGAGTAACAG CCTTTTCCCA
AAGGAAATTA GCCAGAGAAT GCCACAGACA CTGACTATTA AATTTCTGTC TTCTAATCCA
AATCACTTCA TTGTTGGAAC AAACATTGGT CTGGTAGGCC ATGGTACAAG GCATGATTTA
AAAGTTGTTC CAAAGCTATT CAGGCCCCAG GAGAGCAGAC TGAGATCTAT AAGCATCACT
GCAATTGATT TCTTCCCTTT TGGAAAGCCA CTGTTTTTGG TTGGCTGTTC AGATGGAAGT
ATTAGATTAC ACCAGATGAC ATCAGAGTAT CCCCTCATGC AGTGGAATGA CAGCACAAAG
GGACAGCCAA TTATTGCCCT GCAGTGGGCT TTGACAAGAC CTGCTGTGTT CTTCGCCCTG
GATGCATCAT CCAATATTTA CATTTGGGAT CTTCTGGAAA ATGATTTGTT GCCTGTGGCC
AAGCAGACCA TCCCATCAGA GAGGGTTGTA ACTATGACTC TGCTGGGAGA GCCAGAAAAA
ACAAATGGAT TGTTAGGAAT GGTGCTGGCC AAGGAATCTG GGCAGATAGA AATTCAGTAT
GTAAAGAAGA AGTGGGCATT ACCTCAGCCT GAGGAATCTG ACAAACTGTA TTCTATTTTA
TTGCAGTCTT TTTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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