| Gene Symbol | WWC2 |
| Entrez Gene ID | 100220286 |
| Full Name | WW and C2 domain containing 2 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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WWC2 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following WWC2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WWC2 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 OTd44531 Clone ID Related Accession (Same CDS sequence) XM_030271297.1 Accession Version XM_030271297.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2937bp)
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 protein WWC2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
2881ATGTCCAGAG GCCAGAGCGG GTATGAGCTG TGTGAGGCCA AAGCCATCCT GAAGGAGCTG
AAGTCCATCA GAAAGGCAAT CAGCTCAGGC GAGAGAGAAA AACAAGATTT AATGAAGAGT
CTTGCAAAGC TGAGGGAAAA ATTCAATGTT GACCAAACCA CTGAAGCATC TGAACCAGAC
TTGAGTTCCA GCTCTGTAAA CTCACAGCTG TATTTTCCTA GACAAACTCT GGATACAGGA
TCTCAGACTG ACATTTCTGG TGAGATTGGA GCAAGAAGTA GATCGAATTT AGCAGAGAAG
GTCAGACTCA GTCTGCAGTA CGAAGAGGCC AAGCGGAGCA TGGCTAATTT GAAGATTGAA
CTCTCTAAGC TAGATAGCGA AGCCTGGCCT GGAGCATTGG ATGTGGAAAA GGAAAAACTG
ATGTTAATCA ATGAAAAAGA AGAGCTTTTA AAGGAGCTTC AGTTTATTAC ACCACGCAAA
CGTACTCAAG ACGAGCTAGA GCAGCTAGAA GCAGAAAGGA AGAGGCTTGA GGAAGAGCTG
GTGTCTGTGA AAAGCACACC CAGTCAAGCA CTTGCTGAAA GATTAAAATT GGAGGAGAGA
AGAAAAGAGT TGGTACAGAA ACTTGAAGAA ACTACAAAGT TAACTACTTA TTTGCATTCA
CAACTTAGGA GCCTCTCAGC TAGTACATTG TCTGTGTCTT CAGGGAGCAG TTTGGGATCC
CTGGCATCCA GCCGGGGATC TCTGAACACA TCAAGTAGAG GGTCGCTAAA CTCACTCAGC
TCCACGGATC TCTACTATAA CCAAGGCGAT CAAATTACAG ATTTGGACTA TCAATACAAA
CTTGATTTCA TATTGCAAGA GAAAACTGGT TACATTCCTT CAGGGCCTAT CACTACTATT
CATGAAAATG AAGTGGTCAG TTCCCATGGG AGACTCGGTT ACAGTGACTC TCCTTCAGCT
GCAGACCACC CCAAACTGAC TGAACCTCCC AAATCTGTGA CATCACTGTC TTCCAGATCC
TCACTCTCCT CCTTGTCCCC ACCAGGCTCC CCTTTGGTTT TAGAAGCTGC ATTTTCAGTG
TCAGCTCAAA ATTCTCCTCT GCATCACCTC ACTACGGACT TTGAAGACTC TGACCTTTCA
GGTGATTTTG CAGGCATTAG CTTCTGCGAG AACCAAATAT TATTGGACTC TGAAGCCAGA
GCAGGATCTC AGACTCCTAC AGATGAAAGA CATCTAAACG TTAGGCAGCC TCTGCATTCT
CTACAGGAAG GAAGTTCAGG TGGTGATTTA CCAAGAAGAA CAGTTGGTCA TCTGCTTGAG
GAGAAAACAG CTTGTGTATC TGCTGCTGTG TCTGATGAGT CTGTAGCTGG AGATAGTGGT
GTATATGAAG CTTCTGTGAA ACAACCAAAT GAAACTGAGG ACACCATATA TAGTGAAGAC
GATGCAACAA CTCTAGAGGC TGCTCAGGTA CAAATAGGAC TCAGATATGA CCACAGCAAT
TCAAGTTTTG TGATAGTCGT GGTACGGCTT AGAAACCTTC CAGTGTTTCC TGTCCCCCTT
GGCTCTAAGG TGTATATCAG AGTAGCAGTC CTTCCATCCT CCACTGATAT CAGCTGTCTG
TTCCGCACTA AAGTTCATCC TGCCATGGAA ACCATTTTGT TCAACGAGAT ATTCAGGGTA
GCCATTGCTC AAGCAGCACT GCTAGAGAAG ACACTGAGAG TAGATGTTTG TGCTGTCAGT
AGAAGTCATC AGGAAGAATG CTTGGCTGGG ACTCAGATCA GCCTGGCAGA TTTATCACTT
TCTGATGAGA CCTGTACTCT GTGGTACAAC CTGTTGCCAT GCAAGCAGAG TCCTGGCAAA
AAGCCCAAGG AACAAAATGA CCAATACATG TTTCTGTTAA GCAAGCAATC ACAGTCATTG
GACTCACTGG ACTTGGATGC TGTGTCAGCT CTGCTGGAGA GGACATCTGC TGAGCTGGAA
GCAGTAGAAC AAGAGCTGGG TGAAGATGAG GAGAAGGAAC AAGAGCAAAG GGCCTCTGAG
GAAGACTGGC TAGAGATGCT CGCAGAGGCC TCTGATGAAA TTGTGGACGA AGAGGAAGGT
GGCATTAAAC TGGAAGTAGA AGGCGACTGT AATGATGACA TGGGGTTACT CATGGATGCA
CGAGAAATGA ATGAAGACAA GAACAGAGAG AACAATAATG AGGGCCAGGA AAGCCAGCAG
GCTGCTGTAG TTCTAACATT GGTTGATAAA GAGACTAACA CTGAGGAATT GGTTAAAGAG
AACACAGCAG TCCGACCCAA GGACAGAGCC AGCTGGAGCT CCAGACAGCG TCCCTTTGTC
AGGAACAGCA TGATAGTGCG CTCCCAAACC TTCTCTCCAG GCGAGCGGAA CCAATACATC
TGCAGGTTGA ATCGCAGCGA CAGCGACAGC TCCACACTAG CCAAGAAGTC GCTCTTTGTG
AGAAACGCCA CAGAACGACG GAGCCTGAGA GTTAAACGGC CTGTTTGCCA GCCCATCATG
CGAAGAGCTG CGCAAGAGTG CCCCATGCGC ACTTCCCTGG ACTTGGAGCT GGACCTCCAG
GTGTCACGCA CAAGACAGAA TCGTCTGAAC GACGAGCTCC GGGCCTTGCG GGACCTTAAA
CAGAAGCTTG AGGAAATGAA AGGTAGAGGA GAGGCAGATC TTCCTCTGTG TGTGCTAGAG
GATGAACGTT TCCAGAAACT CTTGAAACAA GCTGAAAAAC AGGTGGAACA GTCAAAAGAA
GAGCAGAAAC AAGGTTTAAG TGCTGAGAAA TTGATGAGGA AAGCTTCTAA GGATGTGTGC
CGGCTACGGG AGCAGAGCCA GAAAGTGCCA CTGCAGGTGC AGTCATTCAG GGAGAAGATA
GCATACTTCA CAAGAGCAAA GATCAGTATA CCAGCCCTTC CAGCTGATGA TGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127157.1 CDS 181..3117 Translation 
Target ORF information:
RefSeq Version XM_030271297.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_030271297.1
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
2881ATGTCCAGAG GCCAGAGCGG GTATGAGCTG TGTGAGGCCA AAGCCATCCT GAAGGAGCTG
AAGTCCATCA GAAAGGCAAT CAGCTCAGGC GAGAGAGAAA AACAAGATTT AATGAAGAGT
CTTGCAAAGC TGAGGGAAAA ATTCAATGTT GACCAAACCA CTGAAGCATC TGAACCAGAC
TTGAGTTCCA GCTCTGTAAA CTCACAGCTG TATTTTCCTA GACAAACTCT GGATACAGGA
TCTCAGACTG ACATTTCTGG TGAGATTGGA GCAAGAAGTA GATCGAATTT AGCAGAGAAG
GTCAGACTCA GTCTGCAGTA CGAAGAGGCC AAGCGGAGCA TGGCTAATTT GAAGATTGAA
CTCTCTAAGC TAGATAGCGA AGCCTGGCCT GGAGCATTGG ATGTGGAAAA GGAAAAACTG
ATGTTAATCA ATGAAAAAGA AGAGCTTTTA AAGGAGCTTC AGTTTATTAC ACCACGCAAA
CGTACTCAAG ACGAGCTAGA GCAGCTAGAA GCAGAAAGGA AGAGGCTTGA GGAAGAGCTG
GTGTCTGTGA AAAGCACACC CAGTCAAGCA CTTGCTGAAA GATTAAAATT GGAGGAGAGA
AGAAAAGAGT TGGTACAGAA ACTTGAAGAA ACTACAAAGT TAACTACTTA TTTGCATTCA
CAACTTAGGA GCCTCTCAGC TAGTACATTG TCTGTGTCTT CAGGGAGCAG TTTGGGATCC
CTGGCATCCA GCCGGGGATC TCTGAACACA TCAAGTAGAG GGTCGCTAAA CTCACTCAGC
TCCACGGATC TCTACTATAA CCAAGGCGAT CAAATTACAG ATTTGGACTA TCAATACAAA
CTTGATTTCA TATTGCAAGA GAAAACTGGT TACATTCCTT CAGGGCCTAT CACTACTATT
CATGAAAATG AAGTGGTCAG TTCCCATGGG AGACTCGGTT ACAGTGACTC TCCTTCAGCT
GCAGACCACC CCAAACTGAC TGAACCTCCC AAATCTGTGA CATCACTGTC TTCCAGATCC
TCACTCTCCT CCTTGTCCCC ACCAGGCTCC CCTTTGGTTT TAGAAGCTGC ATTTTCAGTG
TCAGCTCAAA ATTCTCCTCT GCATCACCTC ACTACGGACT TTGAAGACTC TGACCTTTCA
GGTGATTTTG CAGGCATTAG CTTCTGCGAG AACCAAATAT TATTGGACTC TGAAGCCAGA
GCAGGATCTC AGACTCCTAC AGATGAAAGA CATCTAAACG TTAGGCAGCC TCTGCATTCT
CTACAGGAAG GAAGTTCAGG TGGTGATTTA CCAAGAAGAA CAGTTGGTCA TCTGCTTGAG
GAGAAAACAG CTTGTGTATC TGCTGCTGTG TCTGATGAGT CTGTAGCTGG AGATAGTGGT
GTATATGAAG CTTCTGTGAA ACAACCAAAT GAAACTGAGG ACACCATATA TAGTGAAGAC
GATGCAACAA CTCTAGAGGC TGCTCAGGTA CAAATAGGAC TCAGATATGA CCACAGCAAT
TCAAGTTTTG TGATAGTCGT GGTACGGCTT AGAAACCTTC CAGTGTTTCC TGTCCCCCTT
GGCTCTAAGG TGTATATCAG AGTAGCAGTC CTTCCATCCT CCACTGATAT CAGCTGTCTG
TTCCGCACTA AAGTTCATCC TGCCATGGAA ACCATTTTGT TCAACGAGAT ATTCAGGGTA
GCCATTGCTC AAGCAGCACT GCTAGAGAAG ACACTGAGAG TAGATGTTTG TGCTGTCAGT
AGAAGTCATC AGGAAGAATG CTTGGCTGGG ACTCAGATCA GCCTGGCAGA TTTATCACTT
TCTGATGAGA CCTGTACTCT GTGGTACAAC CTGTTGCCAT GCAAGCAGAG TCCTGGCAAA
AAGCCCAAGG AACAAAATGA CCAATACATG TTTCTGTTAA GCAAGCAATC ACAGTCATTG
GACTCACTGG ACTTGGATGC TGTGTCAGCT CTGCTGGAGA GGACATCTGC TGAGCTGGAA
GCAGTAGAAC AAGAGCTGGG TGAAGATGAG GAGAAGGAAC AAGAGCAAAG GGCCTCTGAG
GAAGACTGGC TAGAGATGCT CGCAGAGGCC TCTGATGAAA TTGTGGACGA AGAGGAAGGT
GGCATTAAAC TGGAAGTAGA AGGCGACTGT AATGATGACA TGGGGTTACT CATGGATGCA
CGAGAAATGA ATGAAGACAA GAACAGAGAG AACAATAATG AGGGCCAGGA AAGCCAGCAG
GCTGCTGTAG TTCTAACATT GGTTGATAAA GAGACTAACA CTGAGGAATT GGTTAAAGAG
AACACAGCAG TCCGACCCAA GGACAGAGCC AGCTGGAGCT CCAGACAGCG TCCCTTTGTC
AGGAACAGCA TGATAGTGCG CTCCCAAACC TTCTCTCCAG GCGAGCGGAA CCAATACATC
TGCAGGTTGA ATCGCAGCGA CAGCGACAGC TCCACACTAG CCAAGAAGTC GCTCTTTGTG
AGAAACGCCA CAGAACGACG GAGCCTGAGA GTTAAACGGC CTGTTTGCCA GCCCATCATG
CGAAGAGCTG CGCAAGAGTG CCCCATGCGC ACTTCCCTGG ACTTGGAGCT GGACCTCCAG
GTGTCACGCA CAAGACAGAA TCGTCTGAAC GACGAGCTCC GGGCCTTGCG GGACCTTAAA
CAGAAGCTTG AGGAAATGAA AGGTAGAGGA GAGGCAGATC TTCCTCTGTG TGTGCTAGAG
GATGAACGTT TCCAGAAACT CTTGAAACAA GCTGAAAAAC AGGTGGAACA GTCAAAAGAA
GAGCAGAAAC AAGGTTTAAG TGCTGAGAAA TTGATGAGGA AAGCTTCTAA GGATGTGTGC
CGGCTACGGG AGCAGAGCCA GAAAGTGCCA CTGCAGGTGC AGTCATTCAG GGAGAAGATA
GCATACTTCA CAAGAGCAAA GATCAGTATA CCAGCCCTTC CAGCTGATGA TGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd15230 Clone ID Related Accession (Same CDS sequence) XM_012573479.1 Accession Version XM_012573479.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
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 protein WWC2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198636.1) annotated using gene prediction method: Gnomon, supported by mRNA 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 :: 6% 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
3661ATGGGGCTGT GTGTTGTTGA TTTTAGCATT AGTGAAAATG GCTATGCTAA CTCCAAGATA
ACGCTTTTAT TCTTTATTCC TCTGGAAGTG ATAGAGCTGC ACTGTGTCTT TCATCTCGGG
GCATGTGAAG TTAACAAGTC AGGAAACGTT GTGGACTATT TGCTTATGTG TGCAAATGTG
AGCCAGAAGG CAAGTCCAGA GCTGGGAGCA CAAGGGGGCA ACGGGCCTGC AGAAATCAAG
ATGTTAACAA AGCCCTTGTC GTTTGCGGAT TGTGTTGGGG ATGAATTGCC ATGGGGATGG
GAAGCCGCGT ATGATCCCCA GATTGGTGTG TACTACATTG ACCACATAAA CCAAACAACA
CAAATAGAAG ATCCCAGGAA ACAATGGCGG CAAGAACAAG AGAGAATGTT AAAAGATTAC
CTTACAATAG CCCAGGATGC TCTCAGTACC CAGAAGGAAC TGTACCAGGT GAAAGAACAG
AGGCTAGCAC TTGCACTGGA TGAGTATGTA CGGCTGAATG GTGCCTACAA GGAAAAATCA
AGCTCTCGTA CAAGCTTGTT TTCAGGCTCT TCATCAAGCA CAAAGTATGA CCCTGACATT
CTGAAGGCTG AAATCTCCAC TACAAGATTA AGGGTTAAGA AGCTGAAGAG AGAACTCTCT
CAGATGAAGC AAGAGCTGCT GTACAAGGAG CAGGGCTTTG AAACACTGCA ACAAATTGAC
CAAAAAATGT CCAGAGGCCA GAGCGGGTAT GAGCTGTGTG AGGCCAAAGC CATCCTGAAG
GAGCTGAAGT CCATCAGAAA GGCAATCAGC TCAGGCGAGA GAGAAAAACA AGATTTAATG
AAGAGTCTTG CAAAGCTGAG GGAAAAATTC AATGTTGACC AAACCACTGA AGCATCTGAA
CCAGACTTGA GTTCCAGCTC TGTAAACTCA CAGCTGTATT TTCCTAGACA AACTCTGGAT
ACAGGATCTC AGACTGACAT TTCTGGTGAG ATTGGAGCAA GAAGTAGATC GAATTTAGCA
GAGAAGGTCA GACTCAGTCT GCAGTACGAA GAGGCCAAGC GGAGCATGGC TAATTTGAAG
ATTGAACTCT CTAAGCTAGA TAGCGAAGCC TGGCCTGGAG CATTGGATGT GGAAAAGGAA
AAACTGATGT TAATCAATGA AAAAGAAGAG CTTTTAAAGG AGCTTCAGTT TATTACACCA
CGCAAACGTA CTCAAGACGA GCTAGAGCAG CTAGAAGCAG AAAGGAAGAG GCTTGAGGAA
GAGCTGGTGT CTGTGAAAAG CACACCCAGT CAAGCACTTG CTGAAAGATT AAAATTGGAG
GAGAGAAGAA AAGAGTTGGT ACAGAAACTT GAAGAAACTA CAAAGTTAAC TACTTATTTG
CATTCACAAC TTAGGAGCCT CTCAGCTAGT ACATTGTCTG TGTCTTCAGG GAGCAGTTTG
GGATCCCTGG CATCCAGCCG GGGATCTCTG AACACATCAA GTAGAGGGTC GCTAAACTCA
CTCAGCTCCA CGGATCTCTA CTATAACCAA GGCGATCAAA TTACAGATTT GGACTATCAA
TACAAACTTG ATTTCATATT GCAAGAGAAA ACTGGTTACA TTCCTTCAGG GCCTATCACT
ACTATTCATG AAAATGAAGT GGTCAGTTCC CATGGGAGAC TCGGTTACAG TGACTCTCCT
TCAGCTGCAG ACCACCCCAA ACTGACTGAA CCTCCCAAAT CTGTGACATC ACTGTCTTCC
AGATCCTCAC TCTCCTCCTT GTCCCCACCA GGCTCCCCTT TGGTTTTAGA AGCTGCATTT
TCAGTGTCAG CTCAAAATTC TCCTCTGCAT CACCTCACTA CGGACTTTGA AGACTCTGAC
CTTTCAGGTG ATTTTGCAGG CATTAGCTTC TGCGAGAACC AAATATTATT GGACTCTGAA
GCCAGAGCAG GATCTCAGAC TCCTACAGAT GAAAGACATC TAAACGTTAG GCAGCCTCTG
CATTCTCTAC AGGAAGGAAG TTCAGGTGGT GATTTACCAA GAAGAACAGT TGGTCATCTG
CTTGAGGAGA AAACAGCTTG TGTATCTGCT GCTGTGTCTG ATGAGTCTGT AGCTGGAGAT
AGTGGTGTAT ATGAAGCTTC TGTGAAACAA CCAAATGAAA CTGAGGACAC CATATATAGT
GAAGACGATG CAACAACTCT AGAGGCTGCT CAGGTACAAA TAGGACTCAG ATATGACCAC
AGCAATTCAA GTTTTGTGAT AGTCGTGGTA CGGCTTAGAA ACCTTCCAGT GTTTCCTGTC
CCCCTTGGCT CTAAGGTGTA TATCAGAGTA GCAGTCCTTC CATCCTCCAC TGATATCAGC
TGTCTGTTCC GCACTAAAGT TCATCCTGCC ATGGAAACCA TTTTGTTCAA CGAGATATTC
AGGGTAGCCA TTGCTCAAGC AGCACTGCTA GAGAAGACAC TGAGAGTAGA TGTTTGTGCT
GTCAGTAGAA GTCATCAGGA AGAATGCTTG GCTGGGACTC AGATCAGCCT GGCAGATTTA
TCACTTTCTG ATGAGACCTG TACTCTGTGG TACAACCTGT TGCCATGCAA GCAGAGTCCT
GGCAAAAAGC CCAAGGAACA AAATGACCAA TACATGTTTC TGTTAAGCAA GCAATCACAG
TCATTGGACT CACTGGACTT GGATGCTGTG TCAGCTCTGC TGGAGAGGAC ATCTGCTGAG
CTGGAAGCAG TAGAACAAGA GCTGGGTGAA GATGAGGAGA AGGAACAAGA GCAAAGGGCC
TCTGAGGAAG ACTGGCTAGA GATGCTCGCA GAGGCCTCTG ATGAAATTGT GGACGAAGAG
GAAGGTGGCA TTAAACTGGA AGTAGAAGGC GACTGTAATG ATGACATGGG GTTACTCATG
GATGCACGAG AAATGAATGA AGACAAGAAC AGAGAGAACA ATAATGAGGG CCAGGAAAGC
CAGCAGGCTG CTGTAGTTCT AACATTGGTT GATAAAGAGA CTAACACTGA GGAATTGGTT
AAAGAGAACA CAGCAGTCCG ACCCAAGGAC AGAGCCAGCT GGAGCTCCAG ACAGCGTCCC
TTTGTCAGGA ACAGCATGAT AGTGCGCTCC CAAACCTTCT CTCCAGGCGA GCGGAACCAA
TACATCTGCA GGTTGAATCG CAGCGACAGC GACAGCTCCA CACTAGCCAA GAAGTCGCTC
TTTGTGAGAA ACGCCACAGA ACGACGGAGC CTGAGAGTTA AACGGCCTGT TTGCCAGCCC
ATCATGCGAA GAGCTGCGCA AGAGTGCCCC ATGCGCACTT CCCTGGACTT GGAGCTGGAC
CTCCAGGTGT CACGCACAAG ACAGAATCGT CTGAACGACG AGCTCCGGGC CTTGCGGGAC
CTTAAACAGA AGCTTGAGGA AATGAAAGGT AGAGGAGAGG CAGATCTTCC TCTGTGTGTG
CTAGAGGATG AACGTTTCCA GAAACTCTTG AAACAAGCTG AAAAACAGGT GGAACAGTCA
AAAGAAGAGC AGAAACAAGG TTTAAGTGCT GAGAAATTGA TGAGGAAAGC TTCTAAGGAT
GTGTGCCGGC TACGGGAGCA GAGCCAGAAA GTGCCACTGC AGGTGCAGTC ATTCAGGGAG
AAGATAGCAT ACTTCACAAG AGCAAAGATC AGTATACCAG CCCTTCCAGC TGATGATGTA
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012428933.1 CDS 1..3663 Translation
Target ORF information:
RefSeq Version XM_012573479.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012573479.1
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
3661ATGGGGCTGT GTGTTGTTGA TTTTAGCATT AGTGAAAATG GCTATGCTAA CTCCAAGATA
ACGCTTTTAT TCTTTATTCC TCTGGAAGTG ATAGAGCTGC ACTGTGTCTT TCATCTCGGG
GCATGTGAAG TTAACAAGTC AGGAAACGTT GTGGACTATT TGCTTATGTG TGCAAATGTG
AGCCAGAAGG CAAGTCCAGA GCTGGGAGCA CAAGGGGGCA ACGGGCCTGC AGAAATCAAG
ATGTTAACAA AGCCCTTGTC GTTTGCGGAT TGTGTTGGGG ATGAATTGCC ATGGGGATGG
GAAGCCGCGT ATGATCCCCA GATTGGTGTG TACTACATTG ACCACATAAA CCAAACAACA
CAAATAGAAG ATCCCAGGAA ACAATGGCGG CAAGAACAAG AGAGAATGTT AAAAGATTAC
CTTACAATAG CCCAGGATGC TCTCAGTACC CAGAAGGAAC TGTACCAGGT GAAAGAACAG
AGGCTAGCAC TTGCACTGGA TGAGTATGTA CGGCTGAATG GTGCCTACAA GGAAAAATCA
AGCTCTCGTA CAAGCTTGTT TTCAGGCTCT TCATCAAGCA CAAAGTATGA CCCTGACATT
CTGAAGGCTG AAATCTCCAC TACAAGATTA AGGGTTAAGA AGCTGAAGAG AGAACTCTCT
CAGATGAAGC AAGAGCTGCT GTACAAGGAG CAGGGCTTTG AAACACTGCA ACAAATTGAC
CAAAAAATGT CCAGAGGCCA GAGCGGGTAT GAGCTGTGTG AGGCCAAAGC CATCCTGAAG
GAGCTGAAGT CCATCAGAAA GGCAATCAGC TCAGGCGAGA GAGAAAAACA AGATTTAATG
AAGAGTCTTG CAAAGCTGAG GGAAAAATTC AATGTTGACC AAACCACTGA AGCATCTGAA
CCAGACTTGA GTTCCAGCTC TGTAAACTCA CAGCTGTATT TTCCTAGACA AACTCTGGAT
ACAGGATCTC AGACTGACAT TTCTGGTGAG ATTGGAGCAA GAAGTAGATC GAATTTAGCA
GAGAAGGTCA GACTCAGTCT GCAGTACGAA GAGGCCAAGC GGAGCATGGC TAATTTGAAG
ATTGAACTCT CTAAGCTAGA TAGCGAAGCC TGGCCTGGAG CATTGGATGT GGAAAAGGAA
AAACTGATGT TAATCAATGA AAAAGAAGAG CTTTTAAAGG AGCTTCAGTT TATTACACCA
CGCAAACGTA CTCAAGACGA GCTAGAGCAG CTAGAAGCAG AAAGGAAGAG GCTTGAGGAA
GAGCTGGTGT CTGTGAAAAG CACACCCAGT CAAGCACTTG CTGAAAGATT AAAATTGGAG
GAGAGAAGAA AAGAGTTGGT ACAGAAACTT GAAGAAACTA CAAAGTTAAC TACTTATTTG
CATTCACAAC TTAGGAGCCT CTCAGCTAGT ACATTGTCTG TGTCTTCAGG GAGCAGTTTG
GGATCCCTGG CATCCAGCCG GGGATCTCTG AACACATCAA GTAGAGGGTC GCTAAACTCA
CTCAGCTCCA CGGATCTCTA CTATAACCAA GGCGATCAAA TTACAGATTT GGACTATCAA
TACAAACTTG ATTTCATATT GCAAGAGAAA ACTGGTTACA TTCCTTCAGG GCCTATCACT
ACTATTCATG AAAATGAAGT GGTCAGTTCC CATGGGAGAC TCGGTTACAG TGACTCTCCT
TCAGCTGCAG ACCACCCCAA ACTGACTGAA CCTCCCAAAT CTGTGACATC ACTGTCTTCC
AGATCCTCAC TCTCCTCCTT GTCCCCACCA GGCTCCCCTT TGGTTTTAGA AGCTGCATTT
TCAGTGTCAG CTCAAAATTC TCCTCTGCAT CACCTCACTA CGGACTTTGA AGACTCTGAC
CTTTCAGGTG ATTTTGCAGG CATTAGCTTC TGCGAGAACC AAATATTATT GGACTCTGAA
GCCAGAGCAG GATCTCAGAC TCCTACAGAT GAAAGACATC TAAACGTTAG GCAGCCTCTG
CATTCTCTAC AGGAAGGAAG TTCAGGTGGT GATTTACCAA GAAGAACAGT TGGTCATCTG
CTTGAGGAGA AAACAGCTTG TGTATCTGCT GCTGTGTCTG ATGAGTCTGT AGCTGGAGAT
AGTGGTGTAT ATGAAGCTTC TGTGAAACAA CCAAATGAAA CTGAGGACAC CATATATAGT
GAAGACGATG CAACAACTCT AGAGGCTGCT CAGGTACAAA TAGGACTCAG ATATGACCAC
AGCAATTCAA GTTTTGTGAT AGTCGTGGTA CGGCTTAGAA ACCTTCCAGT GTTTCCTGTC
CCCCTTGGCT CTAAGGTGTA TATCAGAGTA GCAGTCCTTC CATCCTCCAC TGATATCAGC
TGTCTGTTCC GCACTAAAGT TCATCCTGCC ATGGAAACCA TTTTGTTCAA CGAGATATTC
AGGGTAGCCA TTGCTCAAGC AGCACTGCTA GAGAAGACAC TGAGAGTAGA TGTTTGTGCT
GTCAGTAGAA GTCATCAGGA AGAATGCTTG GCTGGGACTC AGATCAGCCT GGCAGATTTA
TCACTTTCTG ATGAGACCTG TACTCTGTGG TACAACCTGT TGCCATGCAA GCAGAGTCCT
GGCAAAAAGC CCAAGGAACA AAATGACCAA TACATGTTTC TGTTAAGCAA GCAATCACAG
TCATTGGACT CACTGGACTT GGATGCTGTG TCAGCTCTGC TGGAGAGGAC ATCTGCTGAG
CTGGAAGCAG TAGAACAAGA GCTGGGTGAA GATGAGGAGA AGGAACAAGA GCAAAGGGCC
TCTGAGGAAG ACTGGCTAGA GATGCTCGCA GAGGCCTCTG ATGAAATTGT GGACGAAGAG
GAAGGTGGCA TTAAACTGGA AGTAGAAGGC GACTGTAATG ATGACATGGG GTTACTCATG
GATGCACGAG AAATGAATGA AGACAAGAAC AGAGAGAACA ATAATGAGGG CCAGGAAAGC
CAGCAGGCTG CTGTAGTTCT AACATTGGTT GATAAAGAGA CTAACACTGA GGAATTGGTT
AAAGAGAACA CAGCAGTCCG ACCCAAGGAC AGAGCCAGCT GGAGCTCCAG ACAGCGTCCC
TTTGTCAGGA ACAGCATGAT AGTGCGCTCC CAAACCTTCT CTCCAGGCGA GCGGAACCAA
TACATCTGCA GGTTGAATCG CAGCGACAGC GACAGCTCCA CACTAGCCAA GAAGTCGCTC
TTTGTGAGAA ACGCCACAGA ACGACGGAGC CTGAGAGTTA AACGGCCTGT TTGCCAGCCC
ATCATGCGAA GAGCTGCGCA AGAGTGCCCC ATGCGCACTT CCCTGGACTT GGAGCTGGAC
CTCCAGGTGT CACGCACAAG ACAGAATCGT CTGAACGACG AGCTCCGGGC CTTGCGGGAC
CTTAAACAGA AGCTTGAGGA AATGAAAGGT AGAGGAGAGG CAGATCTTCC TCTGTGTGTG
CTAGAGGATG AACGTTTCCA GAAACTCTTG AAACAAGCTG AAAAACAGGT GGAACAGTCA
AAAGAAGAGC AGAAACAAGG TTTAAGTGCT GAGAAATTGA TGAGGAAAGC TTCTAAGGAT
GTGTGCCGGC TACGGGAGCA GAGCCAGAAA GTGCCACTGC AGGTGCAGTC ATTCAGGGAG
AAGATAGCAT ACTTCACAAG AGCAAAGATC AGTATACCAG CCCTTCCAGC TGATGATGTA
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44529 Clone ID Related Accession (Same CDS sequence) XM_030271290.1 Accession Version XM_030271290.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
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 protein WWC2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGCCTAGGA AAGCGGGGAA TGGGCAGCTT CCCTTACCCG ATGGCTGGGA GGAGGCGAGG
GATTACGACG GCAAAGTCTT CTACATCGAC CACAACACCA AGCAGACCAG CTGGATCGAC
CCCCGGGACA GGTTAACAAA GCCCTTGTCG TTTGCGGATT GTGTTGGGGA TGAATTGCCA
TGGGGATGGG AAGCCGCGTA TGATCCCCAG ATTGGTGTGT ACTACATTGA CCACATAAAC
CAAACAACAC AAATAGAAGA TCCCAGGAAA CAATGGCGGC AAGAACAAGA GAGAATGTTA
AAAGATTACC TTACAATAGC CCAGGATGCT CTCAGTACCC AGAAGGAACT GTACCAGGTG
AAAGAACAGA GGCTAGCACT TGCACTGGAT GAGTATGTAC GGCTGAATGG TGCCTACAAG
GAAAAATCAA GCTCTCGTAC AAGCTTGTTT TCAGGCTCTT CATCAAGCAC AAAGTATGAC
CCTGACATTC TGAAGGCTGA AATCTCCACT ACAAGATTAA GGGTTAAGAA GCTGAAGAGA
GAACTCTCTC AGATGAAGCA AGAGCTGCTG TACAAGGAGC AGGGCTTTGA AACACTGCAA
CAAATTGACC AAAAAATGTC CAGAGGCCAG AGCGGGTATG AGCTGTGTGA GGCCAAAGCC
ATCCTGAAGG AGCTGAAGTC CATCAGAAAG GCAATCAGCT CAGGCGAGAG AGAAAAACAA
GATTTAATGA AGAGTCTTGC AAAGCTGAGG GAAAAATTCA ATGTTGACCA AACCACTGAA
GCATCTGAAC CAGACTTGAG TTCCAGCTCT GTAAACTCAC AGCTGTATTT TCCTAGACAA
ACTCTGGATA CAGGATCTCA GACTGACATT TCTGGTGAGA TTGGAGCAAG AAGTAGATCG
AATTTAGCAG AGAAGGTCAG ACTCAGTCTG CAGTACGAAG AGGCCAAGCG GAGCATGGCT
AATTTGAAGA TTGAACTCTC TAAGCTAGAT AGCGAAGCCT GGCCTGGAGC ATTGGATGTG
GAAAAGGAAA AACTGATGTT AATCAATGAA AAAGAAGAGC TTTTAAAGGA GCTTCAGTTT
ATTACACCAC GCAAACGTAC TCAAGACGAG CTAGAGCAGC TAGAAGCAGA AAGGAAGAGG
CTTGAGGAAG AGCTGGTGTC TGTGAAAAGC ACACCCAGTC AAGCACTTGC TGAAAGATTA
AAATTGGAGG AGAGAAGAAA AGAGTTGGTA CAGAAACTTG AAGAAACTAC AAAGTTAACT
ACTTATTTGC ATTCACAACT TAGGAGCCTC TCAGCTAGTA CATTGTCTGT GTCTTCAGGG
AGCAGTTTGG GATCCCTGGC ATCCAGCCGG GGATCTCTGA ACACATCAAG TAGAGGGTCG
CTAAACTCAC TCAGCTCCAC GGATCTCTAC TATAACCAAG GCGATCAAAT TACAGATTTG
GACTATCAAT ACAAACTTGA TTTCATATTG CAAGAGAAAA CTGGTTACAT TCCTTCAGGG
CCTATCACTA CTATTCATGA AAATGAAGTG GTCAGTTCCC ATGGGAGACT CGGTTACAGT
GACTCTCCTT CAGCTGCAGA CCACCCCAAA CTGACTGAAC CTCCCAAATC TGTGACATCA
CTGTCTTCCA GATCCTCACT CTCCTCCTTG TCCCCACCAG GCTCCCCTTT GGTTTTAGAA
GCTGCATTTT CAGTGTCAGC TCAAAATTCT CCTCTGCATC ACCTCACTAC GGACTTTGAA
GACTCTGACC TTTCAGGTGA TTTTGCAGGC ATTAGCTTCT GCGAGAACCA AATATTATTG
GACTCTGAAG CCAGAGCAGG ATCTCAGACT CCTACAGATG AAAGACATCT AAACGTTAGG
CAGCCTCTGC ATTCTCTACA GGAAGGAAGT TCAGGTGGTG ATTTACCAAG AAGAACAGTT
GGTCATCTGC TTGAGGAGAA AACAGCTTGT GTATCTGCTG CTGTGTCTGA TGAGTCTGTA
GCTGGAGATA GTGGTGTATA TGAAGCTTCT GTGAAACAAC CAAATGAAAC TGAGGACACC
ATATATAGTG AAGACGATGC AACAACTCTA GAGGCTGCTC AGGTACAAAT AGGACTCAGA
TATGACCACA GCAATTCAAG TTTTGTGATA GTCGTGGTAC GGCTTAGAAA CCTTCCAGTG
TTTCCTGTCC CCCTTGGCTC TAAGGTGTAT ATCAGAGTAG CAGTCCTTCC ATCCTCCACT
GATATCAGCT GTCTGTTCCG CACTAAAGTT CATCCTGCCA TGGAAACCAT TTTGTTCAAC
GAGATATTCA GGGTAGCCAT TGCTCAAGCA GCACTGCTAG AGAAGACACT GAGAGTAGAT
GTTTGTGCTG TCAGTAGAAG TCATCAGGAA GAATGCTTGG CTGGGACTCA GATCAGCCTG
GCAGATTTAT CACTTTCTGA TGAGACCTGT ACTCTGTGGT ACAACCTGTT GCCATGCAAG
CAGAGTCCTG GCAAAAAGCC CAAGGAACAA AATGACCAAT ACATGTTTCT GTTAAGCAAG
CAATCACAGT CATTGGACTC ACTGGACTTG GATGCTGTGT CAGCTCTGCT GGAGAGGACA
TCTGCTGAGC TGGAAGCAGT AGAACAAGAG CTGGGTGAAG ATGAGGAGAA GGAACAAGAG
CAAAGGGCCT CTGAGGAAGA CTGGCTAGAG ATGCTCGCAG AGGCCTCTGA TGAAATTGTG
GACGAAGAGG AAGGTGGCAT TAAACTGGAA GTAGAAGGCG ACTGTAATGA TGACATGGGG
TTACTCATGG ATGCACGAGA AATGAATGAA GACAAGAACA GAGAGAACAA TAATGAGGGC
CAGGAAAGCC AGCAGGCTGC TGTAGTTCTA ACATTGGTTG ATAAAGAGAC TAACACTGAG
GAATTGGTTA AAGAGAACAC AGCAGTCCGA CCCAAGGACA GAGCCAGCTG GAGCTCCAGA
CAGCGTCCCT TTGTCAGGAA CAGCATGATA GTGCGCTCCC AAACCTTCTC TCCAGGCGAG
CGGAACCAAT ACATCTGCAG GTTGAATCGC AGCGACAGCG ACAGCTCCAC ACTAGCCAAG
AAGTCGCTCT TTGTGAGAAA CGCCACAGAA CGACGGAGCC TGAGAGTTAA ACGGCCTGTT
TGCCAGCCCA TCATGCGAAG AGCTGCGCAA GAGTGCCCCA TGCGCACTTC CCTGGACTTG
GAGCTGGACC TCCAGGTGTC ACGCACAAGA CAGAATCGTC TGAACGACGA GCTCCGGGCC
TTGCGGGACC TTAAACAGAA GCTTGAGGAA ATGAAAGGTA GAGGAGAGGC AGATCTTCCT
CTGTGTGTGC TAGAGGATGA ACGTTTCCAG AAACTCTTGA AACAAGCTGA AAAACAGGTG
GAACAGTCAA AAGAAGAGCA GAAACAAGGT TTAAGTGCTG AGAAATTGAT GAGGAAAGCT
TCTAAGGATG TGTGCCGGCT ACGGGAGCAG AGCCAGAAAG TGCCACTGCA GGTGCAGTCA
TTCAGGGAGA AGATAGCATA CTTCACAAGA GCAAAGATCA GTATACCAGC CCTTCCAGCT
GATGATGTAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127150.1 CDS 245..3796 Translation
Target ORF information:
RefSeq Version XM_030271290.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271290.1
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
3541ATGCCTAGGA AAGCGGGGAA TGGGCAGCTT CCCTTACCCG ATGGCTGGGA GGAGGCGAGG
GATTACGACG GCAAAGTCTT CTACATCGAC CACAACACCA AGCAGACCAG CTGGATCGAC
CCCCGGGACA GGTTAACAAA GCCCTTGTCG TTTGCGGATT GTGTTGGGGA TGAATTGCCA
TGGGGATGGG AAGCCGCGTA TGATCCCCAG ATTGGTGTGT ACTACATTGA CCACATAAAC
CAAACAACAC AAATAGAAGA TCCCAGGAAA CAATGGCGGC AAGAACAAGA GAGAATGTTA
AAAGATTACC TTACAATAGC CCAGGATGCT CTCAGTACCC AGAAGGAACT GTACCAGGTG
AAAGAACAGA GGCTAGCACT TGCACTGGAT GAGTATGTAC GGCTGAATGG TGCCTACAAG
GAAAAATCAA GCTCTCGTAC AAGCTTGTTT TCAGGCTCTT CATCAAGCAC AAAGTATGAC
CCTGACATTC TGAAGGCTGA AATCTCCACT ACAAGATTAA GGGTTAAGAA GCTGAAGAGA
GAACTCTCTC AGATGAAGCA AGAGCTGCTG TACAAGGAGC AGGGCTTTGA AACACTGCAA
CAAATTGACC AAAAAATGTC CAGAGGCCAG AGCGGGTATG AGCTGTGTGA GGCCAAAGCC
ATCCTGAAGG AGCTGAAGTC CATCAGAAAG GCAATCAGCT CAGGCGAGAG AGAAAAACAA
GATTTAATGA AGAGTCTTGC AAAGCTGAGG GAAAAATTCA ATGTTGACCA AACCACTGAA
GCATCTGAAC CAGACTTGAG TTCCAGCTCT GTAAACTCAC AGCTGTATTT TCCTAGACAA
ACTCTGGATA CAGGATCTCA GACTGACATT TCTGGTGAGA TTGGAGCAAG AAGTAGATCG
AATTTAGCAG AGAAGGTCAG ACTCAGTCTG CAGTACGAAG AGGCCAAGCG GAGCATGGCT
AATTTGAAGA TTGAACTCTC TAAGCTAGAT AGCGAAGCCT GGCCTGGAGC ATTGGATGTG
GAAAAGGAAA AACTGATGTT AATCAATGAA AAAGAAGAGC TTTTAAAGGA GCTTCAGTTT
ATTACACCAC GCAAACGTAC TCAAGACGAG CTAGAGCAGC TAGAAGCAGA AAGGAAGAGG
CTTGAGGAAG AGCTGGTGTC TGTGAAAAGC ACACCCAGTC AAGCACTTGC TGAAAGATTA
AAATTGGAGG AGAGAAGAAA AGAGTTGGTA CAGAAACTTG AAGAAACTAC AAAGTTAACT
ACTTATTTGC ATTCACAACT TAGGAGCCTC TCAGCTAGTA CATTGTCTGT GTCTTCAGGG
AGCAGTTTGG GATCCCTGGC ATCCAGCCGG GGATCTCTGA ACACATCAAG TAGAGGGTCG
CTAAACTCAC TCAGCTCCAC GGATCTCTAC TATAACCAAG GCGATCAAAT TACAGATTTG
GACTATCAAT ACAAACTTGA TTTCATATTG CAAGAGAAAA CTGGTTACAT TCCTTCAGGG
CCTATCACTA CTATTCATGA AAATGAAGTG GTCAGTTCCC ATGGGAGACT CGGTTACAGT
GACTCTCCTT CAGCTGCAGA CCACCCCAAA CTGACTGAAC CTCCCAAATC TGTGACATCA
CTGTCTTCCA GATCCTCACT CTCCTCCTTG TCCCCACCAG GCTCCCCTTT GGTTTTAGAA
GCTGCATTTT CAGTGTCAGC TCAAAATTCT CCTCTGCATC ACCTCACTAC GGACTTTGAA
GACTCTGACC TTTCAGGTGA TTTTGCAGGC ATTAGCTTCT GCGAGAACCA AATATTATTG
GACTCTGAAG CCAGAGCAGG ATCTCAGACT CCTACAGATG AAAGACATCT AAACGTTAGG
CAGCCTCTGC ATTCTCTACA GGAAGGAAGT TCAGGTGGTG ATTTACCAAG AAGAACAGTT
GGTCATCTGC TTGAGGAGAA AACAGCTTGT GTATCTGCTG CTGTGTCTGA TGAGTCTGTA
GCTGGAGATA GTGGTGTATA TGAAGCTTCT GTGAAACAAC CAAATGAAAC TGAGGACACC
ATATATAGTG AAGACGATGC AACAACTCTA GAGGCTGCTC AGGTACAAAT AGGACTCAGA
TATGACCACA GCAATTCAAG TTTTGTGATA GTCGTGGTAC GGCTTAGAAA CCTTCCAGTG
TTTCCTGTCC CCCTTGGCTC TAAGGTGTAT ATCAGAGTAG CAGTCCTTCC ATCCTCCACT
GATATCAGCT GTCTGTTCCG CACTAAAGTT CATCCTGCCA TGGAAACCAT TTTGTTCAAC
GAGATATTCA GGGTAGCCAT TGCTCAAGCA GCACTGCTAG AGAAGACACT GAGAGTAGAT
GTTTGTGCTG TCAGTAGAAG TCATCAGGAA GAATGCTTGG CTGGGACTCA GATCAGCCTG
GCAGATTTAT CACTTTCTGA TGAGACCTGT ACTCTGTGGT ACAACCTGTT GCCATGCAAG
CAGAGTCCTG GCAAAAAGCC CAAGGAACAA AATGACCAAT ACATGTTTCT GTTAAGCAAG
CAATCACAGT CATTGGACTC ACTGGACTTG GATGCTGTGT CAGCTCTGCT GGAGAGGACA
TCTGCTGAGC TGGAAGCAGT AGAACAAGAG CTGGGTGAAG ATGAGGAGAA GGAACAAGAG
CAAAGGGCCT CTGAGGAAGA CTGGCTAGAG ATGCTCGCAG AGGCCTCTGA TGAAATTGTG
GACGAAGAGG AAGGTGGCAT TAAACTGGAA GTAGAAGGCG ACTGTAATGA TGACATGGGG
TTACTCATGG ATGCACGAGA AATGAATGAA GACAAGAACA GAGAGAACAA TAATGAGGGC
CAGGAAAGCC AGCAGGCTGC TGTAGTTCTA ACATTGGTTG ATAAAGAGAC TAACACTGAG
GAATTGGTTA AAGAGAACAC AGCAGTCCGA CCCAAGGACA GAGCCAGCTG GAGCTCCAGA
CAGCGTCCCT TTGTCAGGAA CAGCATGATA GTGCGCTCCC AAACCTTCTC TCCAGGCGAG
CGGAACCAAT ACATCTGCAG GTTGAATCGC AGCGACAGCG ACAGCTCCAC ACTAGCCAAG
AAGTCGCTCT TTGTGAGAAA CGCCACAGAA CGACGGAGCC TGAGAGTTAA ACGGCCTGTT
TGCCAGCCCA TCATGCGAAG AGCTGCGCAA GAGTGCCCCA TGCGCACTTC CCTGGACTTG
GAGCTGGACC TCCAGGTGTC ACGCACAAGA CAGAATCGTC TGAACGACGA GCTCCGGGCC
TTGCGGGACC TTAAACAGAA GCTTGAGGAA ATGAAAGGTA GAGGAGAGGC AGATCTTCCT
CTGTGTGTGC TAGAGGATGA ACGTTTCCAG AAACTCTTGA AACAAGCTGA AAAACAGGTG
GAACAGTCAA AAGAAGAGCA GAAACAAGGT TTAAGTGCTG AGAAATTGAT GAGGAAAGCT
TCTAAGGATG TGTGCCGGCT ACGGGAGCAG AGCCAGAAAG TGCCACTGCA GGTGCAGTCA
TTCAGGGAGA AGATAGCATA CTTCACAAGA GCAAAGATCA GTATACCAGC CCTTCCAGCT
GATGATGTAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44530 Clone ID Related Accession (Same CDS sequence) XM_030271291.1 , XM_030271292.1 , XM_030271295.1 , XM_030271293.1 , XM_030271296.1 Accession Version XM_030271291.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3258bp)
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 protein WWC2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127151.1 CDS 1399..4656 Translation
Target ORF information:
RefSeq Version XM_030271291.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271291.1
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
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44530 Clone ID Related Accession (Same CDS sequence) XM_030271291.1 , XM_030271292.1 , XM_030271295.1 , XM_030271293.1 , XM_030271296.1 Accession Version XM_030271292.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3258bp)
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 protein WWC2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127152.1 CDS 1612..4869 Translation
Target ORF information:
RefSeq Version XM_030271292.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271292.1
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
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44530 Clone ID Related Accession (Same CDS sequence) XM_030271291.1 , XM_030271292.1 , XM_030271295.1 , XM_030271293.1 , XM_030271296.1 Accession Version XM_030271295.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3258bp)
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 protein WWC2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127155.1 CDS 1553..4810 Translation
Target ORF information:
RefSeq Version XM_030271295.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271295.1
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
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44530 Clone ID Related Accession (Same CDS sequence) XM_030271291.1 , XM_030271292.1 , XM_030271295.1 , XM_030271293.1 , XM_030271296.1 Accession Version XM_030271293.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3258bp)
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 protein WWC2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127153.1 CDS 1463..4720 Translation
Target ORF information:
RefSeq Version XM_030271293.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271293.1
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
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd44530 Clone ID Related Accession (Same CDS sequence) XM_030271291.1 , XM_030271292.1 , XM_030271295.1 , XM_030271293.1 , XM_030271296.1 Accession Version XM_030271296.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3258bp)
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 protein WWC2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) 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
3061
3121
3181
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030127156.1 CDS 1547..4804 Translation
Target ORF information:
RefSeq Version XM_030271296.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata WW and C2 domain containing 2 (WWC2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030271296.1
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
3241ATGTTAAAAG ATTACCTTAC AATAGCCCAG GATGCTCTCA GTACCCAGAA GGAACTGTAC
CAGGTGAAAG AACAGAGGCT AGCACTTGCA CTGGATGAGT ATGTACGGCT GAATGGTGCC
TACAAGGAAA AATCAAGCTC TCGTACAAGC TTGTTTTCAG GCTCTTCATC AAGCACAAAG
TATGACCCTG ACATTCTGAA GGCTGAAATC TCCACTACAA GATTAAGGGT TAAGAAGCTG
AAGAGAGAAC TCTCTCAGAT GAAGCAAGAG CTGCTGTACA AGGAGCAGGG CTTTGAAACA
CTGCAACAAA TTGACCAAAA AATGTCCAGA GGCCAGAGCG GGTATGAGCT GTGTGAGGCC
AAAGCCATCC TGAAGGAGCT GAAGTCCATC AGAAAGGCAA TCAGCTCAGG CGAGAGAGAA
AAACAAGATT TAATGAAGAG TCTTGCAAAG CTGAGGGAAA AATTCAATGT TGACCAAACC
ACTGAAGCAT CTGAACCAGA CTTGAGTTCC AGCTCTGTAA ACTCACAGCT GTATTTTCCT
AGACAAACTC TGGATACAGG ATCTCAGACT GACATTTCTG GTGAGATTGG AGCAAGAAGT
AGATCGAATT TAGCAGAGAA GGTCAGACTC AGTCTGCAGT ACGAAGAGGC CAAGCGGAGC
ATGGCTAATT TGAAGATTGA ACTCTCTAAG CTAGATAGCG AAGCCTGGCC TGGAGCATTG
GATGTGGAAA AGGAAAAACT GATGTTAATC AATGAAAAAG AAGAGCTTTT AAAGGAGCTT
CAGTTTATTA CACCACGCAA ACGTACTCAA GACGAGCTAG AGCAGCTAGA AGCAGAAAGG
AAGAGGCTTG AGGAAGAGCT GGTGTCTGTG AAAAGCACAC CCAGTCAAGC ACTTGCTGAA
AGATTAAAAT TGGAGGAGAG AAGAAAAGAG TTGGTACAGA AACTTGAAGA AACTACAAAG
TTAACTACTT ATTTGCATTC ACAACTTAGG AGCCTCTCAG CTAGTACATT GTCTGTGTCT
TCAGGGAGCA GTTTGGGATC CCTGGCATCC AGCCGGGGAT CTCTGAACAC ATCAAGTAGA
GGGTCGCTAA ACTCACTCAG CTCCACGGAT CTCTACTATA ACCAAGGCGA TCAAATTACA
GATTTGGACT ATCAATACAA ACTTGATTTC ATATTGCAAG AGAAAACTGG TTACATTCCT
TCAGGGCCTA TCACTACTAT TCATGAAAAT GAAGTGGTCA GTTCCCATGG GAGACTCGGT
TACAGTGACT CTCCTTCAGC TGCAGACCAC CCCAAACTGA CTGAACCTCC CAAATCTGTG
ACATCACTGT CTTCCAGATC CTCACTCTCC TCCTTGTCCC CACCAGGCTC CCCTTTGGTT
TTAGAAGCTG CATTTTCAGT GTCAGCTCAA AATTCTCCTC TGCATCACCT CACTACGGAC
TTTGAAGACT CTGACCTTTC AGGTGATTTT GCAGGCATTA GCTTCTGCGA GAACCAAATA
TTATTGGACT CTGAAGCCAG AGCAGGATCT CAGACTCCTA CAGATGAAAG ACATCTAAAC
GTTAGGCAGC CTCTGCATTC TCTACAGGAA GGAAGTTCAG GTGGTGATTT ACCAAGAAGA
ACAGTTGGTC ATCTGCTTGA GGAGAAAACA GCTTGTGTAT CTGCTGCTGT GTCTGATGAG
TCTGTAGCTG GAGATAGTGG TGTATATGAA GCTTCTGTGA AACAACCAAA TGAAACTGAG
GACACCATAT ATAGTGAAGA CGATGCAACA ACTCTAGAGG CTGCTCAGGT ACAAATAGGA
CTCAGATATG ACCACAGCAA TTCAAGTTTT GTGATAGTCG TGGTACGGCT TAGAAACCTT
CCAGTGTTTC CTGTCCCCCT TGGCTCTAAG GTGTATATCA GAGTAGCAGT CCTTCCATCC
TCCACTGATA TCAGCTGTCT GTTCCGCACT AAAGTTCATC CTGCCATGGA AACCATTTTG
TTCAACGAGA TATTCAGGGT AGCCATTGCT CAAGCAGCAC TGCTAGAGAA GACACTGAGA
GTAGATGTTT GTGCTGTCAG TAGAAGTCAT CAGGAAGAAT GCTTGGCTGG GACTCAGATC
AGCCTGGCAG ATTTATCACT TTCTGATGAG ACCTGTACTC TGTGGTACAA CCTGTTGCCA
TGCAAGCAGA GTCCTGGCAA AAAGCCCAAG GAACAAAATG ACCAATACAT GTTTCTGTTA
AGCAAGCAAT CACAGTCATT GGACTCACTG GACTTGGATG CTGTGTCAGC TCTGCTGGAG
AGGACATCTG CTGAGCTGGA AGCAGTAGAA CAAGAGCTGG GTGAAGATGA GGAGAAGGAA
CAAGAGCAAA GGGCCTCTGA GGAAGACTGG CTAGAGATGC TCGCAGAGGC CTCTGATGAA
ATTGTGGACG AAGAGGAAGG TGGCATTAAA CTGGAAGTAG AAGGCGACTG TAATGATGAC
ATGGGGTTAC TCATGGATGC ACGAGAAATG AATGAAGACA AGAACAGAGA GAACAATAAT
GAGGGCCAGG AAAGCCAGCA GGCTGCTGTA GTTCTAACAT TGGTTGATAA AGAGACTAAC
ACTGAGGAAT TGGTTAAAGA GAACACAGCA GTCCGACCCA AGGACAGAGC CAGCTGGAGC
TCCAGACAGC GTCCCTTTGT CAGGAACAGC ATGATAGTGC GCTCCCAAAC CTTCTCTCCA
GGCGAGCGGA ACCAATACAT CTGCAGGTTG AATCGCAGCG ACAGCGACAG CTCCACACTA
GCCAAGAAGT CGCTCTTTGT GAGAAACGCC ACAGAACGAC GGAGCCTGAG AGTTAAACGG
CCTGTTTGCC AGCCCATCAT GCGAAGAGCT GCGCAAGAGT GCCCCATGCG CACTTCCCTG
GACTTGGAGC TGGACCTCCA GGTGTCACGC ACAAGACAGA ATCGTCTGAA CGACGAGCTC
CGGGCCTTGC GGGACCTTAA ACAGAAGCTT GAGGAAATGA AAGGTAGAGG AGAGGCAGAT
CTTCCTCTGT GTGTGCTAGA GGATGAACGT TTCCAGAAAC TCTTGAAACA AGCTGAAAAA
CAGGTGGAAC AGTCAAAAGA AGAGCAGAAA CAAGGTTTAA GTGCTGAGAA ATTGATGAGG
AAAGCTTCTA AGGATGTGTG CCGGCTACGG GAGCAGAGCC AGAAAGTGCC ACTGCAGGTG
CAGTCATTCA GGGAGAAGAT AGCATACTTC ACAAGAGCAA AGATCAGTAT ACCAGCCCTT
CCAGCTGATG ATGTATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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