| Gene Symbol | BNC1 |
| Entrez Gene ID | 100228370 |
| Full Name | basonuclin 1 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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BNC1 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following BNC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BNC1 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 OTd00778 Clone ID Related Accession (Same CDS sequence) XM_002197118.2 Accession Version XM_002197118.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2952bp)
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 zinc finger protein basonuclin-1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2013 this sequence version replaced XM_002197118.1. ##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##
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
2941ATGTCTGAGG CTATCCGGTG CACTCTCGTG AACTGTAGTT GTCAGTGTTT CAAACCTGGG
AAAATAAATC AGCGACAATG TGACCAGTGC CGGCATGGAT GGGTAGCACA TGCCCTGAGC
AAACTAAGGA TTCCAAACCT CTACCCATCA AGCCAAGTAG AAATAGTTCA ATCCAATGTT
GTCTTTGATA TCAGTAGCCT CATGTTGTAC GGAACCCAAG CCATTCCCGT GCGCCTTAAA
ATTCTGCTCG ATCGGCTATT CAGTGTTCTG AAGCAGGAAG AGGTGATACA GATTCTCCAT
GCTCTGGATT GGACACTGCA GGATTATATA CGTGGATATG TGCTACAGGA TGCTTCAGGA
AAGGTGTTGG ATCACTGGAG CATAATGACC ACTGAAGAAG AACTGGCTAC TTTGCAGCAG
TTCCTTCGCT TTGGAGAAAC TAAGTCCATT GTAGAGCTAA TGGCAATTCA AGAGAAAGAA
GGGCAGTCCA TCATAATACC ACCACCAACT GCCAATTTGG ATATTAGGGC ATTCATTGAG
AGCTGCAACC CACACAGTCC TAATTTTTCT GCTTCCTTGG ACAAAATGAG TCCCACCAGC
ATTCATCCCT TTGAGAATAT TGTAAATAGT ATGGCTTTCA TGCTGCCATT TCAGTTTTTC
AGTCCAGTGC CTCCACCTTT GATAGGTTCA CCACCAGAAA GACATTTGAT TGAGCAAGGT
CAAGACCATA GCAATGAAAC CAAACAAGAT CTTCAGATAC CATTTTCTGA AAACAGTTTC
TTAACTTCTA GTTCTGCACC ATTTCAGGTT GAAAATGAGA GGAGCATAAA TGGTCCAGAT
ATCACTAAAA CAGAAGATGA TGCCCTTTTA AGTGATTCCA GTTCACATAA TACAGCAGCC
AAGCTTGAAA TGACAGCACT ATCACCAGAA AACAAAATGA AATCTGTTGA AAAGAATGCT
GGGCCAAGGA AAGGGCGTGT CTTCTGCACT GCATGTGAAA AAACATTTTA CGATAAAGGT
ACTTTGAAAA TACATTACAA TGCTGTTCAT CTGAAGATAA AGCACAAATG CACCATTGAG
GGCTGCAATA TGGTGTTTAG CTCATTGCGT AGTCGAAATC GACATAGTGC AAATCCTAAC
CCCAGACTCC ATATGCCAAT GAACAGAAAT AACAGGGATA AAGATCTAAG AAATGGTTTG
ACCATTGCTG GACCTGGAGA TAGTAAAAGG ACAGAATTCA CAATTTTAAC TCCGGATAGC
AGAACTATTT CCAACTATGC CAGCTCTTGT ACAGATTCAA AAGGCCAGGT GGGATTTTCC
AGTATTGGAC ATAATGGTGT CCTCTTTCCA AACCTGAAGA CAGTACAGCC CGTTCTTCCT
TTTTACCGTA GTCCAGTCAC ACCAGCTGAG CTTGCCAATA CTCCAGGTAC TCTTCCTTCT
CTGCCTCTTG TTTCATCCTC AATACCAGAG CAGCTTGTTT CCAATGAATT GCCATTTGAC
ATGCTCCCCA AGAAGAAATC TCGTAAGTCC AGTATGCCCA TTAAGATAGA GAAAGAAGCT
GTTGAGACAC CCAATGAAAG TAGCGATGTT GCCAGTTCTG AAGATGATTC ACGCCTGCAG
GGGGTAAGCG ATGGAGAGCT TGAGACCTGT GAGCATAAGA TAGAGAAGCG GGTGACCGAC
AGGGTGGAAA AGCACCCCCA TTCAGGTAAT TCATGGAAAT CTCTCTCTGG GGTAGAGGGC
CCAAAGTATT TTGAATCTGT CTTTGCACCA AATAACAAAT ACATCGAGGA TATCTCTGAG
AATGAATTGC AACACTGTGA GAAAGAGGTT AAACCAGAAG AAAACCAACC ATTAAAAATA
GTTTCCCATG AGATTATATA TGAAGATCCA AAACACCACC ACAGTGATGT TATAAAACCA
GTGACTGAAC CCCCCATGTA TATTAACGAG CAGTCAAAGC ACAGGATTCC TAAAAATGAC
TGCCCTGAAT TGCAACACCA CTTGCTGACC GGGGGCTTTT TCAGCACTTT GTCAAACAGG
GGTGCTGCCA TTCCTTGTTT TGAAGACTCT AAAGATATGG ATCATGTCAG TCAACATGCA
CTAGGGATTC AGAAGGAAGA AAGCCGCTTT CATTGTGACA TCTGTAAGAA GACTTTTAAA
AACCCTTACA GTGTAAAAAT GCATTTCAAA AATGTACATC TCAAAGAAAT GCATATTTGC
ACAGTTGAGG GCTGTAATGC TGCTTTCCCT TCTCGTAGAA GTCGAGACAG ACATAGTTCA
AACCTAAATC TTCATCATAA ACTTCTGACT AAAGATACAC TGGAATTCAA CAACCATTTC
AATGCAACAT ACCTCTTGAA AGACATGGCT AAGGAGTTTT GCCAAGATGT CTCTTTAAAA
CAACACGTTG GACGTACTTC TGTAATCTTC AAAGGAATGA ACAGAACAGG CAGCTACATT
TTTCCAATGA GCAAAATTGC AGAACCCTGT TCTGAGAGTT ATGGATATGA TCCATTAAAT
GATGGAGCTG TTCTGGATCT AAGCACTACT TCCAGCGTTA AATCTGAAAG CAGTGCTCAT
TCTTCTTGGG ATTCTGATGG AGGAAGTGAA ATATGCACCA TGCCCTTGGA TGATAGTGAT
GAAAGCTGTG AAGGACCCAG CCTAATGCCC AGTGATGAAC TCTACCAAGA CTGTACTCTA
ATTGAGAAAG CTAATCAAAA CTTTATAAAC TTACCTTCCA GTTTGCCAAT AACTTGTCAT
ATATGTCAAA AAACATACAG TAATAAAGGA ACTTTCAGGG CTCATTACAA AACTGTGCAT
CTCCGCCAGC TCCACAAATG CAAAGTCCCA GGTTGCAACA CAATGTTTTC ATCTGTTCGC
AGTCGGAACA GGCACAGTCA AAACCCCAAT CTGCACAAAA GTCTGGCTGG GTCACCAACT
AGCTTACAGT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002197154.2 CDS 19..2970 Translation 
Target ORF information:
RefSeq Version XM_002197118.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata basonuclin 1 (BNC1), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002197118.2
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
2941ATGTCTGAGG CTATCCGGTG CACTCTCGTG AACTGTAGTT GTCAGTGTTT CAAACCTGGG
AAAATAAATC AGCGACAATG TGACCAGTGC CGGCATGGAT GGGTAGCACA TGCCCTGAGC
AAACTAAGGA TTCCAAACCT CTACCCATCA AGCCAAGTAG AAATAGTTCA ATCCAATGTT
GTCTTTGATA TCAGTAGCCT CATGTTGTAC GGAACCCAAG CCATTCCCGT GCGCCTTAAA
ATTCTGCTCG ATCGGCTATT CAGTGTTCTG AAGCAGGAAG AGGTGATACA GATTCTCCAT
GCTCTGGATT GGACACTGCA GGATTATATA CGTGGATATG TGCTACAGGA TGCTTCAGGA
AAGGTGTTGG ATCACTGGAG CATAATGACC ACTGAAGAAG AACTGGCTAC TTTGCAGCAG
TTCCTTCGCT TTGGAGAAAC TAAGTCCATT GTAGAGCTAA TGGCAATTCA AGAGAAAGAA
GGGCAGTCCA TCATAATACC ACCACCAACT GCCAATTTGG ATATTAGGGC ATTCATTGAG
AGCTGCAACC CACACAGTCC TAATTTTTCT GCTTCCTTGG ACAAAATGAG TCCCACCAGC
ATTCATCCCT TTGAGAATAT TGTAAATAGT ATGGCTTTCA TGCTGCCATT TCAGTTTTTC
AGTCCAGTGC CTCCACCTTT GATAGGTTCA CCACCAGAAA GACATTTGAT TGAGCAAGGT
CAAGACCATA GCAATGAAAC CAAACAAGAT CTTCAGATAC CATTTTCTGA AAACAGTTTC
TTAACTTCTA GTTCTGCACC ATTTCAGGTT GAAAATGAGA GGAGCATAAA TGGTCCAGAT
ATCACTAAAA CAGAAGATGA TGCCCTTTTA AGTGATTCCA GTTCACATAA TACAGCAGCC
AAGCTTGAAA TGACAGCACT ATCACCAGAA AACAAAATGA AATCTGTTGA AAAGAATGCT
GGGCCAAGGA AAGGGCGTGT CTTCTGCACT GCATGTGAAA AAACATTTTA CGATAAAGGT
ACTTTGAAAA TACATTACAA TGCTGTTCAT CTGAAGATAA AGCACAAATG CACCATTGAG
GGCTGCAATA TGGTGTTTAG CTCATTGCGT AGTCGAAATC GACATAGTGC AAATCCTAAC
CCCAGACTCC ATATGCCAAT GAACAGAAAT AACAGGGATA AAGATCTAAG AAATGGTTTG
ACCATTGCTG GACCTGGAGA TAGTAAAAGG ACAGAATTCA CAATTTTAAC TCCGGATAGC
AGAACTATTT CCAACTATGC CAGCTCTTGT ACAGATTCAA AAGGCCAGGT GGGATTTTCC
AGTATTGGAC ATAATGGTGT CCTCTTTCCA AACCTGAAGA CAGTACAGCC CGTTCTTCCT
TTTTACCGTA GTCCAGTCAC ACCAGCTGAG CTTGCCAATA CTCCAGGTAC TCTTCCTTCT
CTGCCTCTTG TTTCATCCTC AATACCAGAG CAGCTTGTTT CCAATGAATT GCCATTTGAC
ATGCTCCCCA AGAAGAAATC TCGTAAGTCC AGTATGCCCA TTAAGATAGA GAAAGAAGCT
GTTGAGACAC CCAATGAAAG TAGCGATGTT GCCAGTTCTG AAGATGATTC ACGCCTGCAG
GGGGTAAGCG ATGGAGAGCT TGAGACCTGT GAGCATAAGA TAGAGAAGCG GGTGACCGAC
AGGGTGGAAA AGCACCCCCA TTCAGGTAAT TCATGGAAAT CTCTCTCTGG GGTAGAGGGC
CCAAAGTATT TTGAATCTGT CTTTGCACCA AATAACAAAT ACATCGAGGA TATCTCTGAG
AATGAATTGC AACACTGTGA GAAAGAGGTT AAACCAGAAG AAAACCAACC ATTAAAAATA
GTTTCCCATG AGATTATATA TGAAGATCCA AAACACCACC ACAGTGATGT TATAAAACCA
GTGACTGAAC CCCCCATGTA TATTAACGAG CAGTCAAAGC ACAGGATTCC TAAAAATGAC
TGCCCTGAAT TGCAACACCA CTTGCTGACC GGGGGCTTTT TCAGCACTTT GTCAAACAGG
GGTGCTGCCA TTCCTTGTTT TGAAGACTCT AAAGATATGG ATCATGTCAG TCAACATGCA
CTAGGGATTC AGAAGGAAGA AAGCCGCTTT CATTGTGACA TCTGTAAGAA GACTTTTAAA
AACCCTTACA GTGTAAAAAT GCATTTCAAA AATGTACATC TCAAAGAAAT GCATATTTGC
ACAGTTGAGG GCTGTAATGC TGCTTTCCCT TCTCGTAGAA GTCGAGACAG ACATAGTTCA
AACCTAAATC TTCATCATAA ACTTCTGACT AAAGATACAC TGGAATTCAA CAACCATTTC
AATGCAACAT ACCTCTTGAA AGACATGGCT AAGGAGTTTT GCCAAGATGT CTCTTTAAAA
CAACACGTTG GACGTACTTC TGTAATCTTC AAAGGAATGA ACAGAACAGG CAGCTACATT
TTTCCAATGA GCAAAATTGC AGAACCCTGT TCTGAGAGTT ATGGATATGA TCCATTAAAT
GATGGAGCTG TTCTGGATCT AAGCACTACT TCCAGCGTTA AATCTGAAAG CAGTGCTCAT
TCTTCTTGGG ATTCTGATGG AGGAAGTGAA ATATGCACCA TGCCCTTGGA TGATAGTGAT
GAAAGCTGTG AAGGACCCAG CCTAATGCCC AGTGATGAAC TCTACCAAGA CTGTACTCTA
ATTGAGAAAG CTAATCAAAA CTTTATAAAC TTACCTTCCA GTTTGCCAAT AACTTGTCAT
ATATGTCAAA AAACATACAG TAATAAAGGA ACTTTCAGGG CTCATTACAA AACTGTGCAT
CTCCGCCAGC TCCACAAATG CAAAGTCCCA GGTTGCAACA CAATGTTTTC ATCTGTTCGC
AGTCGGAACA GGCACAGTCA AAACCCCAAT CTGCACAAAA GTCTGGCTGG GTCACCAACT
AGCTTACAGT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26661 Clone ID Related Accession (Same CDS sequence) XM_030281494.1 Accession Version XM_030281494.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3009bp)
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 zinc finger protein basonuclin-1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by 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
3001ATGTATAATC TGCACACTCT GAATGGCGCT TATATGTTAT CTATCATGCT TTCCATTGAT
CTCCAGGCTA TCCGGTGCAC TCTCGTGAAC TGTAGTTGTC AGTGTTTCAA ACCTGGGAAA
ATAAATCAGC GACAATGTGA CCAGTGCCGG CATGGATGGG TAGCACATGC CCTGAGCAAA
CTAAGGATTC CAAACCTCTA CCCATCAAGC CAAGTAGAAA TAGTTCAATC CAATGTTGTC
TTTGATATCA GTAGCCTCAT GTTGTACGGA ACCCAAGCCA TTCCCGTGCG CCTTAAAATT
CTGCTCGATC GGCTATTCAG TGTTCTGAAG CAGGAAGAGG TGATACAGAT TCTCCATGCT
CTGGATTGGA CACTGCAGGA TTATATACGT GGATATGTGC TACAGGATGC TTCAGGAAAG
GTGTTGGATC ACTGGAGCAT AATGACCACT GAAGAAGAAC TGGCTACTTT GCAGCAGTTC
CTTCGCTTTG GAGAAACTAA GTCCATTGTA GAGCTAATGG CAATTCAAGA GAAAGAAGGG
CAGTCCATCA TAATACCACC ACCAACTGCC AATTTGGATA TTAGGGCATT CATTGAGAGC
TGCAACCCAC ACAGTCCTAA TTTTTCTGCT TCCTTGGACA AAATGAGTCC CACCAGCATT
CATCCCTTTG AGAATATTGT AAATAGTATG GCTTTCATGC TGCCATTTCA GTTTTTCAGT
CCAGTGCCTC CACCTTTGAT AGGTTCACCA CCAGAAAGAC ATTTGATTGA GCAAGGTCAA
GACCATAGCA ACGAAACCAA ACAAGATCTT CAGATACCAT TTTCTGAAAA CAGTTTCTTA
ACTTCTAGTT CTGCACCATT TCAGGTTGAA AATGAGAGGA GCATAAATGG TCCAGATATC
ACTAAAACAG AAGATGATGC CCTTTTAAGT GATTCCAGTT CACATAATAC AGCAGCCAAG
CTTGAAATGA CAGCACTATC ACCAGAAAAC AAAATGAAAT CTGTTGAAAA GAATGCTGGG
CCAAGGAAAG GGCGTGTCTT CTGCACTGCA TGTGAAAAAA CATTTTACGA TAAAGGTACT
TTGAAAATAC ATTACAATGC TGTTCATCTG AAGATAAAGC ACAAATGCAC CATTGAGGGC
TGCAATATGG TGTTTAGCTC ATTGCGTAGT CGAAATCGAC ATAGTGCAAA TCCTAACCCC
AGACTCCATA TGCCAATGAA CAGAAATAAC AGGGATAAAG ATCTAAGAAA TGGTTTGACC
ATTGCTGGAC CTGGAGATAG TAAAAGGACA GAATTCACAA TTTTAACTCC GGATAGCAGA
ACTATTTCCA ACTATGCCAG CTCTTGTACA GATTCAAAAG GCCAGGTGGG ATTTTCCAGT
ATTGGACATA ATGGTGTCCT CTTTCCAAAC CTGAAGACAG TACAGCCCGT TCTTCCTTTT
TACCGTAGTC CAGTCACACC AGCTGAGCTT GCCAATACTC CAGGTACTCT TCCTTCTCTG
CCTCTTGTTT CATCCTCCAT ACCAGAGCAG CTTGTTTCCA ATGAATTGCC ATTTGACATG
CTCCCCAAGA AGAAGTCTCG TAAGTCCAGT ATGCCCATTA AGATAGAGAA AGAAGCTGTT
GAGACACCCA ATGAAAGTAG CGATGTTGCC AGTTCTGAAG ATGATTCACG CCTGCAGGGG
GTAAGCGATG GAGAGCTTGA GACCTGTGAG CATAAGATAG AGAAGCGGGT GACCGACAGG
GTGGAAAAGC ACCCCCATTC AGGTAATTCA TGGAAATCTC TCTCTGGGGT AGAGGGCCCA
AAGTATTTTG AATCTGTCTT TGCACCAAAT AACAAATACA TCGAGGATAT CTCTGAGAAT
GAATTGCAAC ACTGTGAGAA AGAGGTTAAA CCAGAAGAAA ACCAACCATT AAAAATAGTT
TCCCATGAGA TTATATATGA AGATCCAAAA CACCACCACA GTGATGTTAT AAAACCAGTG
ACTGAACCCC CCATGTATAT TAACGAGCAG TCAAAGCACA GGATTCCTAA AAATGACTGC
CCTGAATTGC AACACCACTT GCTGACCGGG GGCTTTTTCA GCACTTTGTC AAACAGGGGT
GCTGCCATTC CTTGTTTTGA AGACTCTAAA GATATGGATC ATGTCAGTCA ACATGCACTA
GGGATTCAGA AGGAAGAAAG CCGCTTTCAT TGTGACATCT GTAAGAAGAC TTTTAAAAAC
CCTTACAGTG TAAAAATGCA TTTCAAAAAT GTACATCTCA AAGAAATGCA TATTTGCACA
GTTGAGGGCT GTAATGCTGC TTTCCCTTCT CGTAGAAGTC GAGACAGACA TAGTTCAAAC
CTAAATCTTC ATCATAAACT TCTGACTAAA GATACACTGG AATTCAACAA CCATTTCAAT
GCAACATACC TCTTGAAAGA CATGGCTAAG GAGTTTTGCC AAGATGTCTC TTTAAAACAA
CACGTTGGAC GTACTTCTGT AATCTTCAAA GGAATGAACA GAACAGGCAG CTACATTTTT
CCAATGAGCA AAATTGCAGA ACCCTGTTCT GAGAGTTATG GATATGATCC ATTAAATGAT
GGAGCTGTTC TGGATCTAAG CACTACTTCC AGCGTTAAAT CTGAAAGCAG TGCTCATTCT
TCTTGGGATT CTGATGGAGG AAGTGAAATA TGCACCATGC CCTTGGATGA TAGTGATGAA
AGCTGTGAAG GACCCAGCCT AATGCCCAGT GATGAACTCT ACCAAGACTG TACTCTAATT
GAGAAAGCTA ATCAAAACTT TATAAACTTA CCTTCCAGTT TGCCAATAAC TTGTCATATA
TGTCAAAAAA CATACAGTAA TAAAGGAACT TTCAGGGCTC ATTACAAAAC TGTGCATCTC
CGCCAGCTCC ACAAATGCAA AGTCCCAGGT TGCAACACAA TGTTTTCATC TGTTCGCAGT
CGGAACAGGC ACAGTCAAAA CCCCAATCTG CACAAAAGTC TGGCTGGGTC ACCAACTAGC
TTACAGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030137354.1 CDS 299..3307 Translation
Target ORF information:
RefSeq Version XM_030281494.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata basonuclin 1 (BNC1), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030281494.1
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
3001ATGTATAATC TGCACACTCT GAATGGCGCT TATATGTTAT CTATCATGCT TTCCATTGAT
CTCCAGGCTA TCCGGTGCAC TCTCGTGAAC TGTAGTTGTC AGTGTTTCAA ACCTGGGAAA
ATAAATCAGC GACAATGTGA CCAGTGCCGG CATGGATGGG TAGCACATGC CCTGAGCAAA
CTAAGGATTC CAAACCTCTA CCCATCAAGC CAAGTAGAAA TAGTTCAATC CAATGTTGTC
TTTGATATCA GTAGCCTCAT GTTGTACGGA ACCCAAGCCA TTCCCGTGCG CCTTAAAATT
CTGCTCGATC GGCTATTCAG TGTTCTGAAG CAGGAAGAGG TGATACAGAT TCTCCATGCT
CTGGATTGGA CACTGCAGGA TTATATACGT GGATATGTGC TACAGGATGC TTCAGGAAAG
GTGTTGGATC ACTGGAGCAT AATGACCACT GAAGAAGAAC TGGCTACTTT GCAGCAGTTC
CTTCGCTTTG GAGAAACTAA GTCCATTGTA GAGCTAATGG CAATTCAAGA GAAAGAAGGG
CAGTCCATCA TAATACCACC ACCAACTGCC AATTTGGATA TTAGGGCATT CATTGAGAGC
TGCAACCCAC ACAGTCCTAA TTTTTCTGCT TCCTTGGACA AAATGAGTCC CACCAGCATT
CATCCCTTTG AGAATATTGT AAATAGTATG GCTTTCATGC TGCCATTTCA GTTTTTCAGT
CCAGTGCCTC CACCTTTGAT AGGTTCACCA CCAGAAAGAC ATTTGATTGA GCAAGGTCAA
GACCATAGCA ACGAAACCAA ACAAGATCTT CAGATACCAT TTTCTGAAAA CAGTTTCTTA
ACTTCTAGTT CTGCACCATT TCAGGTTGAA AATGAGAGGA GCATAAATGG TCCAGATATC
ACTAAAACAG AAGATGATGC CCTTTTAAGT GATTCCAGTT CACATAATAC AGCAGCCAAG
CTTGAAATGA CAGCACTATC ACCAGAAAAC AAAATGAAAT CTGTTGAAAA GAATGCTGGG
CCAAGGAAAG GGCGTGTCTT CTGCACTGCA TGTGAAAAAA CATTTTACGA TAAAGGTACT
TTGAAAATAC ATTACAATGC TGTTCATCTG AAGATAAAGC ACAAATGCAC CATTGAGGGC
TGCAATATGG TGTTTAGCTC ATTGCGTAGT CGAAATCGAC ATAGTGCAAA TCCTAACCCC
AGACTCCATA TGCCAATGAA CAGAAATAAC AGGGATAAAG ATCTAAGAAA TGGTTTGACC
ATTGCTGGAC CTGGAGATAG TAAAAGGACA GAATTCACAA TTTTAACTCC GGATAGCAGA
ACTATTTCCA ACTATGCCAG CTCTTGTACA GATTCAAAAG GCCAGGTGGG ATTTTCCAGT
ATTGGACATA ATGGTGTCCT CTTTCCAAAC CTGAAGACAG TACAGCCCGT TCTTCCTTTT
TACCGTAGTC CAGTCACACC AGCTGAGCTT GCCAATACTC CAGGTACTCT TCCTTCTCTG
CCTCTTGTTT CATCCTCCAT ACCAGAGCAG CTTGTTTCCA ATGAATTGCC ATTTGACATG
CTCCCCAAGA AGAAGTCTCG TAAGTCCAGT ATGCCCATTA AGATAGAGAA AGAAGCTGTT
GAGACACCCA ATGAAAGTAG CGATGTTGCC AGTTCTGAAG ATGATTCACG CCTGCAGGGG
GTAAGCGATG GAGAGCTTGA GACCTGTGAG CATAAGATAG AGAAGCGGGT GACCGACAGG
GTGGAAAAGC ACCCCCATTC AGGTAATTCA TGGAAATCTC TCTCTGGGGT AGAGGGCCCA
AAGTATTTTG AATCTGTCTT TGCACCAAAT AACAAATACA TCGAGGATAT CTCTGAGAAT
GAATTGCAAC ACTGTGAGAA AGAGGTTAAA CCAGAAGAAA ACCAACCATT AAAAATAGTT
TCCCATGAGA TTATATATGA AGATCCAAAA CACCACCACA GTGATGTTAT AAAACCAGTG
ACTGAACCCC CCATGTATAT TAACGAGCAG TCAAAGCACA GGATTCCTAA AAATGACTGC
CCTGAATTGC AACACCACTT GCTGACCGGG GGCTTTTTCA GCACTTTGTC AAACAGGGGT
GCTGCCATTC CTTGTTTTGA AGACTCTAAA GATATGGATC ATGTCAGTCA ACATGCACTA
GGGATTCAGA AGGAAGAAAG CCGCTTTCAT TGTGACATCT GTAAGAAGAC TTTTAAAAAC
CCTTACAGTG TAAAAATGCA TTTCAAAAAT GTACATCTCA AAGAAATGCA TATTTGCACA
GTTGAGGGCT GTAATGCTGC TTTCCCTTCT CGTAGAAGTC GAGACAGACA TAGTTCAAAC
CTAAATCTTC ATCATAAACT TCTGACTAAA GATACACTGG AATTCAACAA CCATTTCAAT
GCAACATACC TCTTGAAAGA CATGGCTAAG GAGTTTTGCC AAGATGTCTC TTTAAAACAA
CACGTTGGAC GTACTTCTGT AATCTTCAAA GGAATGAACA GAACAGGCAG CTACATTTTT
CCAATGAGCA AAATTGCAGA ACCCTGTTCT GAGAGTTATG GATATGATCC ATTAAATGAT
GGAGCTGTTC TGGATCTAAG CACTACTTCC AGCGTTAAAT CTGAAAGCAG TGCTCATTCT
TCTTGGGATT CTGATGGAGG AAGTGAAATA TGCACCATGC CCTTGGATGA TAGTGATGAA
AGCTGTGAAG GACCCAGCCT AATGCCCAGT GATGAACTCT ACCAAGACTG TACTCTAATT
GAGAAAGCTA ATCAAAACTT TATAAACTTA CCTTCCAGTT TGCCAATAAC TTGTCATATA
TGTCAAAAAA CATACAGTAA TAAAGGAACT TTCAGGGCTC ATTACAAAAC TGTGCATCTC
CGCCAGCTCC ACAAATGCAA AGTCCCAGGT TGCAACACAA TGTTTTCATC TGTTCGCAGT
CGGAACAGGC ACAGTCAAAA CCCCAATCTG CACAAAAGTC TGGCTGGGTC ACCAACTAGC
TTACAGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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