| Gene Symbol | BCR |
| Entrez Gene ID | 100220856 |
| Full Name | BCR, RhoGEF and GTPase activating protein |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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BCR cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following BCR gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BCR 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 OTd15496 Clone ID Related Accession (Same CDS sequence) XM_012578131.1 Accession Version XM_012578131.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2463bp)
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 breakpoint cluster region protein Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197395.1) 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 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
2461ATGATGCCCT ACATCGACGA CTCGCCGTCC TCCTCGCCAC ACCTCAGCTC CAAGAGCCGC
GGCAGCCGCG ACACGCTGTC CTCGGGGTCC CTGGAATCCA CCAAATCGAG TGAGCCAGAC
CTGGAGAAAG GCCTGGAGAT GAGAAAATGG GTCCTGTCAG GAATCCTAGC CAGTGAGGAA
ACCTACCTGA GCCACCTGGA GGCCCTGCTG CTGCCTATGA AGCCTTTGAA AGCCGCTGCC
ACCACCTCCC AGCCCGTGCT GACCAGTCAG CAGATTGAGA CAATATTCTT CAAAGTGCCT
GAGCTCTATG AGATCCACAA AGAATTCTAT GATGGGCTCT TTCCCCGAGT GCAGCAGTGG
AGTCACCAGC AACGTGTTGG GGACCTCTTC CAAAAGCTGG CCAGCCAGCT GGGAGTGTAC
CGGGCCTTTG TGGATAACTA TGAAGTTGCT ATGGAGACAG CAGAGAAATG CTGCCAAGCC
AATGCTCAGT TTGCTGAAAT CTCTGAGAAT CTAAAGGCCA GAAGCACAAA GGAATCTAAA
GATCAGACGA CGAAAAATTC CTTGGAAACT CTGTTGTACA AGCCAGTGGA TCGAGTGACC
CGCAGCACAC TTGTCTTGCA TGATTTGCTC AAGCACACTC CTGTGAGCCA CCCTGACCAT
CCCCTGCTGC AGGATGCTCT GCGGATCTCA CAGAACTTCC TCTCCAGCAT CAACGAGGAG
ATCACTCCTC GCCGGCAGTC CATGACTGTA AAGAAAGGGG AGCACCGGCA GCTGCTGAAG
GACAGTTTCA TGGTGGAGCT GGTGGAAGGG GCTCGCAAGC TACGCCATGT TTTTCTTTTC
ACTGACCTCT TCCTGTGTGC CAAGCTCAAG AAGCAGATTG GAGGAAAAAG CCAACAATAT
GACTGCAAGT GGTACATCCC GCTCACTGAC CTCAGTTTCC AAATGGTTGA TGAGTCTGAG
GCAGTGCCCA ATATCCCACT GGTACCTGAT GAGGAGCTGG ATGCCATGAA GATCAAGATA
TCCCAGATCA AGAATGACAT CCAGCGGGAA AAGAGAGCCA ATAAAGGCAG CAAGGTCATT
GAGAGGTTGA AAAAGAAGCT GTCGGAGCAG GAATCCCTCC TGCTGCTGAT GTCTCCCAAC
ATGGCCTTCC GGGTGCACAA TCGCAACGGC AAGAGTTACA CATTCCTCAT TTCATCGGAC
TATGAAAGGG CAGAGTGGAG GGAGAATATC CGGGAACAGC AGAAGAAATG CTTTAAAAGC
TTCTCACTCA CATCAGTAGA GCTCCAGATG CTGACAAACT CCTGTGTGAA GCTTCAGACA
GTGCACAACA TTCCCCTCAC TATCAATAAG GAAGATGATG AATCCCCAGG TCTCTATGGA
TTCCTGAATG TCATTGTCCA CTCTGCCACG GGATTCAAGC AAAGCTCAAA TTTGTACTGC
ACATTAGAGG TTGATTCTTT TGGGTATTTT GTGAACAAGG CCAAAACTAG AGTTTACAGA
GACACCACAG AGCCCAACTG GAACGAGGAG TTTGAGATTG AGCTGGAGGG CTCACAGACA
CTGCGGATTC TGTGCTATGA AAAGTGCTAC AACAAAACCA AGCTCACCAA AGAGGATGGA
GAGAGCACAG ATCGCATCAT GGGGAAAGGA CAGATCCAGC TGGACCCACA GGCACTGCAG
GACAAAGATT GGCAGCGCAC AGTCATCTCA ATGAATGGGG TGGAAGTGAA GCTGTCAGTG
AAGTTCACCA GCCGGGAGTT CAGCCTGAAA AGGATGCCGT CCCGCAAGCA GACGGGCGTG
TTTGGGGTCA AGATTGCTAT TGTCACCAAG AGAGAGAGGT CGAAGGTGCC GTACATCGTG
CGGCAGTGCG TGGAGGAGAT CGAGCGGCGC GGGATGGAGG AGGTGGGGAT CTACCGCGTC
TCTGGGGTTG CAACCGACAT CCAGGCTTTG AAAGCTGCCT TTGATGTCAA TAACAAGGAT
GTGTCAGTGA TGATGAGTGA GATGGACGTT AATGCCATTG CAGGCACCCT CAAACTGTAC
TTCCGGGAGC TGCCGGAGCC CCTCTTCACA GACGAACTGT ACCCCAACTT TGCTGAAGGC
ATCGCACTTT CAGATCCTGT TGCAAAGGAG AGCTGTATGT TGAATCTGTT GCTATCACTT
CCAGAACCCA ACCTTGTGAC ATTCCTTTTC CTTCTGGACC ATTTAAAAAG GGTTGCTGAG
AGGGAAAGCA TCAACAAGAT GTCCCTGCAT AATCTTGCCA CTGTCTTCGG ACCAACACTG
CTCAGACCTT CAGAGAAGGA CAGTAAAATC CCTGCTAACC CAACCCAGCC CATCACAATG
ACTGACAGCT GGTCACTAGA AGTCATGTCC CAGGTTCAAG TTCTTCTGTA CTTCCTGCAG
CTAGAGACTA TTCCTACCCC AGACAGCAAG AGGCAAAGCA TTCTCTTTTC TACAGAGGTG
TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433585.1 CDS 45..2507 Translation 
Target ORF information:
RefSeq Version XM_012578131.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata breakpoint cluster region (BCR), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012578131.1
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
2461ATGATGCCCT ACATCGACGA CTCGCCGTCC TCCTCGCCAC ACCTCAGCTC CAAGAGCCGC
GGCAGCCGCG ACACGCTGTC CTCGGGGTCC CTGGAATCCA CCAAATCGAG TGAGCCAGAC
CTGGAGAAAG GCCTGGAGAT GAGAAAATGG GTCCTGTCAG GAATCCTAGC CAGTGAGGAA
ACCTACCTGA GCCACCTGGA GGCCCTGCTG CTGCCTATGA AGCCTTTGAA AGCCGCTGCC
ACCACCTCCC AGCCCGTGCT GACCAGTCAG CAGATTGAGA CAATATTCTT CAAAGTGCCT
GAGCTCTATG AGATCCACAA AGAATTCTAT GATGGGCTCT TTCCCCGAGT GCAGCAGTGG
AGTCACCAGC AACGTGTTGG GGACCTCTTC CAAAAGCTGG CCAGCCAGCT GGGAGTGTAC
CGGGCCTTTG TGGATAACTA TGAAGTTGCT ATGGAGACAG CAGAGAAATG CTGCCAAGCC
AATGCTCAGT TTGCTGAAAT CTCTGAGAAT CTAAAGGCCA GAAGCACAAA GGAATCTAAA
GATCAGACGA CGAAAAATTC CTTGGAAACT CTGTTGTACA AGCCAGTGGA TCGAGTGACC
CGCAGCACAC TTGTCTTGCA TGATTTGCTC AAGCACACTC CTGTGAGCCA CCCTGACCAT
CCCCTGCTGC AGGATGCTCT GCGGATCTCA CAGAACTTCC TCTCCAGCAT CAACGAGGAG
ATCACTCCTC GCCGGCAGTC CATGACTGTA AAGAAAGGGG AGCACCGGCA GCTGCTGAAG
GACAGTTTCA TGGTGGAGCT GGTGGAAGGG GCTCGCAAGC TACGCCATGT TTTTCTTTTC
ACTGACCTCT TCCTGTGTGC CAAGCTCAAG AAGCAGATTG GAGGAAAAAG CCAACAATAT
GACTGCAAGT GGTACATCCC GCTCACTGAC CTCAGTTTCC AAATGGTTGA TGAGTCTGAG
GCAGTGCCCA ATATCCCACT GGTACCTGAT GAGGAGCTGG ATGCCATGAA GATCAAGATA
TCCCAGATCA AGAATGACAT CCAGCGGGAA AAGAGAGCCA ATAAAGGCAG CAAGGTCATT
GAGAGGTTGA AAAAGAAGCT GTCGGAGCAG GAATCCCTCC TGCTGCTGAT GTCTCCCAAC
ATGGCCTTCC GGGTGCACAA TCGCAACGGC AAGAGTTACA CATTCCTCAT TTCATCGGAC
TATGAAAGGG CAGAGTGGAG GGAGAATATC CGGGAACAGC AGAAGAAATG CTTTAAAAGC
TTCTCACTCA CATCAGTAGA GCTCCAGATG CTGACAAACT CCTGTGTGAA GCTTCAGACA
GTGCACAACA TTCCCCTCAC TATCAATAAG GAAGATGATG AATCCCCAGG TCTCTATGGA
TTCCTGAATG TCATTGTCCA CTCTGCCACG GGATTCAAGC AAAGCTCAAA TTTGTACTGC
ACATTAGAGG TTGATTCTTT TGGGTATTTT GTGAACAAGG CCAAAACTAG AGTTTACAGA
GACACCACAG AGCCCAACTG GAACGAGGAG TTTGAGATTG AGCTGGAGGG CTCACAGACA
CTGCGGATTC TGTGCTATGA AAAGTGCTAC AACAAAACCA AGCTCACCAA AGAGGATGGA
GAGAGCACAG ATCGCATCAT GGGGAAAGGA CAGATCCAGC TGGACCCACA GGCACTGCAG
GACAAAGATT GGCAGCGCAC AGTCATCTCA ATGAATGGGG TGGAAGTGAA GCTGTCAGTG
AAGTTCACCA GCCGGGAGTT CAGCCTGAAA AGGATGCCGT CCCGCAAGCA GACGGGCGTG
TTTGGGGTCA AGATTGCTAT TGTCACCAAG AGAGAGAGGT CGAAGGTGCC GTACATCGTG
CGGCAGTGCG TGGAGGAGAT CGAGCGGCGC GGGATGGAGG AGGTGGGGAT CTACCGCGTC
TCTGGGGTTG CAACCGACAT CCAGGCTTTG AAAGCTGCCT TTGATGTCAA TAACAAGGAT
GTGTCAGTGA TGATGAGTGA GATGGACGTT AATGCCATTG CAGGCACCCT CAAACTGTAC
TTCCGGGAGC TGCCGGAGCC CCTCTTCACA GACGAACTGT ACCCCAACTT TGCTGAAGGC
ATCGCACTTT CAGATCCTGT TGCAAAGGAG AGCTGTATGT TGAATCTGTT GCTATCACTT
CCAGAACCCA ACCTTGTGAC ATTCCTTTTC CTTCTGGACC ATTTAAAAAG GGTTGCTGAG
AGGGAAAGCA TCAACAAGAT GTCCCTGCAT AATCTTGCCA CTGTCTTCGG ACCAACACTG
CTCAGACCTT CAGAGAAGGA CAGTAAAATC CCTGCTAACC CAACCCAGCC CATCACAATG
ACTGACAGCT GGTCACTAGA AGTCATGTCC CAGGTTCAAG TTCTTCTGTA CTTCCTGCAG
CTAGAGACTA TTCCTACCCC AGACAGCAAG AGGCAAAGCA TTCTCTTTTC TACAGAGGTG
TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd30204 Clone ID Related Accession (Same CDS sequence) XM_012578131.2 Accession Version XM_012578131.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
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 breakpoint cluster region protein Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044227.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012578131.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021ATGGTGGACC CTGTGGGGTT TGTAGAGGCT TGGAAAGCAC AATTTGCAGA CTCTGAGCCT
CCTAAAATGG AGCTGAAGTC TGTGGGAGAC ATTGAACAGG AACTGGAGAT GTGCAAAGCA
TCTATCCGGA GACTGGAGAT GGAGGTTAAT AAGGAGAGGT TCCGCATGAT TTACCTGCAG
ACTCTTCTGG CAAAGGAGAA AAAAAGCTAT GATAGACAGA GATGGGGTTT TAAACGTGTT
TCTCAGTTGC CTGAAGGGGG TGCAGAGCAG CAGATCCAGG ACCTGCATCA TCACCAGTCT
GCTGACCAAG ACGAATATGA AAAAAGCAAG TCACATCATG GGGAGGAAAA GTTCAAACCA
CGGATACCCT CTATGCGGAA GCTGTCTACC CAGAGTGATG GGTCAGACCT GTCGCCTTTG
GACAGCCCCC ACCATGGAGA AGGAGAGCAG GACAGGTGTA AGTACTATGG TGAAGAGAAA
CTGAAGAGAG TTGTAGAAGA CATGGAGAAT CGCTGTGATA CAGATGGCTC TCCTTCAAAA
CACAGATCGG CTTCCAGTCG CAGGCTGGTG GGATCTGCTG AGAAGGAGGG ATCATTTGAA
CCTAAGGAGA GAGGGAACAG CACCAGTGTG GCAGCCCTAA GGTCCAATTT TGAGAGAATG
AAAAAGGTTA ATTCACATTC TTCTGGTGAA AACAAGGATG TTATTGAAAA GCCCTTTTAT
GTGAACATGG AGTATCATCA TGAGAAGGGT CTAGTAAAGG TCAACGATAA AGATGTTTCT
GATAAAATAA GCTCCCTTGG TAGCCAAGCC ATGCAAATGG AACGAAAAAA GTCTTTGCAC
TCCCTGCCTT CTAACATGGT ACCCAGCTTC AGCGAGTTCC AGAGGCCTGC CTACAGGGGA
AGGTCCTCAG AGAGCAGCTT TGGCTACGAT GGAGAATATG AGGATGCTGA ACTGAACCCC
AAGTTTCTTA AAGATAACCT GATTAATGCC AATGGCAGCA ACCGCTCACC TTGGCAGCCC
ATGGACTTTC AGCCGTATCA GAGTATCTAT GTTGGTGGAA TGATGGGGGA AGGAGAAGGA
AAAGGACCTA TTCTGCGAAA TCAGGGCCCA CCTGACCAGG AAAAACATCT CACGTGGCCC
AGGAGATCTT ATTCCCCCAG AAGTTTTGAA GATATTGGAG GAGGGTATAC TCCTGATTGT
AGCTCTAATG AGAACCTTAC CTCCAGTGAG GAAGACTTCT CCTCAGGACA GTCCAGCCAT
GTCTCCCCCA GCCCCACCAC TTACCGCATG TATCGGGATA AAAGCCGTTC CCCCTCCCAG
AACTCCCAGC AGTCCTTTGA CAGCAGCAGC CCACCAACCC CCCAGTCTCA AAAACGGCAC
CGGCAGCAGC AGGTCATCGT GTCTGAGGCC ACTATAGTGG GTGTACGAAA AACAGGACAG
ATCTGGCCAA GTGATGGAGA TCTGCCCTCT GCGAGATGTC ACCAGGACAG CTGTTTCCAC
GGGGATACAG ATGCCCCGTT CCGGGGGACC CCGCCCGGCT ACGCGTACGA TGCTGACCGC
GCCGAGGAGC AGCAGCGGCA CCATGACATG ATGCCCTACA TCGACGACTC GCCGTCCTCC
TCGCCACACC TCAGCTCCAA GAGCCGCGGC AGCCGCGACA CGCTGTCCTC GGGGTCCCTG
GAATCCACCA AATCGAGTGA GCCAGACCTG GAGAAAGGCC TGGAGATGAG AAAATGGGTC
CTGTCAGGAA TCCTAGCCAG TGAGGAAACC TACCTGAGCC ACCTGGAGGC CCTGCTGCTG
CCTATGAAGC CTTTGAAAGC CGCTGCCACC ACCTCCCAGC CCGTGCTGAC CAGTCAGCAG
ATTGAGACAA TATTCTTCAA AGTGCCTGAG CTCTATGAGA TCCACAAAGA ATTCTATGAT
GGGCTCTTTC CCCGAGTGCA GCAGTGGAGT CACCAGCAAC GTGTTGGGGA CCTCTTCCAA
AAGCTGGCCA GCCAGCTGGG AGTGTACCGG GCCTTTGTGG ATAACTATGA AGTTGCTATG
GAGACAGCAG AGAAATGCTG CCAAGCCAAT GCTCAGTTTG CTGAAATCTC TGAGAATCTA
AAGGCCAGAA GCACAAAGGA ATCTAAAGAT CAGACGACGA AAAATTCCTT GGAAACTCTG
TTGTACAAGC CAGTGGATCG AGTGACCCGC AGCACACTTG TCTTGCATGA TTTGCTCAAG
CACACTCCTG TGAGCCACCC TGACCATCCC CTGCTGCAGG ATGCTCTGCG GATCTCACAG
AACTTCCTCT CCAGCATCAA CGAGGAGATC ACTCCTCGCC GGCAGTCCAT GACTGTAAAG
AAAGGGGAGC ACCGGCAGCT GCTGAAGGAC AGTTTCATGG TGGAGCTGGT GGAAGGGGCT
CGCAAGCTAC GCCATGTTTT TCTTTTCACT GACCTCTTCC TGTGTGCCAA GCTCAAGAAG
CAGATTGGAG GAAAAAGCCA ACAATATGAC TGCAAGTGGT ACATCCCGCT CACTGACCTC
AGTTTCCAAA TGGTTGATGA GTCTGAGGCA GTGCCCAATA TCCCACTGGT ACCTGATGAG
GAGCTGGATG CCATGAAGAT CAAGATATCC CAGATCAAGA ATGACATCCA GCGGGAAAAG
AGAGCCAATA AAGGCAGCAA GGTCATTGAG AGGTTGAAAA AGAAGCTGTC GGAGCAGGAA
TCCCTCCTGC TGCTGATGTC TCCCAACATG GCCTTCCGGG TGCACAATCG CAACGGCAAG
AGTTACACAT TCCTCATTTC ATCGGACTAT GAAAGGGCAG AGTGGAGGGA GAATATCCGG
GAACAGCAGA AGAAATGCTT TAAAAGCTTC TCACTCACAT CAGTAGAGCT CCAGATGCTG
ACAAACTCCT GTGTGAAGCT TCAGACAGTG CACAACATTC CCCTCACTAT CAATAAGGAA
GATGACGAAT CCCCAGGTCT CTATGGATTC CTGAATGTCA TTGTCCACTC TGCCACGGGA
TTCAAGCAAA GCTCAAATTT GTACTGCACA TTAGAGGTTG ATTCTTTTGG GTATTTTGTG
AACAAGGCCA AAACTAGAGT TTACAGAGAC ACCACAGAGC CCAACTGGAA CGAGGAGTTT
GAGATTGAGC TGGAGGGCTC ACAGACACTG CGGATTCTGT GCTATGAAAA GTGCTACAAC
AAAACCAAGC TCACCAAAGA GGATGGAGAG AGCACAGATC GCATCATGGG GAAAGGACAG
ATCCAGCTGG ACCCACAGGC ACTGCAGGAC AAAGATTGGC AGCGCACAGT CATCTCAATG
AATGGGGTGG AAGTGAAGCT GTCAGTGAAG TTCACCAGCC GGGAGTTCAG CCTGAAAAGG
ATGCCGTCCC GCAAGCAGAC GGGCGTGTTT GGGGTCAAGA TTGCTATTGT CACCAAGAGA
GAGAGGTCGA AGGTGCCGTA CATCGTGCGG CAGTGCGTGG AGGAGATCGA GCGGCGCGGG
ATGGAGGAGG TGGGGATCTA CCGCGTCTCT GGGGTTGCAA CCGACATCCA GGCTTTGAAA
GCTGCCTTTG ATGTCAATAA CAAGGATGTG TCAGTGATGA TGAGTGAGAT GGACGTTAAT
GCCATTGCAG GCACCCTCAA ACTGTACTTC CGGGAGCTGC CGGAGCCCCT CTTCACAGAC
GAACTGTACC CCAACTTTGC TGAAGGCATC GCACTTTCAG ATCCTGTTGC AAAGGAGAGC
TGTATGTTGA ATCTGTTGCT ATCACTTCCA GAACCCAACC TTGTGACATT CCTTTTCCTT
CTGGACCATT TAAAAAGGGT TGCTGAGAGG GAAAGCATCA ACAAGATGTC CCTGCATAAT
CTTGCCACTG TCTTCGGACC AACACTGCTC AGACCTTCAG AGAAGGATAG TAAAATCCCT
GCTAACCCAA CCCAGCCCAT CACAATGACT GACAGCTGGT CACTAGAAGT CATGTCCCAG
GTTCAAGTTC TTCTGTACTT CCTGCAGCTA GAGACTATTC CTACCCCAGA CAGCAAGAGG
CAAAGCATTC TCTTTTCTAC AGAGGTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433585.2 CDS 450..4499 Translation
Target ORF information:
RefSeq Version XM_012578131.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata BCR activator of RhoGEF and GTPase (BCR), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012578131.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021ATGGTGGACC CTGTGGGGTT TGTAGAGGCT TGGAAAGCAC AATTTGCAGA CTCTGAGCCT
CCTAAAATGG AGCTGAAGTC TGTGGGAGAC ATTGAACAGG AACTGGAGAT GTGCAAAGCA
TCTATCCGGA GACTGGAGAT GGAGGTTAAT AAGGAGAGGT TCCGCATGAT TTACCTGCAG
ACTCTTCTGG CAAAGGAGAA AAAAAGCTAT GATAGACAGA GATGGGGTTT TAAACGTGTT
TCTCAGTTGC CTGAAGGGGG TGCAGAGCAG CAGATCCAGG ACCTGCATCA TCACCAGTCT
GCTGACCAAG ACGAATATGA AAAAAGCAAG TCACATCATG GGGAGGAAAA GTTCAAACCA
CGGATACCCT CTATGCGGAA GCTGTCTACC CAGAGTGATG GGTCAGACCT GTCGCCTTTG
GACAGCCCCC ACCATGGAGA AGGAGAGCAG GACAGGTGTA AGTACTATGG TGAAGAGAAA
CTGAAGAGAG TTGTAGAAGA CATGGAGAAT CGCTGTGATA CAGATGGCTC TCCTTCAAAA
CACAGATCGG CTTCCAGTCG CAGGCTGGTG GGATCTGCTG AGAAGGAGGG ATCATTTGAA
CCTAAGGAGA GAGGGAACAG CACCAGTGTG GCAGCCCTAA GGTCCAATTT TGAGAGAATG
AAAAAGGTTA ATTCACATTC TTCTGGTGAA AACAAGGATG TTATTGAAAA GCCCTTTTAT
GTGAACATGG AGTATCATCA TGAGAAGGGT CTAGTAAAGG TCAACGATAA AGATGTTTCT
GATAAAATAA GCTCCCTTGG TAGCCAAGCC ATGCAAATGG AACGAAAAAA GTCTTTGCAC
TCCCTGCCTT CTAACATGGT ACCCAGCTTC AGCGAGTTCC AGAGGCCTGC CTACAGGGGA
AGGTCCTCAG AGAGCAGCTT TGGCTACGAT GGAGAATATG AGGATGCTGA ACTGAACCCC
AAGTTTCTTA AAGATAACCT GATTAATGCC AATGGCAGCA ACCGCTCACC TTGGCAGCCC
ATGGACTTTC AGCCGTATCA GAGTATCTAT GTTGGTGGAA TGATGGGGGA AGGAGAAGGA
AAAGGACCTA TTCTGCGAAA TCAGGGCCCA CCTGACCAGG AAAAACATCT CACGTGGCCC
AGGAGATCTT ATTCCCCCAG AAGTTTTGAA GATATTGGAG GAGGGTATAC TCCTGATTGT
AGCTCTAATG AGAACCTTAC CTCCAGTGAG GAAGACTTCT CCTCAGGACA GTCCAGCCAT
GTCTCCCCCA GCCCCACCAC TTACCGCATG TATCGGGATA AAAGCCGTTC CCCCTCCCAG
AACTCCCAGC AGTCCTTTGA CAGCAGCAGC CCACCAACCC CCCAGTCTCA AAAACGGCAC
CGGCAGCAGC AGGTCATCGT GTCTGAGGCC ACTATAGTGG GTGTACGAAA AACAGGACAG
ATCTGGCCAA GTGATGGAGA TCTGCCCTCT GCGAGATGTC ACCAGGACAG CTGTTTCCAC
GGGGATACAG ATGCCCCGTT CCGGGGGACC CCGCCCGGCT ACGCGTACGA TGCTGACCGC
GCCGAGGAGC AGCAGCGGCA CCATGACATG ATGCCCTACA TCGACGACTC GCCGTCCTCC
TCGCCACACC TCAGCTCCAA GAGCCGCGGC AGCCGCGACA CGCTGTCCTC GGGGTCCCTG
GAATCCACCA AATCGAGTGA GCCAGACCTG GAGAAAGGCC TGGAGATGAG AAAATGGGTC
CTGTCAGGAA TCCTAGCCAG TGAGGAAACC TACCTGAGCC ACCTGGAGGC CCTGCTGCTG
CCTATGAAGC CTTTGAAAGC CGCTGCCACC ACCTCCCAGC CCGTGCTGAC CAGTCAGCAG
ATTGAGACAA TATTCTTCAA AGTGCCTGAG CTCTATGAGA TCCACAAAGA ATTCTATGAT
GGGCTCTTTC CCCGAGTGCA GCAGTGGAGT CACCAGCAAC GTGTTGGGGA CCTCTTCCAA
AAGCTGGCCA GCCAGCTGGG AGTGTACCGG GCCTTTGTGG ATAACTATGA AGTTGCTATG
GAGACAGCAG AGAAATGCTG CCAAGCCAAT GCTCAGTTTG CTGAAATCTC TGAGAATCTA
AAGGCCAGAA GCACAAAGGA ATCTAAAGAT CAGACGACGA AAAATTCCTT GGAAACTCTG
TTGTACAAGC CAGTGGATCG AGTGACCCGC AGCACACTTG TCTTGCATGA TTTGCTCAAG
CACACTCCTG TGAGCCACCC TGACCATCCC CTGCTGCAGG ATGCTCTGCG GATCTCACAG
AACTTCCTCT CCAGCATCAA CGAGGAGATC ACTCCTCGCC GGCAGTCCAT GACTGTAAAG
AAAGGGGAGC ACCGGCAGCT GCTGAAGGAC AGTTTCATGG TGGAGCTGGT GGAAGGGGCT
CGCAAGCTAC GCCATGTTTT TCTTTTCACT GACCTCTTCC TGTGTGCCAA GCTCAAGAAG
CAGATTGGAG GAAAAAGCCA ACAATATGAC TGCAAGTGGT ACATCCCGCT CACTGACCTC
AGTTTCCAAA TGGTTGATGA GTCTGAGGCA GTGCCCAATA TCCCACTGGT ACCTGATGAG
GAGCTGGATG CCATGAAGAT CAAGATATCC CAGATCAAGA ATGACATCCA GCGGGAAAAG
AGAGCCAATA AAGGCAGCAA GGTCATTGAG AGGTTGAAAA AGAAGCTGTC GGAGCAGGAA
TCCCTCCTGC TGCTGATGTC TCCCAACATG GCCTTCCGGG TGCACAATCG CAACGGCAAG
AGTTACACAT TCCTCATTTC ATCGGACTAT GAAAGGGCAG AGTGGAGGGA GAATATCCGG
GAACAGCAGA AGAAATGCTT TAAAAGCTTC TCACTCACAT CAGTAGAGCT CCAGATGCTG
ACAAACTCCT GTGTGAAGCT TCAGACAGTG CACAACATTC CCCTCACTAT CAATAAGGAA
GATGACGAAT CCCCAGGTCT CTATGGATTC CTGAATGTCA TTGTCCACTC TGCCACGGGA
TTCAAGCAAA GCTCAAATTT GTACTGCACA TTAGAGGTTG ATTCTTTTGG GTATTTTGTG
AACAAGGCCA AAACTAGAGT TTACAGAGAC ACCACAGAGC CCAACTGGAA CGAGGAGTTT
GAGATTGAGC TGGAGGGCTC ACAGACACTG CGGATTCTGT GCTATGAAAA GTGCTACAAC
AAAACCAAGC TCACCAAAGA GGATGGAGAG AGCACAGATC GCATCATGGG GAAAGGACAG
ATCCAGCTGG ACCCACAGGC ACTGCAGGAC AAAGATTGGC AGCGCACAGT CATCTCAATG
AATGGGGTGG AAGTGAAGCT GTCAGTGAAG TTCACCAGCC GGGAGTTCAG CCTGAAAAGG
ATGCCGTCCC GCAAGCAGAC GGGCGTGTTT GGGGTCAAGA TTGCTATTGT CACCAAGAGA
GAGAGGTCGA AGGTGCCGTA CATCGTGCGG CAGTGCGTGG AGGAGATCGA GCGGCGCGGG
ATGGAGGAGG TGGGGATCTA CCGCGTCTCT GGGGTTGCAA CCGACATCCA GGCTTTGAAA
GCTGCCTTTG ATGTCAATAA CAAGGATGTG TCAGTGATGA TGAGTGAGAT GGACGTTAAT
GCCATTGCAG GCACCCTCAA ACTGTACTTC CGGGAGCTGC CGGAGCCCCT CTTCACAGAC
GAACTGTACC CCAACTTTGC TGAAGGCATC GCACTTTCAG ATCCTGTTGC AAAGGAGAGC
TGTATGTTGA ATCTGTTGCT ATCACTTCCA GAACCCAACC TTGTGACATT CCTTTTCCTT
CTGGACCATT TAAAAAGGGT TGCTGAGAGG GAAAGCATCA ACAAGATGTC CCTGCATAAT
CTTGCCACTG TCTTCGGACC AACACTGCTC AGACCTTCAG AGAAGGATAG TAAAATCCCT
GCTAACCCAA CCCAGCCCAT CACAATGACT GACAGCTGGT CACTAGAAGT CATGTCCCAG
GTTCAAGTTC TTCTGTACTT CCTGCAGCTA GAGACTATTC CTACCCCAGA CAGCAAGAGG
CAAAGCATTC TCTTTTCTAC AGAGGTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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