| Gene Symbol | BRPF1 |
| Entrez Gene ID | 100220730 |
| Full Name | bromodomain and PHD finger containing 1 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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BRPF1 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following BRPF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BRPF1 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 OTd27714 Clone ID Related Accession (Same CDS sequence) XM_030282833.1 Accession Version XM_030282833.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3717bp)
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 peregrin isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044224.1) 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
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GAAGATGTGC GGCTGCTGCT CTCAGAGAAT
CAGAAGCACC TGCCGCTGGA GGAGCAGCTA AAGATCCTGC TGGAGCGGCT GGACGAGGTC
AACGCTGGCA AGCAGAGCAT AGGACGGTCC CGCCGGGCCA AGATGATCAA GAAGGAGATC
ACAGTCCTAC GGCGGAAGCT CGCTCACCCG CGGGACCTGG GCCGGGATGG GCTGGAGCGG
CACAGCTCCT CTGCCAGGGG AGTCCTGCAG TCCCACAACC CCTGTGAGAA GGACCTGCAG
ACAGACAGTG CTGCAGAGGA GAGCAGCAGC CAGGAGACTG GCAAAGGTCT GGGTCCCAAT
TCTTCTTCTA CCCCAGCACA TGAAGTTGGC AGGAGGACCT CTGTGCTCTT CTCCAAGAAG
AACCCTAAAA CTGCAGGCCC TCCAAAACGT CCAGGACGCC CCCCAAAGAA TCGAGACAGC
CAGATCCCTC CTGGGCATGG GAGCAGCCCC ATTGGGCCTC CCCAGCTACC AATAATGGGG
TCCTCCCAGC GGCAGAGGAA GCGAGGGCGA AGCCCACGTC CCAGCTCCAG CTCAGACAGT
GACAGTGACA AATCCACGGA GGACGCTACC ATGGACCTGC CAGCCAACGG TTTCAGCAGC
GGGAACCAGC CCGTGAAGAA GAGCTTCCTG GTGTACCGCA ATGACTGCAA TCTTCCCCGG
AGCAGCTCCG ACTCGGAGTC CAGCAGCAGC AGCAGCAGCA GCGCTGCCTC AGACCGCACC
AGCACAACAC CCTCCAAGCA GGGCAGAGGG AAACCCTCCT TCTCTCGAGT GAACTTCCCA
GAAGACAGCA GTGAGGACAC ATCAGGGACA GAGAACGAGT CCTACTCCGT GGGCACGGGA
CGAGGTGTGG GGCATGGCAT GGTGCGTAAG GGAATGGGGC GTGGCGCAGG GTGGCTCTCT
GAGGACGAGG ATTCTTCCCT GGATGCCCTG GACCTGGTGT GGGCTAAGTG CCGGGGTTAC
CCCTCCTACC CGGCGTTGAT CATTGACCCC AAGATGCCGC GGGAAGGCAT GTTCCACCAT
GGGGTCCCCA TCCCCGTGCC CCCCTTGGAG GTGCTGAAGC TGGGGGAGCA GATGACTCAG
GAAGCACGCG AGCACCTCTA CCTTGTTCTC TTCTTTGACA ACAAGCGCAC TTGGCAGTGG
TTGCCCCGGA CGAAGCTGGT GCCTCTGGGG GTGAACCAAG ACCTGGACAA AGAGAAGATG
CTGGAGGGCC GCAAGTCCAA CATCCGCAAG TCGGTGCAGA TCGCCTACCA CCGCGCCATG
CAGCACCGCA ACAAGGTGCA GGGCGAGCAG AGCAGCGACT CCAGCGAGAG CGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030138693.1 CDS 68..3784 Translation 
Target ORF information:
RefSeq Version XM_030282833.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata bromodomain and PHD finger containing 1 (BRPF1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_030282833.1
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
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GAAGATGTGC GGCTGCTGCT CTCAGAGAAT
CAGAAGCACC TGCCGCTGGA GGAGCAGCTA AAGATCCTGC TGGAGCGGCT GGACGAGGTC
AACGCTGGCA AGCAGAGCAT AGGACGGTCC CGCCGGGCCA AGATGATCAA GAAGGAGATC
ACAGTCCTAC GGCGGAAGCT CGCTCACCCG CGGGACCTGG GCCGGGATGG GCTGGAGCGG
CACAGCTCCT CTGCCAGGGG AGTCCTGCAG TCCCACAACC CCTGTGAGAA GGACCTGCAG
ACAGACAGTG CTGCAGAGGA GAGCAGCAGC CAGGAGACTG GCAAAGGTCT GGGTCCCAAT
TCTTCTTCTA CCCCAGCACA TGAAGTTGGC AGGAGGACCT CTGTGCTCTT CTCCAAGAAG
AACCCTAAAA CTGCAGGCCC TCCAAAACGT CCAGGACGCC CCCCAAAGAA TCGAGACAGC
CAGATCCCTC CTGGGCATGG GAGCAGCCCC ATTGGGCCTC CCCAGCTACC AATAATGGGG
TCCTCCCAGC GGCAGAGGAA GCGAGGGCGA AGCCCACGTC CCAGCTCCAG CTCAGACAGT
GACAGTGACA AATCCACGGA GGACGCTACC ATGGACCTGC CAGCCAACGG TTTCAGCAGC
GGGAACCAGC CCGTGAAGAA GAGCTTCCTG GTGTACCGCA ATGACTGCAA TCTTCCCCGG
AGCAGCTCCG ACTCGGAGTC CAGCAGCAGC AGCAGCAGCA GCGCTGCCTC AGACCGCACC
AGCACAACAC CCTCCAAGCA GGGCAGAGGG AAACCCTCCT TCTCTCGAGT GAACTTCCCA
GAAGACAGCA GTGAGGACAC ATCAGGGACA GAGAACGAGT CCTACTCCGT GGGCACGGGA
CGAGGTGTGG GGCATGGCAT GGTGCGTAAG GGAATGGGGC GTGGCGCAGG GTGGCTCTCT
GAGGACGAGG ATTCTTCCCT GGATGCCCTG GACCTGGTGT GGGCTAAGTG CCGGGGTTAC
CCCTCCTACC CGGCGTTGAT CATTGACCCC AAGATGCCGC GGGAAGGCAT GTTCCACCAT
GGGGTCCCCA TCCCCGTGCC CCCCTTGGAG GTGCTGAAGC TGGGGGAGCA GATGACTCAG
GAAGCACGCG AGCACCTCTA CCTTGTTCTC TTCTTTGACA ACAAGCGCAC TTGGCAGTGG
TTGCCCCGGA CGAAGCTGGT GCCTCTGGGG GTGAACCAAG ACCTGGACAA AGAGAAGATG
CTGGAGGGCC GCAAGTCCAA CATCCGCAAG TCGGTGCAGA TCGCCTACCA CCGCGCCATG
CAGCACCGCA ACAAGGTGCA GGGCGAGCAG AGCAGCGACT CCAGCGAGAG CGACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd27715 Clone ID Related Accession (Same CDS sequence) XM_030282834.1 Accession Version XM_030282834.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3714bp)
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 peregrin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044224.1) 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
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GATGTGCGGC TGCTGCTCTC AGAGAATCAG
AAGCACCTGC CGCTGGAGGA GCAGCTAAAG ATCCTGCTGG AGCGGCTGGA CGAGGTCAAC
GCTGGCAAGC AGAGCATAGG ACGGTCCCGC CGGGCCAAGA TGATCAAGAA GGAGATCACA
GTCCTACGGC GGAAGCTCGC TCACCCGCGG GACCTGGGCC GGGATGGGCT GGAGCGGCAC
AGCTCCTCTG CCAGGGGAGT CCTGCAGTCC CACAACCCCT GTGAGAAGGA CCTGCAGACA
GACAGTGCTG CAGAGGAGAG CAGCAGCCAG GAGACTGGCA AAGGTCTGGG TCCCAATTCT
TCTTCTACCC CAGCACATGA AGTTGGCAGG AGGACCTCTG TGCTCTTCTC CAAGAAGAAC
CCTAAAACTG CAGGCCCTCC AAAACGTCCA GGACGCCCCC CAAAGAATCG AGACAGCCAG
ATCCCTCCTG GGCATGGGAG CAGCCCCATT GGGCCTCCCC AGCTACCAAT AATGGGGTCC
TCCCAGCGGC AGAGGAAGCG AGGGCGAAGC CCACGTCCCA GCTCCAGCTC AGACAGTGAC
AGTGACAAAT CCACGGAGGA CGCTACCATG GACCTGCCAG CCAACGGTTT CAGCAGCGGG
AACCAGCCCG TGAAGAAGAG CTTCCTGGTG TACCGCAATG ACTGCAATCT TCCCCGGAGC
AGCTCCGACT CGGAGTCCAG CAGCAGCAGC AGCAGCAGCG CTGCCTCAGA CCGCACCAGC
ACAACACCCT CCAAGCAGGG CAGAGGGAAA CCCTCCTTCT CTCGAGTGAA CTTCCCAGAA
GACAGCAGTG AGGACACATC AGGGACAGAG AACGAGTCCT ACTCCGTGGG CACGGGACGA
GGTGTGGGGC ATGGCATGGT GCGTAAGGGA ATGGGGCGTG GCGCAGGGTG GCTCTCTGAG
GACGAGGATT CTTCCCTGGA TGCCCTGGAC CTGGTGTGGG CTAAGTGCCG GGGTTACCCC
TCCTACCCGG CGTTGATCAT TGACCCCAAG ATGCCGCGGG AAGGCATGTT CCACCATGGG
GTCCCCATCC CCGTGCCCCC CTTGGAGGTG CTGAAGCTGG GGGAGCAGAT GACTCAGGAA
GCACGCGAGC ACCTCTACCT TGTTCTCTTC TTTGACAACA AGCGCACTTG GCAGTGGTTG
CCCCGGACGA AGCTGGTGCC TCTGGGGGTG AACCAAGACC TGGACAAAGA GAAGATGCTG
GAGGGCCGCA AGTCCAACAT CCGCAAGTCG GTGCAGATCG CCTACCACCG CGCCATGCAG
CACCGCAACA AGGTGCAGGG CGAGCAGAGC AGCGACTCCA GCGAGAGCGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030138694.1 CDS 68..3781 Translation
Target ORF information:
RefSeq Version XM_030282834.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata bromodomain and PHD finger containing 1 (BRPF1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030282834.1
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
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GATGTGCGGC TGCTGCTCTC AGAGAATCAG
AAGCACCTGC CGCTGGAGGA GCAGCTAAAG ATCCTGCTGG AGCGGCTGGA CGAGGTCAAC
GCTGGCAAGC AGAGCATAGG ACGGTCCCGC CGGGCCAAGA TGATCAAGAA GGAGATCACA
GTCCTACGGC GGAAGCTCGC TCACCCGCGG GACCTGGGCC GGGATGGGCT GGAGCGGCAC
AGCTCCTCTG CCAGGGGAGT CCTGCAGTCC CACAACCCCT GTGAGAAGGA CCTGCAGACA
GACAGTGCTG CAGAGGAGAG CAGCAGCCAG GAGACTGGCA AAGGTCTGGG TCCCAATTCT
TCTTCTACCC CAGCACATGA AGTTGGCAGG AGGACCTCTG TGCTCTTCTC CAAGAAGAAC
CCTAAAACTG CAGGCCCTCC AAAACGTCCA GGACGCCCCC CAAAGAATCG AGACAGCCAG
ATCCCTCCTG GGCATGGGAG CAGCCCCATT GGGCCTCCCC AGCTACCAAT AATGGGGTCC
TCCCAGCGGC AGAGGAAGCG AGGGCGAAGC CCACGTCCCA GCTCCAGCTC AGACAGTGAC
AGTGACAAAT CCACGGAGGA CGCTACCATG GACCTGCCAG CCAACGGTTT CAGCAGCGGG
AACCAGCCCG TGAAGAAGAG CTTCCTGGTG TACCGCAATG ACTGCAATCT TCCCCGGAGC
AGCTCCGACT CGGAGTCCAG CAGCAGCAGC AGCAGCAGCG CTGCCTCAGA CCGCACCAGC
ACAACACCCT CCAAGCAGGG CAGAGGGAAA CCCTCCTTCT CTCGAGTGAA CTTCCCAGAA
GACAGCAGTG AGGACACATC AGGGACAGAG AACGAGTCCT ACTCCGTGGG CACGGGACGA
GGTGTGGGGC ATGGCATGGT GCGTAAGGGA ATGGGGCGTG GCGCAGGGTG GCTCTCTGAG
GACGAGGATT CTTCCCTGGA TGCCCTGGAC CTGGTGTGGG CTAAGTGCCG GGGTTACCCC
TCCTACCCGG CGTTGATCAT TGACCCCAAG ATGCCGCGGG AAGGCATGTT CCACCATGGG
GTCCCCATCC CCGTGCCCCC CTTGGAGGTG CTGAAGCTGG GGGAGCAGAT GACTCAGGAA
GCACGCGAGC ACCTCTACCT TGTTCTCTTC TTTGACAACA AGCGCACTTG GCAGTGGTTG
CCCCGGACGA AGCTGGTGCC TCTGGGGGTG AACCAAGACC TGGACAAAGA GAAGATGCTG
GAGGGCCGCA AGTCCAACAT CCGCAAGTCG GTGCAGATCG CCTACCACCG CGCCATGCAG
CACCGCAACA AGGTGCAGGG CGAGCAGAGC AGCGACTCCA GCGAGAGCGA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd27716 Clone ID Related Accession (Same CDS sequence) XM_030282835.1 Accession Version XM_030282835.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
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 peregrin isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044224.1) 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
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GAAGATGTGC GGCTGCTGCT CTCAGAGAAT
CAGAAGCACC TGCCGCTGGA GGAGCAGCTA AAGATCCTGC TGGAGCGGCT GGACGAGGTC
AACGCTGGCA AGCAGAGCAT AGGACGGTCC CGCCGGGCCA AGATGATCAA GAAGGAGATC
ACAGTCCTAC GGCGGAAGCT CGCTCACCCG CGGGACCTGG GCCGGGATGG GCTGGAGCGG
CACAGCTCCT CTGCCAGGGG AGTCCTGCAG TCCCACAACC CCTGTGAGAA GGACCTGCAG
ACAGACAGTG CTGCAGAGGA GAGCAGCAGC CAGGAGACTG GCAAAGGTCT GGGTCCCAAT
TCTTCTTCTA CCCCAGCACA TGAAGTTGGC AGGAGGACCT CTGTGCTCTT CTCCAAGAAG
AACCCTAAAA CTGCAGGCCC TCCAAAACGT CCAGGACGCC CCCCAAAGAA TCGAGACAGC
CAGATCCCTC CTGGGCATGG GAGCAGCCCC ATTGGGCCTC CCCAGCTACC AATAATGGGG
TCCTCCCAGC GGCAGAGGAA GCGAGGGCGA AGCCCACGTC CCAGCTCCAG CTCAGACAGT
GACAGTGACA AATCCACGGA GGACGCTACC ATGGACCTGC CAGCCAACGG TTTCAGCAGC
GGGAACCAGC CCGTGAAGAA GAGCTTCCTG GTGTACCGCA ATGACTGCAA TCTTCCCCGG
AGCAGCTCCG ACTCGGAGTC CAGCAGCAGC AGCAGCAGCA GCGCTGCCTC AGACCGCACC
AGCACAACAC CCTCCAAGCA GGGCAGAGGG AAACCCTCCT TCTCTCGAGT GAACTTCCCA
GAAGACAGCA GTGAGGACAC ATCAGGGACA GAGAACGAGT CCTACTCCGT GGGCACGGGA
CGAGTGGTGC GTAAGGGAAT GGGGCGTGGC GCAGGGTGGC TCTCTGAGGA CGAGGATTCT
TCCCTGGATG CCCTGGACCT GGTGTGGGCT AAGTGCCGGG GTTACCCCTC CTACCCGGCG
TTGATCATTG ACCCCAAGAT GCCGCGGGAA GGCATGTTCC ACCATGGGGT CCCCATCCCC
GTGCCCCCCT TGGAGGTGCT GAAGCTGGGG GAGCAGATGA CTCAGGAAGC ACGCGAGCAC
CTCTACCTTG TTCTCTTCTT TGACAACAAG CGCACTTGGC AGTGGTTGCC CCGGACGAAG
CTGGTGCCTC TGGGGGTGAA CCAAGACCTG GACAAAGAGA AGATGCTGGA GGGCCGCAAG
TCCAACATCC GCAAGTCGGT GCAGATCGCC TACCACCGCG CCATGCAGCA CCGCAACAAG
GTGCAGGGCG AGCAGAGCAG CGACTCCAGC GAGAGCGACT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030138695.1 CDS 68..3769 Translation
Target ORF information:
RefSeq Version XM_030282835.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata bromodomain and PHD finger containing 1 (BRPF1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030282835.1
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
3661ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGTGTTCAG AGAATTGCCA GGCAGCGACG
CCACTGGCAG CCTGCCACAA GAAGGGAATC CTGCCCTCTC AAGCTGCCAC ACTGAAGAGA
GACACTGAGG ATAAGAACTG GGCCCTGAAG GAACAGCTGA AGTCATGGCA GCGCCTGCGC
CATGACCTTG AGCGTGCGCG CTTGCTGGTG GAGCTGATCC GCAAGCGGGA GAAACTCAAG
AGAGAGACGA TCAAAGTGCA GCAGGTGGCA CTGGAAATGC AGCTGACCCC ATTCCTCATC
CTCCTCCGCA AGACGCTTGA GCAGCTGCAG GAGAAAGACA CGGGCAACAT CTTCAGTGAG
CCGGTCCCTC TGTCTGAGGT CCCAGACTAC CTGGATCACA TCAAGAAGCC AATGGATTTT
CAGACAATGA AACAAAATCT AGAAGCCTAT CGCTATCTGA ATTTCGATGA CTTTGAGGAG
GATTTCAACC TGATTATTAA CAACTGTTTG AAATACAATG CCAAAGACAC GATCTTCTAC
CGGGCAGCCA TCCGTCTGCG GGAGCAGGGA GGTGCCGTGC TCCGGCAGGC TCGCCGGCAG
GCAGAGAAGA TGGGCATTGA CTTTGAGACG GGCATGCACT TCCCCCACTG TGTAACAGTA
GAAGAGGCTC AGATCCAAGA CATTGAGGAT GAAGATGTGC GGCTGCTGCT CTCAGAGAAT
CAGAAGCACC TGCCGCTGGA GGAGCAGCTA AAGATCCTGC TGGAGCGGCT GGACGAGGTC
AACGCTGGCA AGCAGAGCAT AGGACGGTCC CGCCGGGCCA AGATGATCAA GAAGGAGATC
ACAGTCCTAC GGCGGAAGCT CGCTCACCCG CGGGACCTGG GCCGGGATGG GCTGGAGCGG
CACAGCTCCT CTGCCAGGGG AGTCCTGCAG TCCCACAACC CCTGTGAGAA GGACCTGCAG
ACAGACAGTG CTGCAGAGGA GAGCAGCAGC CAGGAGACTG GCAAAGGTCT GGGTCCCAAT
TCTTCTTCTA CCCCAGCACA TGAAGTTGGC AGGAGGACCT CTGTGCTCTT CTCCAAGAAG
AACCCTAAAA CTGCAGGCCC TCCAAAACGT CCAGGACGCC CCCCAAAGAA TCGAGACAGC
CAGATCCCTC CTGGGCATGG GAGCAGCCCC ATTGGGCCTC CCCAGCTACC AATAATGGGG
TCCTCCCAGC GGCAGAGGAA GCGAGGGCGA AGCCCACGTC CCAGCTCCAG CTCAGACAGT
GACAGTGACA AATCCACGGA GGACGCTACC ATGGACCTGC CAGCCAACGG TTTCAGCAGC
GGGAACCAGC CCGTGAAGAA GAGCTTCCTG GTGTACCGCA ATGACTGCAA TCTTCCCCGG
AGCAGCTCCG ACTCGGAGTC CAGCAGCAGC AGCAGCAGCA GCGCTGCCTC AGACCGCACC
AGCACAACAC CCTCCAAGCA GGGCAGAGGG AAACCCTCCT TCTCTCGAGT GAACTTCCCA
GAAGACAGCA GTGAGGACAC ATCAGGGACA GAGAACGAGT CCTACTCCGT GGGCACGGGA
CGAGTGGTGC GTAAGGGAAT GGGGCGTGGC GCAGGGTGGC TCTCTGAGGA CGAGGATTCT
TCCCTGGATG CCCTGGACCT GGTGTGGGCT AAGTGCCGGG GTTACCCCTC CTACCCGGCG
TTGATCATTG ACCCCAAGAT GCCGCGGGAA GGCATGTTCC ACCATGGGGT CCCCATCCCC
GTGCCCCCCT TGGAGGTGCT GAAGCTGGGG GAGCAGATGA CTCAGGAAGC ACGCGAGCAC
CTCTACCTTG TTCTCTTCTT TGACAACAAG CGCACTTGGC AGTGGTTGCC CCGGACGAAG
CTGGTGCCTC TGGGGGTGAA CCAAGACCTG GACAAAGAGA AGATGCTGGA GGGCCGCAAG
TCCAACATCC GCAAGTCGGT GCAGATCGCC TACCACCGCG CCATGCAGCA CCGCAACAAG
GTGCAGGGCG AGCAGAGCAG CGACTCCAGC GAGAGCGACT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd27717 Clone ID Related Accession (Same CDS sequence) XM_030282836.1 Accession Version XM_030282836.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
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 peregrin isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044224.1) 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
3541
3601ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGAGAGACA CTGAGGATAA GAACTGGGCC
CTGAAGGAAC AGCTGAAGTC ATGGCAGCGC CTGCGCCATG ACCTTGAGCG TGCGCGCTTG
CTGGTGGAGC TGATCCGCAA GCGGGAGAAA CTCAAGAGAG AGACGATCAA AGTGCAGCAG
GTGGCACTGG AAATGCAGCT GACCCCATTC CTCATCCTCC TCCGCAAGAC GCTTGAGCAG
CTGCAGGAGA AAGACACGGG CAACATCTTC AGTGAGCCGG TCCCTCTGTC TGAGGTCCCA
GACTACCTGG ATCACATCAA GAAGCCAATG GATTTTCAGA CAATGAAACA AAATCTAGAA
GCCTATCGCT ATCTGAATTT CGATGACTTT GAGGAGGATT TCAACCTGAT TATTAACAAC
TGTTTGAAAT ACAATGCCAA AGACACGATC TTCTACCGGG CAGCCATCCG TCTGCGGGAG
CAGGGAGGTG CCGTGCTCCG GCAGGCTCGC CGGCAGGCAG AGAAGATGGG CATTGACTTT
GAGACGGGCA TGCACTTCCC CCACTGTGTA ACAGTAGAAG AGGCTCAGAT CCAAGACATT
GAGGATGAAG ATGTGCGGCT GCTGCTCTCA GAGAATCAGA AGCACCTGCC GCTGGAGGAG
CAGCTAAAGA TCCTGCTGGA GCGGCTGGAC GAGGTCAACG CTGGCAAGCA GAGCATAGGA
CGGTCCCGCC GGGCCAAGAT GATCAAGAAG GAGATCACAG TCCTACGGCG GAAGCTCGCT
CACCCGCGGG ACCTGGGCCG GGATGGGCTG GAGCGGCACA GCTCCTCTGC CAGGGGAGTC
CTGCAGTCCC ACAACCCCTG TGAGAAGGAC CTGCAGACAG ACAGTGCTGC AGAGGAGAGC
AGCAGCCAGG AGACTGGCAA AGGTCTGGGT CCCAATTCTT CTTCTACCCC AGCACATGAA
GTTGGCAGGA GGACCTCTGT GCTCTTCTCC AAGAAGAACC CTAAAACTGC AGGCCCTCCA
AAACGTCCAG GACGCCCCCC AAAGAATCGA GACAGCCAGA TCCCTCCTGG GCATGGGAGC
AGCCCCATTG GGCCTCCCCA GCTACCAATA ATGGGGTCCT CCCAGCGGCA GAGGAAGCGA
GGGCGAAGCC CACGTCCCAG CTCCAGCTCA GACAGTGACA GTGACAAATC CACGGAGGAC
GCTACCATGG ACCTGCCAGC CAACGGTTTC AGCAGCGGGA ACCAGCCCGT GAAGAAGAGC
TTCCTGGTGT ACCGCAATGA CTGCAATCTT CCCCGGAGCA GCTCCGACTC GGAGTCCAGC
AGCAGCAGCA GCAGCAGCGC TGCCTCAGAC CGCACCAGCA CAACACCCTC CAAGCAGGGC
AGAGGGAAAC CCTCCTTCTC TCGAGTGAAC TTCCCAGAAG ACAGCAGTGA GGACACATCA
GGGACAGAGA ACGAGTCCTA CTCCGTGGGC ACGGGACGAG GTGTGGGGCA TGGCATGGTG
CGTAAGGGAA TGGGGCGTGG CGCAGGGTGG CTCTCTGAGG ACGAGGATTC TTCCCTGGAT
GCCCTGGACC TGGTGTGGGC TAAGTGCCGG GGTTACCCCT CCTACCCGGC GTTGATCATT
GACCCCAAGA TGCCGCGGGA AGGCATGTTC CACCATGGGG TCCCCATCCC CGTGCCCCCC
TTGGAGGTGC TGAAGCTGGG GGAGCAGATG ACTCAGGAAG CACGCGAGCA CCTCTACCTT
GTTCTCTTCT TTGACAACAA GCGCACTTGG CAGTGGTTGC CCCGGACGAA GCTGGTGCCT
CTGGGGGTGA ACCAAGACCT GGACAAAGAG AAGATGCTGG AGGGCCGCAA GTCCAACATC
CGCAAGTCGG TGCAGATCGC CTACCACCGC GCCATGCAGC ACCGCAACAA GGTGCAGGGC
GAGCAGAGCA GCGACTCCAG CGAGAGCGAC TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030138696.1 CDS 1..3633 Translation
Target ORF information:
RefSeq Version XM_030282836.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata bromodomain and PHD finger containing 1 (BRPF1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030282836.1
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
3601ATGGGCGTAG ACTTCGACGT GAAGACCTTC TGCCACAACC TGCGGGCCAC CAAGCCGCCC
TACGAGTGCC CGGTGGGCAC CTGCCGCAAG ATCTACAAGA GCTACAGCGG GATCGAGTAC
CACCTGTACC ACTATGACCA CGACAACCCG CCCCTGCCCC AGCACACCCC CCTGCGCAAG
CACAAGAAGA AGGGGCGCCA GGCCCGCGCC GCCAACAAGC AGTCGCCCAG CCCCTCCGAG
ACCTCCCAGT CGCCCGGCCG GGAGGTGATG ACCTACGCCC AGGCCCAGCG CATGGTGGAG
GTGGACCTGC ACGGCCGCGT CCACCGCATC AGCATCTTCG ATAATCTCGA CGTGGTGTCC
GAGGATGAGG ATGTTCCCGA AGAGGTGCCC GAGAATGGGA GCAATAAGGA GAACACGGAG
ACGCAGAGCG TCCCGCCCAA ATCTGGGAAG CACAAGAACA AGGAGAAGCG CAAGGACTCC
AACCACCATC ACCACAACGC CTCGGCCAGC ACTACCCCCA AGCTGCCCGA GGTGGTGTAC
CGAGAGCTGG AGCAGGACAC TCCTGATGCC CCACCTCGTC CCACCTCGTA CTACAGGTAC
ATTGAGAAGT CGGCAGAGGA GCTGGATGAG GAGGTGGAGT ATGACATGGA TGAGGAGGAT
TACATCTGGC TGGACATCAT GAACGAGAGG CGGAAGAACG AAGGCGTGAG TCCTATTCCC
CAGGAGATCT TTGAGTACCT GATGGACCGG CTAGAGAAGG AGTCCTACTT CGAGAGCCAC
AACAAGGGGG ACCCAAACGC CTTGGTGGAT GAGGATGCCG TCTGCTGCAT CTGCAACGAC
GGGGAGTGTC AGAACAGCAA CGTCATCCTC TTCTGCGACA TGTGCAACCT GGCTGTGCAC
CAGGAGTGCT ACGGGGTGCC CTACATCCCC GAGGGACAGT GGCTCTGCAG ACGGTGCCTG
CAGTCACCCT CGCGCGCTGT GGACTGCGCC CTCTGCCCAA ACAAGGGGGG GGCCTTCAAG
CAGACGGACG ATGGGCGCTG GGCACATGTG GTCTGTGCCC TCTGGATCCC GGAGGTGTGC
TTTGCCAACA CCGTCTTCCT GGAGCCCATC GACAGCATCG AGCACATCCC GCCCGCACGC
TGGAAGCTGA CCTGTTACAT TTGCAAGCAG CGTGGCTCTG GGGCTTGCAT CCAGTGTCAC
AAAGCCAATT GCTACACTGC CTTCCATGTC ACCTGTGCCC AGCAGGCCGG GCTGTACATG
AAGATGGAGC CCGTCAGGGA GACGGGTGCC AACGGTACCT CCTTCAGCGT GCGCAAAACC
GCCTACTGCG ACATCCACAC ACCACCAGGT TCTGTGCGCA GGCTTCCTGC CCTCTCCCAC
AGTGAGGGGG AAGAGGAGGA TGAGGAGGAA GAGGAGGAGG GGAAGGGCTG GAGTTCTGAG
AAAGTCAAAA AAGCAAAGGC CAAGTCTAGG ATCAAGATGA AGAAGGCGCG GAAGATCTTG
GCGGAGAAAC GAGCTGCAGC ACCTGTGGTT TCCGTGCCCT GCATCCCACC CCACAGGCTC
AGTAAGATTA CAAACCGTTT AACCATCCAG AGGAAGAGCC AGTTCATGCA GAGGCTGCAC
AGCTACTGGA CTCTGAAGAG ACAGTCCCGC AATGGTGTCC CCCTGCTCCG CCGCCTGCAG
ACACACTTGC AGTCACAGAG AAACTGCGAC CAGAGAGACA CTGAGGATAA GAACTGGGCC
CTGAAGGAAC AGCTGAAGTC ATGGCAGCGC CTGCGCCATG ACCTTGAGCG TGCGCGCTTG
CTGGTGGAGC TGATCCGCAA GCGGGAGAAA CTCAAGAGAG AGACGATCAA AGTGCAGCAG
GTGGCACTGG AAATGCAGCT GACCCCATTC CTCATCCTCC TCCGCAAGAC GCTTGAGCAG
CTGCAGGAGA AAGACACGGG CAACATCTTC AGTGAGCCGG TCCCTCTGTC TGAGGTCCCA
GACTACCTGG ATCACATCAA GAAGCCAATG GATTTTCAGA CAATGAAACA AAATCTAGAA
GCCTATCGCT ATCTGAATTT CGATGACTTT GAGGAGGATT TCAACCTGAT TATTAACAAC
TGTTTGAAAT ACAATGCCAA AGACACGATC TTCTACCGGG CAGCCATCCG TCTGCGGGAG
CAGGGAGGTG CCGTGCTCCG GCAGGCTCGC CGGCAGGCAG AGAAGATGGG CATTGACTTT
GAGACGGGCA TGCACTTCCC CCACTGTGTA ACAGTAGAAG AGGCTCAGAT CCAAGACATT
GAGGATGAAG ATGTGCGGCT GCTGCTCTCA GAGAATCAGA AGCACCTGCC GCTGGAGGAG
CAGCTAAAGA TCCTGCTGGA GCGGCTGGAC GAGGTCAACG CTGGCAAGCA GAGCATAGGA
CGGTCCCGCC GGGCCAAGAT GATCAAGAAG GAGATCACAG TCCTACGGCG GAAGCTCGCT
CACCCGCGGG ACCTGGGCCG GGATGGGCTG GAGCGGCACA GCTCCTCTGC CAGGGGAGTC
CTGCAGTCCC ACAACCCCTG TGAGAAGGAC CTGCAGACAG ACAGTGCTGC AGAGGAGAGC
AGCAGCCAGG AGACTGGCAA AGGTCTGGGT CCCAATTCTT CTTCTACCCC AGCACATGAA
GTTGGCAGGA GGACCTCTGT GCTCTTCTCC AAGAAGAACC CTAAAACTGC AGGCCCTCCA
AAACGTCCAG GACGCCCCCC AAAGAATCGA GACAGCCAGA TCCCTCCTGG GCATGGGAGC
AGCCCCATTG GGCCTCCCCA GCTACCAATA ATGGGGTCCT CCCAGCGGCA GAGGAAGCGA
GGGCGAAGCC CACGTCCCAG CTCCAGCTCA GACAGTGACA GTGACAAATC CACGGAGGAC
GCTACCATGG ACCTGCCAGC CAACGGTTTC AGCAGCGGGA ACCAGCCCGT GAAGAAGAGC
TTCCTGGTGT ACCGCAATGA CTGCAATCTT CCCCGGAGCA GCTCCGACTC GGAGTCCAGC
AGCAGCAGCA GCAGCAGCGC TGCCTCAGAC CGCACCAGCA CAACACCCTC CAAGCAGGGC
AGAGGGAAAC CCTCCTTCTC TCGAGTGAAC TTCCCAGAAG ACAGCAGTGA GGACACATCA
GGGACAGAGA ACGAGTCCTA CTCCGTGGGC ACGGGACGAG GTGTGGGGCA TGGCATGGTG
CGTAAGGGAA TGGGGCGTGG CGCAGGGTGG CTCTCTGAGG ACGAGGATTC TTCCCTGGAT
GCCCTGGACC TGGTGTGGGC TAAGTGCCGG GGTTACCCCT CCTACCCGGC GTTGATCATT
GACCCCAAGA TGCCGCGGGA AGGCATGTTC CACCATGGGG TCCCCATCCC CGTGCCCCCC
TTGGAGGTGC TGAAGCTGGG GGAGCAGATG ACTCAGGAAG CACGCGAGCA CCTCTACCTT
GTTCTCTTCT TTGACAACAA GCGCACTTGG CAGTGGTTGC CCCGGACGAA GCTGGTGCCT
CTGGGGGTGA ACCAAGACCT GGACAAAGAG AAGATGCTGG AGGGCCGCAA GTCCAACATC
CGCAAGTCGG TGCAGATCGC CTACCACCGC GCCATGCAGC ACCGCAACAA GGTGCAGGGC
GAGCAGAGCA GCGACTCCAG CGAGAGCGAC TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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