BRPF1 cDNA ORF clone, Pelecanus crispus(Dalmatian pelican)

Gene
Clones
gRNAs

Summary

Gene Symbol	BRPF1
Entrez Gene ID	104032384
Full Name	bromodomain and PHD finger containing 1
Synonyms	Peregrin
Gene Type	protein-coding
Organism	Pelecanus crispus(Dalmatian pelican)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009484714.1	XP_009482989.1	peregrin

Pathways from BioSystems
Gene Ontology

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.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OPe121192	XM_009484714.1 Latest version!	Pelecanus crispus bromodomain and PHD finger containing, 1 (BRPF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

BRPF1 ( XM_009484714.1 ) cDNA ORF clone, Pelecanus crispus(Dalmatian pelican) -> XP_009482989.1 Pelecanus crispus bromodomain and PHD finger containing, 1 (BRPF1), mRNA.

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CloneID	OPe121192
Clone ID Related Accession (Same CDS sequence)	XM_009484714.1
Accession Version	XM_009484714.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3213bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-10-05
Organism	Pelecanus crispus(Dalmatian pelican)
Product	peregrin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009091109.1) 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 Version :: Pelecanus crispus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACCTACG CCCAGGCCCA GCGCATGGTG GAGGTGGACC TGCACGGCCG CGTCCATCGC 
ATCAGCATCT TCGATAACCT CGACGTGGTG TCCGAGGACG AGGAGGTTCC CGAGGAGGTG 
CCCGAGAACG GGAGCAATAA GGAGAACACG GAGACTCAGA GCGTCCCGCC CAAATCTGGC 
AAGCACAAGA ACAAGGAGAA GCGCAAGGAC TCCAACCACC ATCACCACAA CGCCTCGGCC 
GGCACCACCC CCAAGCTCCC CGAGGTGGTG TACCGGGAGC TGGAGCAGGA CACCCCTGAC 
GCCCCACCTC GCCCCACCTC TTACTACAGG TACATCGAGA AGTCAGCCGA GGAGCTGGAT 
GAGGAGGTGG AGTACGACAT GGACGAGGAA GATTACATCT GGCTGGACAT CATGAACGAG 
CGGCGGAAGA CTGAAGGCGT GAGTCCCATT CCCCAGGAGA TCTTTGAGTA CCTGATGGAC 
CGGCTGGAGA AGGAGTCCTA CTTTGAGAGC CACAACAAGG GGGACCCAAA CGCCTTGGTG 
GATGAGGATG CTGTCTGTTG CATCTGCAAC GATGGGGAGT GTCAGAACAG CAACGTCATC 
CTCTTCTGCG ACATGTGCAA CCTGGCTGTG CATCAGGAGT GCTACGGGGT GCCCTACATC 
CCGGAGGGAC AGTGGCTCTG CAGACGGTGC CTGCAGTCAC CCTCGCGAGC TGTGGACTGC 
GCCCTGTGCC CAAACAAGGG GGGGGCCTTC AAGCAGACGG ATGATGGGCG CTGGGCACAC 
GTGGTCTGTG CCCTCTGGAT CCCGGAGGTG TGCTTTGCCA ACACCGTCTT CCTGGAGCCC 
ATCGACAGCA TTGAGCACAT CCCGCCTGCG CGCTGGAAGC TGACCTGTTA CATCTGCAAG 
CAGCGTGGCT CCGGGGCTTG CATCCAGTGT CACAAAGCCA ACTGCTACAC CGCCTTCCAC 
GTCACCTGCG CCCAGCAGGC CGGGCTGTAC ATGAAGATGG AGCCCGTCCG GGAGACAGGG 
GCCAACGGTA CCTCCTTCAG CGTGCGCAAA ACCGCCTACT GCGACATCCA CACACCGCCG 
GGCTCCGTGC GCAGGCTTCC CGCCCTCTCC CACAGTGAGG GGGAAGAGGA GGAGGAGGAG 
GAGGAGGAGG AGGGGAAGGG CTGGAGCTCT GAGAAAGTGA AAAAAGCAAA GGCCAAGTCT 
AGGATCAAGA TGAAGAAGGC ACGGAAGATC CTGGCAGAGA AACGAGCTGC AGCGCCCGTG 
GTTTCTGTGC CCTGCATCCC CCCACACAGG CTCAGTAAGA TTACAAACCG TTTAACCATC 
CAGAGGAAGA GCCAGTTCAT GCAGAGGCTG CACAGCTACT GGACTCTGAA GAGACAGTCC 
CGCAACGGTG TGCCTCTGCT CCGCCGCCTT CAGACACACT TGCAGTCACA AAGAAACTGC 
GACCAGAGAG ATACTGAGGA TAAGAACTGG GCCCTGAAGG AGCAGCTGAA GTCATGGCAG 
CGCCTCCGCC ATGACCTAGA GCGTGCACGC TTGCTGGTGG AGCTGATACG CAAGCGGGAG 
AAGCTCAAGA GAGAGACGAT CAAAGTGCAG CAGGTGGCAC TGGAAATGGA GCTGACCCCC 
TTCCTCATCC TCCTCCGCAA GACGCTTGAG CAGCTACAGG AGAAAGACAC AGGCAACATC 
TTCAGCGAGC CGGTCCCTCT GTCTGAGGTA ACAGAAATCT ACGAAGTCCC AGACTACCTG 
GATCACATCA AGAAGCCGAT GGATTTTCAG ACAATGAAAC AAAACCTAGA GGCCTATCGC 
TATCTGAACT TTGATGACTT TGAGGAGGAT TTCAACCTGA TTATCAACAA CTGTTTGAAA 
TACAATGCCA AAGACACAAT CTTCTACCGG GCAGCCATCC GTCTGCGGGA GCAGGGAGGC 
GCCGTTCTCC GGCAGGCTCG CCGGCAGGCG GAGAAGATGG GCATTGACTT TGAGACAGGC 
ATGCACTTCC CCCACTGTGT AACGGTGGAA GAGGCTCAGG TCCAAGACAT CGAGGACGAA 
GATGTGCGGC TGCTGCTCTC GGAGAATCAG AAGCACCTGC CCTTGGAGGA GCAGCTGAAG 
ATCCTGCTGG AGCGGCTGGA TGAGGTCAAT GCTGGCAAGC AGAGCATAGG ACGGTCCCGC 
CGGGCCAAGA TGATCAAGAA GGAGATCACA GTCCTACGGC GGAAACTTGC TCACCCGCGG 
GACCTGGGCA GAGACGGGCT GGAGCGGCAC AGCTCCTCTG CCAGGGGAGT CCTGCAGTCG 
CACAACCCCT GCGAGAAGGA CCTGCAGACA GACAGCGCTG CAGAAGAGAG CAGCAGTCAG 
GAGACTGGCA AAGGTCTGGG ACCCAATTCT TCTTCCACCC CAGCACATGA AGTTGGCAGG 
AGGACCTCAG TGCTCTTCTC CAAGAAGAAC CCTAAAACTG CAGGCCCTCC AAAACGTCCA 
GGACGCCCCC CAAAGAATCG AGACAGCCAG ATCACTCCTG GGCATGGGAA CAGCCCCATC 
GGGCCCCCCC AGCTCCCGAT AATGGGGTCC TCCCAGCGGC AGAGGAAGCG AGGGCGAAGC 
CCGCGCCCCA GCTCCAGCTC GGACAGTGAC AGCGATAAGT CCACCGAAGA CGCTCCCATG 
GACCTGCCAG CCAACGGTTT CAGCGGCGGG AACCAGCCAG TGAAGAAGAG CTTCCTGGTG 
TACCGCAACG ACTGCAATCT TCCCCGGAGC AGCTCCGACT CAGAGTCCAG CAGTAGCAGC 
AGCAGCAGCG CTGCCTCAGA CCGTACCAGC ACAACACCCT CCAAGCAGGG CAGAGGGAAG 
CCATCTTTCT CCCGAGTGAA CTTCCCGGAG GACAGCAGCG AGGACACGTC GGGGACGGAG 
AATGAGTCCT ACTCTGTGGG CACGGGGCGA AGCGTGGGGC ACGGCATGGT GCGCAAGGGC 
ATGGGGCGTG GCGCAGGGTG GCTGTCCGAG GACGAGGATT CCTCCCTGGA TGCCCTGGAC 
CTGGTGTGGG CCAAGTGCCG GGGCTACCCC TCNNCTCCCC TGCTCCTTCG GCAGATCATC 
GACCCCAAGA TGCCGCGGGA GGGCATGTTC CACCACGGCG TCCCCATCCC CGTGCCCCCC 
TTGGAGGTGC TGAAGCTGGG GGAGCAGATG ACTCAGGAAG CACGCGAGCA CCTCTACCTT 
GTCCTCTTCT TCGACAACAA GCGCACTTGG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_009482989.1
CDS	52..3264
Translation	MTYAQAQRMVEVDLHGRVHRISIFDNLDVVSEDEEVPEEVPENGSNKENTETQSVPPKSGKHKNKEKRKDSNHHHHNASAGTTPKLPEVVYRELEQDTPDAPPRPTSYYRYIEKSAEELDEEVEYDMDEEDYIWLDIMNERRKTEGVSPIPQEIFEYLMDRLEKESYFESHNKGDPNALVDEDAVCCICNDGECQNSNVILFCDMCNLAVHQECYGVPYIPEGQWLCRRCLQSPSRAVDCALCPNKGGAFKQTDDGRWAHVVCALWIPEVCFANTVFLEPIDSIEHIPPARWKLTCYICKQRGSGACIQCHKANCYTAFHVTCAQQAGLYMKMEPVRETGANGTSFSVRKTAYCDIHTPPGSVRRLPALSHSEGEEEEEEEEEEGKGWSSEKVKKAKAKSRIKMKKARKILAEKRAAAPVVSVPCIPPHRLSKITNRLTIQRKSQFMQRLHSYWTLKRQSRNGVPLLRRLQTHLQSQRNCDQRDTEDKNWALKEQLKSWQRLRHDLERARLLVELIRKREKLKRETIKVQQVALEMELTPFLILLRKTLEQLQEKDTGNIFSEPVPLSEVTEIYEVPDYLDHIKKPMDFQTMKQNLEAYRYLNFDDFEEDFNLIINNCLKYNAKDTIFYRAAIRLREQGGAVLRQARRQAEKMGIDFETGMHFPHCVTVEEAQVQDIEDEDVRLLLSENQKHLPLEEQLKILLERLDEVNAGKQSIGRSRRAKMIKKEITVLRRKLAHPRDLGRDGLERHSSSARGVLQSHNPCEKDLQTDSAAEESSSQETGKGLGPNSSSTPAHEVGRRTSVLFSKKNPKTAGPPKRPGRPPKNRDSQITPGHGNSPIGPPQLPIMGSSQRQRKRGRSPRPSSSSDSDSDKSTEDAPMDLPANGFSGGNQPVKKSFLVYRNDCNLPRSSSDSESSSSSSSSAASDRTSTTPSKQGRGKPSFSRVNFPEDSSEDTSGTENESYSVGTGRSVGHGMVRKGMGRGAGWLSEDEDSSLDALDLVWAKCRGYPnullnullPLLLRQIIDPKMPREGMFHHGVPIPVPPLEVLKLGEQMTQEAREHLYLVLFFDNKRTW

Target ORF information:

RefSeq Version	XM_009484714.1
Organism	Pelecanus crispus(Dalmatian pelican)
Definition	Pelecanus crispus bromodomain and PHD finger containing, 1 (BRPF1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_009484714.1

ORF Insert Sequence:

ATGACCTACG CCCAGGCCCA GCGCATGGTG GAGGTGGACC TGCACGGCCG CGTCCATCGC 
ATCAGCATCT TCGATAACCT CGACGTGGTG TCCGAGGACG AGGAGGTTCC CGAGGAGGTG 
CCCGAGAACG GGAGCAATAA GGAGAACACG GAGACTCAGA GCGTCCCGCC CAAATCTGGC 
AAGCACAAGA ACAAGGAGAA GCGCAAGGAC TCCAACCACC ATCACCACAA CGCCTCGGCC 
GGCACCACCC CCAAGCTCCC CGAGGTGGTG TACCGGGAGC TGGAGCAGGA CACCCCTGAC 
GCCCCACCTC GCCCCACCTC TTACTACAGG TACATCGAGA AGTCAGCCGA GGAGCTGGAT 
GAGGAGGTGG AGTACGACAT GGACGAGGAA GATTACATCT GGCTGGACAT CATGAACGAG 
CGGCGGAAGA CTGAAGGCGT GAGTCCCATT CCCCAGGAGA TCTTTGAGTA CCTGATGGAC 
CGGCTGGAGA AGGAGTCCTA CTTTGAGAGC CACAACAAGG GGGACCCAAA CGCCTTGGTG 
GATGAGGATG CTGTCTGTTG CATCTGCAAC GATGGGGAGT GTCAGAACAG CAACGTCATC 
CTCTTCTGCG ACATGTGCAA CCTGGCTGTG CATCAGGAGT GCTACGGGGT GCCCTACATC 
CCGGAGGGAC AGTGGCTCTG CAGACGGTGC CTGCAGTCAC CCTCGCGAGC TGTGGACTGC 
GCCCTGTGCC CAAACAAGGG GGGGGCCTTC AAGCAGACGG ATGATGGGCG CTGGGCACAC 
GTGGTCTGTG CCCTCTGGAT CCCGGAGGTG TGCTTTGCCA ACACCGTCTT CCTGGAGCCC 
ATCGACAGCA TTGAGCACAT CCCGCCTGCG CGCTGGAAGC TGACCTGTTA CATCTGCAAG 
CAGCGTGGCT CCGGGGCTTG CATCCAGTGT CACAAAGCCA ACTGCTACAC CGCCTTCCAC 
GTCACCTGCG CCCAGCAGGC CGGGCTGTAC ATGAAGATGG AGCCCGTCCG GGAGACAGGG 
GCCAACGGTA CCTCCTTCAG CGTGCGCAAA ACCGCCTACT GCGACATCCA CACACCGCCG 
GGCTCCGTGC GCAGGCTTCC CGCCCTCTCC CACAGTGAGG GGGAAGAGGA GGAGGAGGAG 
GAGGAGGAGG AGGGGAAGGG CTGGAGCTCT GAGAAAGTGA AAAAAGCAAA GGCCAAGTCT 
AGGATCAAGA TGAAGAAGGC ACGGAAGATC CTGGCAGAGA AACGAGCTGC AGCGCCCGTG 
GTTTCTGTGC CCTGCATCCC CCCACACAGG CTCAGTAAGA TTACAAACCG TTTAACCATC 
CAGAGGAAGA GCCAGTTCAT GCAGAGGCTG CACAGCTACT GGACTCTGAA GAGACAGTCC 
CGCAACGGTG TGCCTCTGCT CCGCCGCCTT CAGACACACT TGCAGTCACA AAGAAACTGC 
GACCAGAGAG ATACTGAGGA TAAGAACTGG GCCCTGAAGG AGCAGCTGAA GTCATGGCAG 
CGCCTCCGCC ATGACCTAGA GCGTGCACGC TTGCTGGTGG AGCTGATACG CAAGCGGGAG 
AAGCTCAAGA GAGAGACGAT CAAAGTGCAG CAGGTGGCAC TGGAAATGGA GCTGACCCCC 
TTCCTCATCC TCCTCCGCAA GACGCTTGAG CAGCTACAGG AGAAAGACAC AGGCAACATC 
TTCAGCGAGC CGGTCCCTCT GTCTGAGGTA ACAGAAATCT ACGAAGTCCC AGACTACCTG 
GATCACATCA AGAAGCCGAT GGATTTTCAG ACAATGAAAC AAAACCTAGA GGCCTATCGC 
TATCTGAACT TTGATGACTT TGAGGAGGAT TTCAACCTGA TTATCAACAA CTGTTTGAAA 
TACAATGCCA AAGACACAAT CTTCTACCGG GCAGCCATCC GTCTGCGGGA GCAGGGAGGC 
GCCGTTCTCC GGCAGGCTCG CCGGCAGGCG GAGAAGATGG GCATTGACTT TGAGACAGGC 
ATGCACTTCC CCCACTGTGT AACGGTGGAA GAGGCTCAGG TCCAAGACAT CGAGGACGAA 
GATGTGCGGC TGCTGCTCTC GGAGAATCAG AAGCACCTGC CCTTGGAGGA GCAGCTGAAG 
ATCCTGCTGG AGCGGCTGGA TGAGGTCAAT GCTGGCAAGC AGAGCATAGG ACGGTCCCGC 
CGGGCCAAGA TGATCAAGAA GGAGATCACA GTCCTACGGC GGAAACTTGC TCACCCGCGG 
GACCTGGGCA GAGACGGGCT GGAGCGGCAC AGCTCCTCTG CCAGGGGAGT CCTGCAGTCG 
CACAACCCCT GCGAGAAGGA CCTGCAGACA GACAGCGCTG CAGAAGAGAG CAGCAGTCAG 
GAGACTGGCA AAGGTCTGGG ACCCAATTCT TCTTCCACCC CAGCACATGA AGTTGGCAGG 
AGGACCTCAG TGCTCTTCTC CAAGAAGAAC CCTAAAACTG CAGGCCCTCC AAAACGTCCA 
GGACGCCCCC CAAAGAATCG AGACAGCCAG ATCACTCCTG GGCATGGGAA CAGCCCCATC 
GGGCCCCCCC AGCTCCCGAT AATGGGGTCC TCCCAGCGGC AGAGGAAGCG AGGGCGAAGC 
CCGCGCCCCA GCTCCAGCTC GGACAGTGAC AGCGATAAGT CCACCGAAGA CGCTCCCATG 
GACCTGCCAG CCAACGGTTT CAGCGGCGGG AACCAGCCAG TGAAGAAGAG CTTCCTGGTG 
TACCGCAACG ACTGCAATCT TCCCCGGAGC AGCTCCGACT CAGAGTCCAG CAGTAGCAGC 
AGCAGCAGCG CTGCCTCAGA CCGTACCAGC ACAACACCCT CCAAGCAGGG CAGAGGGAAG 
CCATCTTTCT CCCGAGTGAA CTTCCCGGAG GACAGCAGCG AGGACACGTC GGGGACGGAG 
AATGAGTCCT ACTCTGTGGG CACGGGGCGA AGCGTGGGGC ACGGCATGGT GCGCAAGGGC 
ATGGGGCGTG GCGCAGGGTG GCTGTCCGAG GACGAGGATT CCTCCCTGGA TGCCCTGGAC 
CTGGTGTGGG CCAAGTGCCG GGGCTACCCC TCNNCTCCCC TGCTCCTTCG GCAGATCATC 
GACCCCAAGA TGCCGCGGGA GGGCATGTTC CACCACGGCG TCCCCATCCC CGTGCCCCCC 
TTGGAGGTGC TGAAGCTGGG GGAGCAGATG ACTCAGGAAG CACGCGAGCA CCTCTACCTT 
GTCCTCTTCT TCGACAACAA GCGCACTTGG TAA