CPSF1 cDNA ORF clone, Balaenoptera acutorostrata scammoni

Gene
Clones
gRNAs

Summary

Gene Symbol	CPSF1
Entrez Gene ID	103019693
Full Name	cleavage and polyadenylation specific factor 1
Gene Type	protein-coding
Organism	Balaenoptera acutorostrata scammoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_007166830.1	XP_007166892.1	cleavage and polyadenylation specificity factor subunit 1

Pathways from BioSystems
Gene Ontology

The following CPSF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CPSF1 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
OBa148084	XM_007166830.1 Latest version!	Balaenoptera acutorostrata scammoni cleavage and polyadenylation specific factor 1 (CPSF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

CPSF1 ( XM_007166830.1 ) cDNA ORF clone, Balaenoptera acutorostrata scammoni -> XP_007166892.1 Balaenoptera acutorostrata scammoni cleavage and polyadenylation specific factor 1 (CPSF1), mRNA.

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CloneID	OBa148084
Clone ID Related Accession (Same CDS sequence)	XM_007166830.1
Accession Version	XM_007166830.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4335bp) 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	1549814400000
Organism	Balaenoptera acutorostrata scammoni
Product	cleavage and polyadenylation specificity factor subunit 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006725399.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Balaenoptera acutorostrata scammoni Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTACGCCG TATACAAACA GGCGCATCCG CCCACCGGCC TCGAGTTCTC GATGTATTGC 
AACTTTTTTA ACAACAGCGA GCGCAACCTC GTGGTGGCCG GGACCTCGCA GCTCTACGTG 
TACCGCCTCA ACCGCGACGC CGAGGTGCCG ACCAAGAATG ACAGGAGCGC GGAGGGGAAG 
GCGCACCGGG AGCACCGGGA AAAGCTGGAG CTGGTGGCTT CCTTCTCTTT CTTCGGCAAC 
GTCATGTCCA TGGCCAGCGT GCAGCTGGCG GGCGCCAAGA GGGATGCCCT CCTCCTGAGC 
TTCAAGGATG CCAAGCTGTC GGTGGTGGAA TACGACCCGG GCACCCACGA CCTCAAGACC 
CTGTCTCTGC ACTACTTTGA GGAGCCTGAG CTGCGGGACG GCTTCGTGCA GAACGTGCAC 
ACGCCGCGGG TGCGCGTGGA CCCCGACGGG CGCTGCGCGG CCATGCTCAT CTACGGCACG 
CGGCTGGTGG TCCTGCCCTT CCGCAGGGAG AGCCTGGCCG AGGAGCACGA GGGGCTCGTG 
GGTGAGGGGC AGAGGTCCAG CTTCCTGCCC AGCTACATCA TTGACGTGAG GGCCCTGGAC 
GAGAAGCTTC TCAACATTGT TGACCTGCAG TTCCTGCACG GCTACTACGA GCCCACCCTG 
CTCATCCTGT TTGAGCCCAA CCAGACCTGG CCTGGGCGGG TGGCTGTGCG GCAGGACACG 
TGCTCCATCG TGGCCATTTC GCTGAACATC ACGCAGAAGG TCCACCCCGT CATCTGGTCC 
CTCACCAGCC TGCCTTTTGA CTGCACCCAG GCCCTTGCCG TGCCCAAGCC CATAGGCGGG 
GTGGTGGTCT TTGCTGTCAA CTCGCTGCTA TACCTGAACC AGAGCGTCCC CCCCTACGGC 
GTGGCCCTCA ACAGCCTCAC CACCGGCACC ACTGCCTTCC CCCTGCGCAC CCAGGAGGGC 
GTGCGGATCA CCCTGGACTG TGCCCAGGCA GCCTTCATCT CCTACGACAA GATGGTCATC 
TCCCTCAAGG GCGGCGAGAT CTACGTGCTG ACACTCATCA CGGACGGCAT GCGCAGCGTC 
CGCGCCTTCC ACTTCGACAA GGCCGCCGCC AGCGTCCTCA CCACGAGCGT GAGTGGGGTC 
TCGGGGGGNN NNNNNNTCCT TGGCTCTCGC CTGGGCAACT CCCTGCTCCT CAAGTACACG 
GAAAAGCTGC AGGAGCCCCC GGCCGGCACC GCCCGAGAGG TTGCCGACAA GGAGGAGCCG 
CCCTCCAAGA AGAAGCGCGT GGACGCCACA GCCAGCTGGT CAGGGGGCAA GTCAGCGCCG 
CAGGACGAGG TGGACGAGAT CGAGGTGTAC GGCAGCGAGG CCCAGTCCGG TACGCAGCTG 
GCCACTTACT CCTTTGAGGT GTGTGACAGC ATCCTCAACA TCGGACCCTG TGCCAACGCC 
GCCATGGGCG AGCCCGCCTT CCTCTCTGAA GAGTTTCAGA ACAGTCCCGA GCCAGACCTG 
GAGATCGTGG TGTGCTCCGG CTACGGGAAG AACGGGGCCC TGTCGGTGCT GCAGAAGAGC 
ATCCGGCCCC AGGTGGTGAC CACCTTTGAG CTTCCTGGCT GCTATGACAT GTGGACAGTC 
ATCGCCCCTG TGCGTAAGGA GCAGGAGGAG ACCACTAAGG GGGAGGGGGC GGAGCAGGAG 
CCCAGCGCCC CCGAAGCAGA TGACGATGGG CGGAGACACG GGTTCCTTAT CCTGAGCCGG 
GAAGACTCCA CCATGATCCT ACAGACGGGG CAGGAGATCA TGGAGCTGGA CACCAGCGGC 
TTTGCCACGC AGGGCCCCAC AGTCTTTGCT GGCAACATCG GGGACAATCG CTACATCGTG 
CAAGTGTCGC CACTCGGCAT CCGCCTGTTG GAAGGAGTGA ACCAGCTGCA CTTCATCCCC 
GTGGACCTGG GCTCCCCCAT CGTGCAGTGC GCCGTGGCCG ACCCCTGCGT GGTCATCATG 
AGTGCCGAGG GCCACATCAC CATGTTCCTG CTCAAGAGTG ACTCGTATGG GGGCCGCCAC 
CACCGCCTGG CGCTGCACAA GCCCCCGCTG CACCACCAGT CCAAGGTGAT TACGCTCTGC 
GTGTACCGGG ACGTCAGCGG CATGTTCACC ACCGAGAGCC GCCTGGGCGG GGCCCGCGAC 
GAGATGGGCG GCCGCAGCGG CTCAGAGGCC GAGTGTCAGG GCTCAGAGAC CAGCCCCACG 
GTGGACGACG AGGAGGAGAT GCTTTACGGG GACTCGGGCT CCCTCTTCAG CCCCAGCAAG 
GAGGAGGCCC GCAGGAGCAG CCAGCCCCCC GCCGACCGGG ACCCCACCCC CTTCCGGGCT 
GAGCCCACCC ACTGGTGCCT GCTGGTGCGG GAGAACGGAA CCATGGAGAT CTACCAGCTC 
CCCGACTGGC GGCTGGTGTT CCTGGTGAAG AACTTCCCTG TGGGGCAGCG GGTCCTGGTG 
GACAGCTCCT TTGGTCAGCC CACCACCCAG GGCGAGGCCC GGAAGGAGGA GGCCACGCGC 
CAGGGCGAGC TGCCCCTCGT CAAGGAGGTG CTGCTGGTGG CGCTGGGGAG CCGCCAGCGC 
AGGCCCTACT TGCTGGTGCA CGTGGACCAG GAGCTGCTCG TTTATGAGGC CTTCCCCCAC 
GACTCACAGC TCGGCCAGGG GAACCTCAAA GTTCGCTTCA AGAAGGTCCC GCACGGCATC 
AACTTCCGAG AGAAGAAGCC AAAGCCGTCC AAGAAGAAGG CAGAAGGTGG CAGCGCTGAG 
GAGGGCGCTG GGGCCCGAGG CCGTGTGGCG CGGTTCCGCT ACTTTGAGGA CATCTATGGC 
TACTCTGGGG TGTTCATCTG CGGCCCCTCG CCCCACTGGC TCCTGGTGAC TGGCCGGGGG 
GCCCTGCGGC TGCACCCCAT GGGCATCGAT GGCCCCATTG ACTCCTTCGC CCCATTCCAC 
AACGTCAACT GCCCCCGCGG CTTCCTGTAC TTCAACAGAC AGGGCGAGCT GAGGATCAGT 
GTCTTGCCTG CCTACTTGTC CTACGATGCC CCGTGGCCTG TCAGGAAGAT CCCACTGCGC 
TGCACGGCCC ACTATGTGGC CTACCATGTG GAGTCCAAGG TGTATGCTGT TGCCACCAGC 
ACCAACACGC CGTGCACCCG CATCCCGCGC ATGACGGGCG AGGAGAAGGA GTTTGAGACC 
ATTGAGAGAG ATGACCGTTA CATCCACCCT CAGCAGGAGG CCTTCTCCAT CCAGCTCATC 
TCCCCGGTCA GCTGGGAGGC CATCCCCAAC GCCAGGATCG AGCTGGAGGA GTGGGAGCAT 
GTGACCTGCA TGAAGACGGT GTCACTGCGC AGTGAGGAAA CCGTGTCGGG CCTCAAGGGC 
TACGTAGCCG CCGGGACCTG CCTCATGCAA GGGGAGGAGG TCACTTGCCG AGGGCGGATC 
CTGATCATGG ACGTGATCGA GGTGGTGCCC GAGCCCGGCC AGCCCCTGAC CAAGAACAAG 
TTCAAGGTCT TGTACGAGAA GGAGCAGAAG GGGCCCGTGA CCGCCCTGTG CCACTGCAAT 
GGCCACCTGG TGTCAGCCAT CGGCCAGAAG ATCTTCCTGT GGAGCCTGCG GGCCAGCGAG 
CTGACAGGCA TGGCCTTCAT CGACACACAA CTCTACATCC ACCAGATGAT CAGCGTCAAG 
AACTTCATCC TGGCCGCGGA CGTCATGAAG AGCATCTCGC TGCTGCGCTA CCAGGAGGAG 
AGCAAGACGC TGAGCCTTGT GTCCCGGGAC GCCAAGCCCC TGGAAGTGTA CAGCGTGGAC 
TTCATGGTGG ACAATGCCCA GCTGGGCTTC CTGGTGTCCG ACCGTGACCG CAACCTCATG 
GTCTACATGT ACCTGCCAGA GGCCAAGGAG AGCTTCGGGG GCATGCGGCT GCTGCGCCGG 
GCAGACTTCC ACGTGGGCGC CCACGTGAAC ACGTTCTGGA GGACCCCCTG CCGGGGGGCT 
GCCGAAGGGC CCAGCAAGAA GTCCGTTGTG TGGGAGAACA AGCACATCAC GTGGTTTGCC 
ACACTGGACG GCGGCATTGG CCTCCTGCTG CCCATGCAGG AGAAGACCTA CCGGCGGCTG 
CTGATGCTGC AGAACGCACT GACCACCATG CTGCCCCACC ATGCCGGCCT CAACCCGCGT 
GCCTTCCGGA TGCTGCACGT GGACCGGCGC GTCCTACAGA ATGCGGTGCG CAACGTCCTG 
GATGGGGAGC TGCTCAACCG CTACCTGTAC CTGAGCACCA TGGAGCGCGG GGAGCTGGCC 
AAGAAGATTG GCACCACGCC CGACATCATC CTGGACGACC TGTTGGAGAC GGACCGAGTC 
ACTGCCCACT TCTAG

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

RefSeq	XP_007166892.1
CDS	154..4488
Translation	MYAVYKQAHPPTGLEFSMYCNFFNNSERNLVVAGTSQLYVYRLNRDAEVPTKNDRSAEGKAHREHREKLELVASFSFFGNVMSMASVQLAGAKRDALLLSFKDAKLSVVEYDPGTHDLKTLSLHYFEEPELRDGFVQNVHTPRVRVDPDGRCAAMLIYGTRLVVLPFRRESLAEEHEGLVGEGQRSSFLPSYIIDVRALDEKLLNIVDLQFLHGYYEPTLLILFEPNQTWPGRVAVRQDTCSIVAISLNITQKVHPVIWSLTSLPFDCTQALAVPKPIGGVVVFAVNSLLYLNQSVPPYGVALNSLTTGTTAFPLRTQEGVRITLDCAQAAFISYDKMVISLKGGEIYVLTLITDGMRSVRAFHFDKAAASVLTTSVSGVSGnullnullnullnullLGSRLGNSLLLKYTEKLQEPPAGTAREVADKEEPPSKKKRVDATASWSGGKSAPQDEVDEIEVYGSEAQSGTQLATYSFEVCDSILNIGPCANAAMGEPAFLSEEFQNSPEPDLEIVVCSGYGKNGALSVLQKSIRPQVVTTFELPGCYDMWTVIAPVRKEQEETTKGEGAEQEPSAPEADDDGRRHGFLILSREDSTMILQTGQEIMELDTSGFATQGPTVFAGNIGDNRYIVQVSPLGIRLLEGVNQLHFIPVDLGSPIVQCAVADPCVVIMSAEGHITMFLLKSDSYGGRHHRLALHKPPLHHQSKVITLCVYRDVSGMFTTESRLGGARDEMGGRSGSEAECQGSETSPTVDDEEEMLYGDSGSLFSPSKEEARRSSQPPADRDPTPFRAEPTHWCLLVRENGTMEIYQLPDWRLVFLVKNFPVGQRVLVDSSFGQPTTQGEARKEEATRQGELPLVKEVLLVALGSRQRRPYLLVHVDQELLVYEAFPHDSQLGQGNLKVRFKKVPHGINFREKKPKPSKKKAEGGSAEEGAGARGRVARFRYFEDIYGYSGVFICGPSPHWLLVTGRGALRLHPMGIDGPIDSFAPFHNVNCPRGFLYFNRQGELRISVLPAYLSYDAPWPVRKIPLRCTAHYVAYHVESKVYAVATSTNTPCTRIPRMTGEEKEFETIERDDRYIHPQQEAFSIQLISPVSWEAIPNARIELEEWEHVTCMKTVSLRSEETVSGLKGYVAAGTCLMQGEEVTCRGRILIMDVIEVVPEPGQPLTKNKFKVLYEKEQKGPVTALCHCNGHLVSAIGQKIFLWSLRASELTGMAFIDTQLYIHQMISVKNFILAADVMKSISLLRYQEESKTLSLVSRDAKPLEVYSVDFMVDNAQLGFLVSDRDRNLMVYMYLPEAKESFGGMRLLRRADFHVGAHVNTFWRTPCRGAAEGPSKKSVVWENKHITWFATLDGGIGLLLPMQEKTYRRLLMLQNALTTMLPHHAGLNPRAFRMLHVDRRVLQNAVRNVLDGELLNRYLYLSTMERGELAKKIGTTPDIILDDLLETDRVTAHF

Target ORF information:

RefSeq Version	XM_007166830.1
Organism	Balaenoptera acutorostrata scammoni
Definition	Balaenoptera acutorostrata scammoni cleavage and polyadenylation specific factor 1 (CPSF1), mRNA.

Target ORF information:

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

XM_007166830.1

ORF Insert Sequence:

ATGTACGCCG TATACAAACA GGCGCATCCG CCCACCGGCC TCGAGTTCTC GATGTATTGC 
AACTTTTTTA ACAACAGCGA GCGCAACCTC GTGGTGGCCG GGACCTCGCA GCTCTACGTG 
TACCGCCTCA ACCGCGACGC CGAGGTGCCG ACCAAGAATG ACAGGAGCGC GGAGGGGAAG 
GCGCACCGGG AGCACCGGGA AAAGCTGGAG CTGGTGGCTT CCTTCTCTTT CTTCGGCAAC 
GTCATGTCCA TGGCCAGCGT GCAGCTGGCG GGCGCCAAGA GGGATGCCCT CCTCCTGAGC 
TTCAAGGATG CCAAGCTGTC GGTGGTGGAA TACGACCCGG GCACCCACGA CCTCAAGACC 
CTGTCTCTGC ACTACTTTGA GGAGCCTGAG CTGCGGGACG GCTTCGTGCA GAACGTGCAC 
ACGCCGCGGG TGCGCGTGGA CCCCGACGGG CGCTGCGCGG CCATGCTCAT CTACGGCACG 
CGGCTGGTGG TCCTGCCCTT CCGCAGGGAG AGCCTGGCCG AGGAGCACGA GGGGCTCGTG 
GGTGAGGGGC AGAGGTCCAG CTTCCTGCCC AGCTACATCA TTGACGTGAG GGCCCTGGAC 
GAGAAGCTTC TCAACATTGT TGACCTGCAG TTCCTGCACG GCTACTACGA GCCCACCCTG 
CTCATCCTGT TTGAGCCCAA CCAGACCTGG CCTGGGCGGG TGGCTGTGCG GCAGGACACG 
TGCTCCATCG TGGCCATTTC GCTGAACATC ACGCAGAAGG TCCACCCCGT CATCTGGTCC 
CTCACCAGCC TGCCTTTTGA CTGCACCCAG GCCCTTGCCG TGCCCAAGCC CATAGGCGGG 
GTGGTGGTCT TTGCTGTCAA CTCGCTGCTA TACCTGAACC AGAGCGTCCC CCCCTACGGC 
GTGGCCCTCA ACAGCCTCAC CACCGGCACC ACTGCCTTCC CCCTGCGCAC CCAGGAGGGC 
GTGCGGATCA CCCTGGACTG TGCCCAGGCA GCCTTCATCT CCTACGACAA GATGGTCATC 
TCCCTCAAGG GCGGCGAGAT CTACGTGCTG ACACTCATCA CGGACGGCAT GCGCAGCGTC 
CGCGCCTTCC ACTTCGACAA GGCCGCCGCC AGCGTCCTCA CCACGAGCGT GAGTGGGGTC 
TCGGGGGGNN NNNNNNTCCT TGGCTCTCGC CTGGGCAACT CCCTGCTCCT CAAGTACACG 
GAAAAGCTGC AGGAGCCCCC GGCCGGCACC GCCCGAGAGG TTGCCGACAA GGAGGAGCCG 
CCCTCCAAGA AGAAGCGCGT GGACGCCACA GCCAGCTGGT CAGGGGGCAA GTCAGCGCCG 
CAGGACGAGG TGGACGAGAT CGAGGTGTAC GGCAGCGAGG CCCAGTCCGG TACGCAGCTG 
GCCACTTACT CCTTTGAGGT GTGTGACAGC ATCCTCAACA TCGGACCCTG TGCCAACGCC 
GCCATGGGCG AGCCCGCCTT CCTCTCTGAA GAGTTTCAGA ACAGTCCCGA GCCAGACCTG 
GAGATCGTGG TGTGCTCCGG CTACGGGAAG AACGGGGCCC TGTCGGTGCT GCAGAAGAGC 
ATCCGGCCCC AGGTGGTGAC CACCTTTGAG CTTCCTGGCT GCTATGACAT GTGGACAGTC 
ATCGCCCCTG TGCGTAAGGA GCAGGAGGAG ACCACTAAGG GGGAGGGGGC GGAGCAGGAG 
CCCAGCGCCC CCGAAGCAGA TGACGATGGG CGGAGACACG GGTTCCTTAT CCTGAGCCGG 
GAAGACTCCA CCATGATCCT ACAGACGGGG CAGGAGATCA TGGAGCTGGA CACCAGCGGC 
TTTGCCACGC AGGGCCCCAC AGTCTTTGCT GGCAACATCG GGGACAATCG CTACATCGTG 
CAAGTGTCGC CACTCGGCAT CCGCCTGTTG GAAGGAGTGA ACCAGCTGCA CTTCATCCCC 
GTGGACCTGG GCTCCCCCAT CGTGCAGTGC GCCGTGGCCG ACCCCTGCGT GGTCATCATG 
AGTGCCGAGG GCCACATCAC CATGTTCCTG CTCAAGAGTG ACTCGTATGG GGGCCGCCAC 
CACCGCCTGG CGCTGCACAA GCCCCCGCTG CACCACCAGT CCAAGGTGAT TACGCTCTGC 
GTGTACCGGG ACGTCAGCGG CATGTTCACC ACCGAGAGCC GCCTGGGCGG GGCCCGCGAC 
GAGATGGGCG GCCGCAGCGG CTCAGAGGCC GAGTGTCAGG GCTCAGAGAC CAGCCCCACG 
GTGGACGACG AGGAGGAGAT GCTTTACGGG GACTCGGGCT CCCTCTTCAG CCCCAGCAAG 
GAGGAGGCCC GCAGGAGCAG CCAGCCCCCC GCCGACCGGG ACCCCACCCC CTTCCGGGCT 
GAGCCCACCC ACTGGTGCCT GCTGGTGCGG GAGAACGGAA CCATGGAGAT CTACCAGCTC 
CCCGACTGGC GGCTGGTGTT CCTGGTGAAG AACTTCCCTG TGGGGCAGCG GGTCCTGGTG 
GACAGCTCCT TTGGTCAGCC CACCACCCAG GGCGAGGCCC GGAAGGAGGA GGCCACGCGC 
CAGGGCGAGC TGCCCCTCGT CAAGGAGGTG CTGCTGGTGG CGCTGGGGAG CCGCCAGCGC 
AGGCCCTACT TGCTGGTGCA CGTGGACCAG GAGCTGCTCG TTTATGAGGC CTTCCCCCAC 
GACTCACAGC TCGGCCAGGG GAACCTCAAA GTTCGCTTCA AGAAGGTCCC GCACGGCATC 
AACTTCCGAG AGAAGAAGCC AAAGCCGTCC AAGAAGAAGG CAGAAGGTGG CAGCGCTGAG 
GAGGGCGCTG GGGCCCGAGG CCGTGTGGCG CGGTTCCGCT ACTTTGAGGA CATCTATGGC 
TACTCTGGGG TGTTCATCTG CGGCCCCTCG CCCCACTGGC TCCTGGTGAC TGGCCGGGGG 
GCCCTGCGGC TGCACCCCAT GGGCATCGAT GGCCCCATTG ACTCCTTCGC CCCATTCCAC 
AACGTCAACT GCCCCCGCGG CTTCCTGTAC TTCAACAGAC AGGGCGAGCT GAGGATCAGT 
GTCTTGCCTG CCTACTTGTC CTACGATGCC CCGTGGCCTG TCAGGAAGAT CCCACTGCGC 
TGCACGGCCC ACTATGTGGC CTACCATGTG GAGTCCAAGG TGTATGCTGT TGCCACCAGC 
ACCAACACGC CGTGCACCCG CATCCCGCGC ATGACGGGCG AGGAGAAGGA GTTTGAGACC 
ATTGAGAGAG ATGACCGTTA CATCCACCCT CAGCAGGAGG CCTTCTCCAT CCAGCTCATC 
TCCCCGGTCA GCTGGGAGGC CATCCCCAAC GCCAGGATCG AGCTGGAGGA GTGGGAGCAT 
GTGACCTGCA TGAAGACGGT GTCACTGCGC AGTGAGGAAA CCGTGTCGGG CCTCAAGGGC 
TACGTAGCCG CCGGGACCTG CCTCATGCAA GGGGAGGAGG TCACTTGCCG AGGGCGGATC 
CTGATCATGG ACGTGATCGA GGTGGTGCCC GAGCCCGGCC AGCCCCTGAC CAAGAACAAG 
TTCAAGGTCT TGTACGAGAA GGAGCAGAAG GGGCCCGTGA CCGCCCTGTG CCACTGCAAT 
GGCCACCTGG TGTCAGCCAT CGGCCAGAAG ATCTTCCTGT GGAGCCTGCG GGCCAGCGAG 
CTGACAGGCA TGGCCTTCAT CGACACACAA CTCTACATCC ACCAGATGAT CAGCGTCAAG 
AACTTCATCC TGGCCGCGGA CGTCATGAAG AGCATCTCGC TGCTGCGCTA CCAGGAGGAG 
AGCAAGACGC TGAGCCTTGT GTCCCGGGAC GCCAAGCCCC TGGAAGTGTA CAGCGTGGAC 
TTCATGGTGG ACAATGCCCA GCTGGGCTTC CTGGTGTCCG ACCGTGACCG CAACCTCATG 
GTCTACATGT ACCTGCCAGA GGCCAAGGAG AGCTTCGGGG GCATGCGGCT GCTGCGCCGG 
GCAGACTTCC ACGTGGGCGC CCACGTGAAC ACGTTCTGGA GGACCCCCTG CCGGGGGGCT 
GCCGAAGGGC CCAGCAAGAA GTCCGTTGTG TGGGAGAACA AGCACATCAC GTGGTTTGCC 
ACACTGGACG GCGGCATTGG CCTCCTGCTG CCCATGCAGG AGAAGACCTA CCGGCGGCTG 
CTGATGCTGC AGAACGCACT GACCACCATG CTGCCCCACC ATGCCGGCCT CAACCCGCGT 
GCCTTCCGGA TGCTGCACGT GGACCGGCGC GTCCTACAGA ATGCGGTGCG CAACGTCCTG 
GATGGGGAGC TGCTCAACCG CTACCTGTAC CTGAGCACCA TGGAGCGCGG GGAGCTGGCC 
AAGAAGATTG GCACCACGCC CGACATCATC CTGGACGACC TGTTGGAGAC GGACCGAGTC 
ACTGCCCACT TCTAG

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

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CPSF1 cDNA ORF clone, Balaenoptera acutorostrata scammoni

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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