Sf3b1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Sf3b1
Entrez Gene ID	84486
Full Name	splicing factor 3b, subunit 1
Synonyms	Sap155
General protein information	Preferred Names splicing factor 3b, subunit 1 Names splicing factor 3B subunit 1 splicing factor 3b, subunit 1, 155kD
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 9 Map Location: 9q31
Summary	mouse homolog is a subunit of the U2 snRNP that is necessary for prespliceosome assembly and splicing catalysis [RGD, Feb 2006].

mRNA and Protein(s)

mRNA	Protein	Name
XM_017596654.1	XP_017452143.1	splicing factor 3B subunit 1 isoform X1
NM_053426.1	NP_445878.1	splicing factor 3B subunit 1

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	SF3B1	XP_545578.2
Mus musculus (house mouse)	Sf3b1	NP_112456.2
Drosophila melanogaster (fruit fly)	CG2807	NP_001259837.1
Arabidopsis thaliana (thale cress)	AT5G64270	NP_201232.1
Pan troglodytes (chimpanzee)	SF3B1	XP_516006.3
	SF3B1	XP_001086317.2
Rattus norvegicus (Norway rat)	Sf3b1	NP_445878.1
Gallus gallus (chicken)	SF3B1	XP_421912.3
Schizosaccharomyces pombe (fission yeast)	prp10	NP_594538.2
Oryza sativa (rice)	Os02g0147300	NP_001045883.1
Homo sapiens (human)	SF3B1	NP_036565.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP000178	XP_310958.5
Magnaporthe oryzae (rice blast fungus)	MGG_00356	XP_003718725.1
Bos taurus (cattle)	SF3B1	NP_001179923.1
Danio rerio (zebrafish)	sf3b1	XP_005167843.1
Caenorhabditis elegans (roundworm)	T08A11.2	NP_497853.1
Neurospora crassa	NCU03042	XP_964047.1
Xenopus tropicalis (tropical clawed frog)	sf3b1	XP_002931569.2

Gene Ontology
Bibliography

Related articles in PubMed

Structure of the human activated spliceosome in three conformational states.
Zhang X, Yan C, Zhan X, Li L, Lei J, Shi Y
Cell research(2018 Jan)

Cryo-EM Structure of a Pre-catalytic Human Spliceosome Primed for Activation.
Bertram K, Agafonov DE, Dybkov O, Haselbach D, Leelaram MN, Will CL, Urlaub H, Kastner B, L?hrmann R, Stark H
Cell170(4)701-713.e11(2017 Aug)

Splicing modulators act at the branch point adenosine binding pocket defined by the PHF5A-SF3b complex.
Teng T, Tsai JH, Puyang X, Seiler M, Peng S, Prajapati S, Aird D, Buonamici S, Caleb B, Chan B, Corson L, Feala J, Fekkes P, Gerard B, Karr C, Korpal M, Liu X, T Lowe J, Mizui Y, Palacino J, Park E, Smith PG, Subramanian V, Wu ZJ, Zou J, Yu L, Chicas A, Warmuth M, Larsen N, Zhu P
Nature communications815522(2017 May)

Towards Functional Annotation of the Preimplantation Transcriptome: An RNAi Screen in Mammalian Embryos.
Cui W, Dai X, Marcho C, Han Z, Zhang K, Tremblay KD, Mager J
Scientific reports637396(2016 Nov)

Molecular Architecture of SF3b and Structural Consequences of Its Cancer-Related Mutations.
Cretu C, Schmitzov? J, Ponce-Salvatierra A, Dybkov O, De Laurentiis EI, Sharma K, Will CL, Urlaub H, L?hrmann R, Pena V
Molecular cell64(2)307-319(2016 Oct)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following Sf3b1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Sf3b1 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
ORa09534	NM_053426.1 Latest version!	Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa32212	XM_017596654.1 Latest version!	Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00

ORF Online Only Promotion

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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)

Sf3b1 ( NM_053426.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_445878.1 Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), mRNA.

Price & Availability↑

CloneID	ORa09534
Clone ID Related Accession (Same CDS sequence)	NM_053426.1
Accession Version	NM_053426.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3915bp) 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	2019-10-09
Organism	Rattus norvegicus(Norway rat)
Product	splicing factor 3B subunit 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AABR07067758.1. On or before Jun 5, 2008 this sequence version replaced XM_343570.3, XM_001066744.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END##

ATGGCGAAGA TCGCCAAGAC TCACGAAGAT ATCGAAGCAC AGATTCGAGA AATTCAAGGC 
AAGAAGGCAG CTCTTGATGA AGCCCAAGGA GTGGGCCTTG ATTCCACAGG TTATTATGAC 
CAAGAAATTT ATGGTGGAAG TGATAGCAGG TTTGCTGGAT ATGTGACATC AATTGCTGCG 
ACTGAACTTG AAGATGATGA CGATGACTAC TCATCATCCA CTAGCTTGCT TGGTCAGAAG 
AAGCCTGGAT ATCATGCCCC CGTGGCATTG CTTAATGATA TACCACAGTC AACAGAACAG 
TATGATCCAT TCGCTGAGCA TCGTCCTCCA AAGATTGCAG ACCGGGAAGA TGAATATAAA 
AAGCATAGGC GGACCATGAT AATTTCCCCA GAGCGTCTTG ATCCTTTTGC AGATGGAGGG 
AAGACCCCTG ATCCTAAAAT GAATGCTAGA ACCTACATGG ATGTTATGCG AGAACAACAT 
TTGACTAAGG AAGAGAGAGA AATTAGGCAA CAACTAGCAG AAAAAGCTAA AGCTGGAGAA 
CTAAAAGTTG TCAACGGAGC AGCAGCATCC CAGCCTCCCT CAAAACGAAA ACGGCGCTGG 
GATCAAACTG CTGACCAGAC TCCTGGTGCC ACTCCCAAAA AGCTGTCAAG TTGGGATCAG 
GCAGAGACCC CTGGGCATAC CCCTTCTTTA AGATGGGATG AGACACCGGG TCGTGCAAAA 
GGAAGTGAAA CACCTGGAGC AACCCCAGGC TCAAAAATAT GGGATCCTAC ACCTAGTCAT 
ACACCTGCGG GAGCTGCTAC TCCTGGACGA GGAGATACAC CAGGCCATGC AACCCCGGGC 
CATGGCGGTG CAACTTCCAG TGCCCGTAAA AACAGATGGG ATGAGACCCC CAAAACAGAA 
AGAGATACTC CTGGGCATGG AAGTGGGTGG GCTGAGACTC CTCGAACAGA CCGAGGTGGA 
GACTCTATTG GTGAGACACC AACTCCTGGA GCAAGTAAAA GAAAGTCTCG TTGGGACGAA 
ACACCAGCTA GTCAAATGGG CGGAAGCACT CCTGTTCTGA CTCCAGGAAA AACACCAATT 
GGCACACCAG CCATGAACAT GGCCACCCCC ACTCCAGGTC ACATAATGAG CATGACTCCT 
GAGCAGCTTC AGGCTTGGCG GTGGGAGAGA GAGATTGATG AGCGCAACCG CCCACTTTCT 
GATGAGGAAT TAGATGCTAT GTTCCCAGAA GGATACAAGG TCCTTCCCCC TCCAGCTGGC 
TATGTTCCTA TTCGAACTCC AGCTCGAAAG CTGACAGCAA CTCCCACACC TTTGGGCGGT 
ATGACTGGTT TTCACATGCA AACTGAAGAC AGAACTATGA AAAGTGTCAA CGACCAGCCA 
TCTGGGAATC TTCCATTTCT AAAACCTGAT GACATTCAGT ACTTTGACAA ACTATTGGTT 
GATGTAGATG AGTCAACACT TAGTCCAGAA GAGCAAAAAG AAAGAAAAAT AATGAAGTTG 
CTTTTAAAAA TTAAGAATGG TACACCTCCA ATGAGAAAGG CTGCCTTACG TCAGATTACT 
GATAAAGCTC GAGAATTTGG AGCTGGACCA CTGTTTAACC AGATTCTGCC TCTATTGATG 
TCCCCTACAC TTGAGGATCA AGAGCGACAT TTACTTGTGA AAGTTATTGA CAGAATATTG 
TATAAACTTG ATGACTTGGT GCGGCCATAT GTGCACAAGA TTCTTGTGGT TATCGAGCCA 
CTGTTGATTG ATGAAGATTA CTATGCTAGA GTGGAAGGCC GAGAAATTAT TTCTAATTTG 
GCAAAGGCTG CTGGTCTGGC TACTATGATT TCTACCATGA GACCTGATAT AGATAACATG 
GATGAATATG TCCGAAACAC AACAGCTAGA GCTTTTGCTG TTGTAGCCTC TGCTCTGGGC 
ATTCCTTCTT TATTGCCTTT CTTGAAAGCT GTGTGTAAAA GCAAGAAGTC TTGGCAAGCG 
AGGCACACTG GTATTAAGAT TGTACAACAG ATAGCCATTC TCATGGGCTG TGCTATCTTG 
CCACATCTCA GAAGTTTAGT TGAAATCATT GAGCATGGTC TCGTGGATGA GCAGCAGAAA 
GTTCGGACCA TCAGTGCTCT GGCCATTGCT GCTTTGGCTG AGGCAGCAAC TCCTTATGGT 
ATTGAGTCTT TTGATTCTGT GCTCAAGCCC CTATGGAAGG GTATTCGCCA ACATAGAGGA 
AAGGGTCTGG CTGCTTTCTT GAAGGCTATT GGGTATCTTA TTCCTCTTAT GGATGCAGAA 
TATGCCAACT ACTATACTAG AGAAGTGATG CTAATCCTTA TTCGAGAATT CCAGTCTCCT 
GATGAAGAAA TGAAGAAAAT TGTTTTGAAG GTGGTGAAAC AGTGTTGTGG AACTGATGGT 
GTAGAGGCAA ACTACATTAA GACAGAGATT CTTCCACCTT TCTTTAAACA CTTCTGGCAG 
CACAGAATGG CTTTGGATAG AAGAAATTAC CGACAGTTAG TCGATACAAC TGTGGAGTTG 
GCAAACAAAG TGGGCGCGGC AGAGATCATA TCTAGGATTG TTGACGATCT GAAGGATGAG 
GCTGAGCAGT ACCGGAAAAT GGTGATGGAA ACCATTGAGA AAATTATGGG CAATCTAGGT 
GCAGCGGATA TTGACCATAA ACTTGAGGAA CAGCTTATCG ATGGCATTCT CTATGCTTTC 
CAAGAACAGA CTACGGAGGA TTCAGTAATG CTGAATGGCT TTGGCACAGT AGTCAATGCT 
CTTGGCAAAC GAGTCAAACC ATACTTGCCT CAGATCTGTG GTACAGTTTT ATGGCGTTTG 
AATAATAAAT CAGCAAAAGT TAGGCAACAA GCAGCTGACT TGATTTCTCG AACTGCTGTT 
GTCATGAAGA CTTGTCAAGA GGAAAAACTG ATGGGGCACT TGGGTGTGGT GCTGTATGAG 
TATCTGGGTG AAGAGTACCC TGAAGTATTG GGCAGCATTC TTGGAGCACT GAAGGCTATT 
GTAAATGTAA TAGGTATGCA TAAGATGACA CCACCAATTA AAGATCTGTT GCCTAGACTC 
ACCCCCATCT TAAAGAACAG ACATGAAAAA GTACAAGAGA ATTGTATTGA TCTTGTTGGG 
CGTATTGCTG ACAGGGGAGC TGAGTATGTA TCTGCAAGAG AGTGGATGAG GATTTGCTTT 
GAACTTTTAG AGCTTTTAAA AGCTCACAAA AAAGCTATTC GAAGAGCTAC AGTCAATACA 
TTTGGTTATA TCGCAAAGGC TATTGGCCCT CACGATGTAT TGGCTACACT TCTAAACAAC 
CTCAAAGTTC AGGAAAGGCA GAACAGGGTT TGTACGACTG TAGCAATAGC CATTGTTGCT 
GAAACATGCT CACCCTTCAC AGTACTCCCT GCCCTGATGA ATGAGTACAG AGTTCCTGAG 
CTTAATGTTC AAAATGGAGT GTTAAAATCA CTCTCCTTCC TGTTTGAGTA TATCGGTGAA 
ATGGGAAAAG ACTACATCTA CGCTGTAACA CCTTTACTTG AGGATGCATT AATGGATAGG 
GACCTTGTAC ACAGACAGAC AGCTAGTGCA GTGGTACAAC ACATGTCACT TGGTGTTTAT 
GGATTTGGCT GTGAAGATTC TCTGAATCAC TTACTGAACT ATGTGTGGCC TAATGTGTTT 
GAGACATCTC CCCATGTAAT CCAGGCAGTT ATGGGAGCTC TGGAGGGCCT GAGAGTTGCT 
ATTGGACCAT GCAGAATGTT GCAGTATTGC TTACAGGGCC TGTTTCACCC AGCTCGGAAA 
GTCAGAGATG TATATTGGAA AATTTACAAC TCCATCTACA TTGGCTCCCA GGATGCTCTC 
ATAGCACATT ACCCAAGGAT CTACAATGAT GATAAGAACA CCTATATTCG TTACGAACTT 
GACTATATCT TGTAA

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

RefSeq	NP_445878.1
CDS	130..4044
Translation	MAKIAKTHEDIEAQIREIQGKKAALDEAQGVGLDSTGYYDQEIYGGSDSRFAGYVTSIAATELEDDDDDYSSSTSLLGQKKPGYHAPVALLNDIPQSTEQYDPFAEHRPPKIADREDEYKKHRRTMIISPERLDPFADGGKTPDPKMNARTYMDVMREQHLTKEEREIRQQLAEKAKAGELKVVNGAAASQPPSKRKRRWDQTADQTPGATPKKLSSWDQAETPGHTPSLRWDETPGRAKGSETPGATPGSKIWDPTPSHTPAGAATPGRGDTPGHATPGHGGATSSARKNRWDETPKTERDTPGHGSGWAETPRTDRGGDSIGETPTPGASKRKSRWDETPASQMGGSTPVLTPGKTPIGTPAMNMATPTPGHIMSMTPEQLQAWRWEREIDERNRPLSDEELDAMFPEGYKVLPPPAGYVPIRTPARKLTATPTPLGGMTGFHMQTEDRTMKSVNDQPSGNLPFLKPDDIQYFDKLLVDVDESTLSPEEQKERKIMKLLLKIKNGTPPMRKAALRQITDKAREFGAGPLFNQILPLLMSPTLEDQERHLLVKVIDRILYKLDDLVRPYVHKILVVIEPLLIDEDYYARVEGREIISNLAKAAGLATMISTMRPDIDNMDEYVRNTTARAFAVVASALGIPSLLPFLKAVCKSKKSWQARHTGIKIVQQIAILMGCAILPHLRSLVEIIEHGLVDEQQKVRTISALAIAALAEAATPYGIESFDSVLKPLWKGIRQHRGKGLAAFLKAIGYLIPLMDAEYANYYTREVMLILIREFQSPDEEMKKIVLKVVKQCCGTDGVEANYIKTEILPPFFKHFWQHRMALDRRNYRQLVDTTVELANKVGAAEIISRIVDDLKDEAEQYRKMVMETIEKIMGNLGAADIDHKLEEQLIDGILYAFQEQTTEDSVMLNGFGTVVNALGKRVKPYLPQICGTVLWRLNNKSAKVRQQAADLISRTAVVMKTCQEEKLMGHLGVVLYEYLGEEYPEVLGSILGALKAIVNVIGMHKMTPPIKDLLPRLTPILKNRHEKVQENCIDLVGRIADRGAEYVSAREWMRICFELLELLKAHKKAIRRATVNTFGYIAKAIGPHDVLATLLNNLKVQERQNRVCTTVAIAIVAETCSPFTVLPALMNEYRVPELNVQNGVLKSLSFLFEYIGEMGKDYIYAVTPLLEDALMDRDLVHRQTASAVVQHMSLGVYGFGCEDSLNHLLNYVWPNVFETSPHVIQAVMGALEGLRVAIGPCRMLQYCLQGLFHPARKVRDVYWKIYNSIYIGSQDALIAHYPRIYNDDKNTYIRYELDYIL

Target ORF information:

RefSeq Version	NM_053426.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), mRNA.

Target ORF information:

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

NM_053426.1

ORF Insert Sequence:

ATGGCGAAGA TCGCCAAGAC TCACGAAGAT ATCGAAGCAC AGATTCGAGA AATTCAAGGC 
AAGAAGGCAG CTCTTGATGA AGCCCAAGGA GTGGGCCTTG ATTCCACAGG TTATTATGAC 
CAAGAAATTT ATGGTGGAAG TGATAGCAGG TTTGCTGGAT ATGTGACATC AATTGCTGCG 
ACTGAACTTG AAGATGATGA CGATGACTAC TCATCATCCA CTAGCTTGCT TGGTCAGAAG 
AAGCCTGGAT ATCATGCCCC CGTGGCATTG CTTAATGATA TACCACAGTC AACAGAACAG 
TATGATCCAT TCGCTGAGCA TCGTCCTCCA AAGATTGCAG ACCGGGAAGA TGAATATAAA 
AAGCATAGGC GGACCATGAT AATTTCCCCA GAGCGTCTTG ATCCTTTTGC AGATGGAGGG 
AAGACCCCTG ATCCTAAAAT GAATGCTAGA ACCTACATGG ATGTTATGCG AGAACAACAT 
TTGACTAAGG AAGAGAGAGA AATTAGGCAA CAACTAGCAG AAAAAGCTAA AGCTGGAGAA 
CTAAAAGTTG TCAACGGAGC AGCAGCATCC CAGCCTCCCT CAAAACGAAA ACGGCGCTGG 
GATCAAACTG CTGACCAGAC TCCTGGTGCC ACTCCCAAAA AGCTGTCAAG TTGGGATCAG 
GCAGAGACCC CTGGGCATAC CCCTTCTTTA AGATGGGATG AGACACCGGG TCGTGCAAAA 
GGAAGTGAAA CACCTGGAGC AACCCCAGGC TCAAAAATAT GGGATCCTAC ACCTAGTCAT 
ACACCTGCGG GAGCTGCTAC TCCTGGACGA GGAGATACAC CAGGCCATGC AACCCCGGGC 
CATGGCGGTG CAACTTCCAG TGCCCGTAAA AACAGATGGG ATGAGACCCC CAAAACAGAA 
AGAGATACTC CTGGGCATGG AAGTGGGTGG GCTGAGACTC CTCGAACAGA CCGAGGTGGA 
GACTCTATTG GTGAGACACC AACTCCTGGA GCAAGTAAAA GAAAGTCTCG TTGGGACGAA 
ACACCAGCTA GTCAAATGGG CGGAAGCACT CCTGTTCTGA CTCCAGGAAA AACACCAATT 
GGCACACCAG CCATGAACAT GGCCACCCCC ACTCCAGGTC ACATAATGAG CATGACTCCT 
GAGCAGCTTC AGGCTTGGCG GTGGGAGAGA GAGATTGATG AGCGCAACCG CCCACTTTCT 
GATGAGGAAT TAGATGCTAT GTTCCCAGAA GGATACAAGG TCCTTCCCCC TCCAGCTGGC 
TATGTTCCTA TTCGAACTCC AGCTCGAAAG CTGACAGCAA CTCCCACACC TTTGGGCGGT 
ATGACTGGTT TTCACATGCA AACTGAAGAC AGAACTATGA AAAGTGTCAA CGACCAGCCA 
TCTGGGAATC TTCCATTTCT AAAACCTGAT GACATTCAGT ACTTTGACAA ACTATTGGTT 
GATGTAGATG AGTCAACACT TAGTCCAGAA GAGCAAAAAG AAAGAAAAAT AATGAAGTTG 
CTTTTAAAAA TTAAGAATGG TACACCTCCA ATGAGAAAGG CTGCCTTACG TCAGATTACT 
GATAAAGCTC GAGAATTTGG AGCTGGACCA CTGTTTAACC AGATTCTGCC TCTATTGATG 
TCCCCTACAC TTGAGGATCA AGAGCGACAT TTACTTGTGA AAGTTATTGA CAGAATATTG 
TATAAACTTG ATGACTTGGT GCGGCCATAT GTGCACAAGA TTCTTGTGGT TATCGAGCCA 
CTGTTGATTG ATGAAGATTA CTATGCTAGA GTGGAAGGCC GAGAAATTAT TTCTAATTTG 
GCAAAGGCTG CTGGTCTGGC TACTATGATT TCTACCATGA GACCTGATAT AGATAACATG 
GATGAATATG TCCGAAACAC AACAGCTAGA GCTTTTGCTG TTGTAGCCTC TGCTCTGGGC 
ATTCCTTCTT TATTGCCTTT CTTGAAAGCT GTGTGTAAAA GCAAGAAGTC TTGGCAAGCG 
AGGCACACTG GTATTAAGAT TGTACAACAG ATAGCCATTC TCATGGGCTG TGCTATCTTG 
CCACATCTCA GAAGTTTAGT TGAAATCATT GAGCATGGTC TCGTGGATGA GCAGCAGAAA 
GTTCGGACCA TCAGTGCTCT GGCCATTGCT GCTTTGGCTG AGGCAGCAAC TCCTTATGGT 
ATTGAGTCTT TTGATTCTGT GCTCAAGCCC CTATGGAAGG GTATTCGCCA ACATAGAGGA 
AAGGGTCTGG CTGCTTTCTT GAAGGCTATT GGGTATCTTA TTCCTCTTAT GGATGCAGAA 
TATGCCAACT ACTATACTAG AGAAGTGATG CTAATCCTTA TTCGAGAATT CCAGTCTCCT 
GATGAAGAAA TGAAGAAAAT TGTTTTGAAG GTGGTGAAAC AGTGTTGTGG AACTGATGGT 
GTAGAGGCAA ACTACATTAA GACAGAGATT CTTCCACCTT TCTTTAAACA CTTCTGGCAG 
CACAGAATGG CTTTGGATAG AAGAAATTAC CGACAGTTAG TCGATACAAC TGTGGAGTTG 
GCAAACAAAG TGGGCGCGGC AGAGATCATA TCTAGGATTG TTGACGATCT GAAGGATGAG 
GCTGAGCAGT ACCGGAAAAT GGTGATGGAA ACCATTGAGA AAATTATGGG CAATCTAGGT 
GCAGCGGATA TTGACCATAA ACTTGAGGAA CAGCTTATCG ATGGCATTCT CTATGCTTTC 
CAAGAACAGA CTACGGAGGA TTCAGTAATG CTGAATGGCT TTGGCACAGT AGTCAATGCT 
CTTGGCAAAC GAGTCAAACC ATACTTGCCT CAGATCTGTG GTACAGTTTT ATGGCGTTTG 
AATAATAAAT CAGCAAAAGT TAGGCAACAA GCAGCTGACT TGATTTCTCG AACTGCTGTT 
GTCATGAAGA CTTGTCAAGA GGAAAAACTG ATGGGGCACT TGGGTGTGGT GCTGTATGAG 
TATCTGGGTG AAGAGTACCC TGAAGTATTG GGCAGCATTC TTGGAGCACT GAAGGCTATT 
GTAAATGTAA TAGGTATGCA TAAGATGACA CCACCAATTA AAGATCTGTT GCCTAGACTC 
ACCCCCATCT TAAAGAACAG ACATGAAAAA GTACAAGAGA ATTGTATTGA TCTTGTTGGG 
CGTATTGCTG ACAGGGGAGC TGAGTATGTA TCTGCAAGAG AGTGGATGAG GATTTGCTTT 
GAACTTTTAG AGCTTTTAAA AGCTCACAAA AAAGCTATTC GAAGAGCTAC AGTCAATACA 
TTTGGTTATA TCGCAAAGGC TATTGGCCCT CACGATGTAT TGGCTACACT TCTAAACAAC 
CTCAAAGTTC AGGAAAGGCA GAACAGGGTT TGTACGACTG TAGCAATAGC CATTGTTGCT 
GAAACATGCT CACCCTTCAC AGTACTCCCT GCCCTGATGA ATGAGTACAG AGTTCCTGAG 
CTTAATGTTC AAAATGGAGT GTTAAAATCA CTCTCCTTCC TGTTTGAGTA TATCGGTGAA 
ATGGGAAAAG ACTACATCTA CGCTGTAACA CCTTTACTTG AGGATGCATT AATGGATAGG 
GACCTTGTAC ACAGACAGAC AGCTAGTGCA GTGGTACAAC ACATGTCACT TGGTGTTTAT 
GGATTTGGCT GTGAAGATTC TCTGAATCAC TTACTGAACT ATGTGTGGCC TAATGTGTTT 
GAGACATCTC CCCATGTAAT CCAGGCAGTT ATGGGAGCTC TGGAGGGCCT GAGAGTTGCT 
ATTGGACCAT GCAGAATGTT GCAGTATTGC TTACAGGGCC TGTTTCACCC AGCTCGGAAA 
GTCAGAGATG TATATTGGAA AATTTACAAC TCCATCTACA TTGGCTCCCA GGATGCTCTC 
ATAGCACATT ACCCAAGGAT CTACAATGAT GATAAGAACA CCTATATTCG TTACGAACTT 
GACTATATCT TGTAA

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

Sf3b1 ( XM_017596654.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017452143.1 Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa32212
Clone ID Related Accession (Same CDS sequence)	XM_017596654.1
Accession Version	XM_017596654.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3477bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	splicing factor 3B subunit 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005108.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATGCTA GAACCTACAT GGATGTTATG CGAGAACAAC ATTTGACTAA GGAAGAGAGA 
GAAATTAGGC AACAACTAGC AGAAAAAGCT AAAGCTGGAG AACTAAAAGT TGTCAACGGA 
GCAGCAGCAT CCCAGCCTCC CTCAAAACGA AAACGGCGCT GGGATCAAAC TGCTGACCAG 
ACTCCTGGTG CCACTCCCAA AAAGCTGTCA AGTTGGGATC AGGCAGAGAC CCCTGGGCAT 
ACCCCTTCTT TAAGATGGGA TGAGACACCG GGTCGTGCAA AAGGAAGTGA AACACCTGGA 
GCAACCCCAG GCTCAAAAAT ATGGGATCCT ACACCTAGTC ATACACCTGC GGGAGCTGCT 
ACTCCTGGAC GAGGAGATAC ACCAGGCCAT GCAACCCCGG GCCATGGCGG TGCAACTTCC 
AGTGCCCGTA AAAACAGATG GGATGAGACC CCCAAAACAG AAAGAGATAC TCCTGGGCAT 
GGAAGTGGGT GGGCTGAGAC TCCTCGAACA GACCGAGGTG GAGACTCTAT TGGTGAGACA 
CCAACTCCTG GAGCAAGTAA AAGAAAGTCT CGTTGGGACG AAACACCAGC TAGTCAAATG 
GGCGGAAGCA CTCCTGTTCT GACTCCAGGA AAAACACCAA TTGGCACACC AGCCATGAAC 
ATGGCCACCC CCACTCCAGG TCACATAATG AGCATGACTC CTGAGCAGCT TCAGGCTTGG 
CGGTGGGAGA GAGAGATTGA TGAGCGCAAC CGCCCACTTT CTGATGAGGA ATTAGATGCT 
ATGTTCCCAG AAGGATACAA GGTCCTTCCC CCTCCAGCTG GCTATGTTCC TATTCGAACT 
CCAGCTCGAA AGCTGACAGC AACTCCCACA CCTTTGGGCG GTATGACTGG TTTTCACATG 
CAAACTGAAG ACAGAACTAT GAAAAGTGTC AACGACCAGC CATCTGGGAA TCTTCCATTT 
CTAAAACCTG ATGACATTCA GTACTTTGAC AAACTATTGG TTGATGTAGA TGAGTCAACA 
CTTAGTCCAG AAGAGCAAAA AGAAAGAAAA ATAATGAAGT TGCTTTTAAA AATTAAGAAT 
GGTACACCTC CAATGAGAAA GGCTGCCTTA CGTCAGATTA CTGATAAAGC TCGAGAATTT 
GGAGCTGGAC CACTGTTTAA CCAGATTCTG CCTCTATTGA TGTCCCCTAC ACTTGAGGAT 
CAAGAGCGAC ATTTACTTGT GAAAGTTATT GACAGAATAT TGTATAAACT TGATGACTTG 
GTGCGGCCAT ATGTGCACAA GATTCTTGTG GTTATCGAGC CACTGTTGAT TGATGAAGAT 
TACTATGCTA GAGTGGAAGG CCGAGAAATT ATTTCTAATT TGGCAAAGGC TGCTGGTCTG 
GCTACTATGA TTTCTACCAT GAGACCTGAT ATAGATAACA TGGATGAATA TGTCCGAAAC 
ACAACAGCTA GAGCTTTTGC TGTTGTAGCC TCTGCTCTGG GCATTCCTTC TTTATTGCCT 
TTCTTGAAAG CTGTGTGTAA AAGCAAGAAG TCTTGGCAAG CGAGGCACAC TGGTATTAAG 
ATTGTACAAC AGATAGCCAT TCTCATGGGC TGTGCTATCT TGCCACATCT CAGAAGTTTA 
GTTGAAATCA TTGAGCATGG TCTCGTGGAT GAGCAGCAGA AAGTTCGGAC CATCAGTGCT 
CTGGCCATTG CTGCTTTGGC TGAGGCAGCA ACTCCTTATG GTATTGAGTC TTTTGATTCT 
GTGCTCAAGC CCCTATGGAA GGGTATTCGC CAACATAGAG GAAAGGGTCT GGCTGCTTTC 
TTGAAGGCTA TTGGGTATCT TATTCCTCTT ATGGATGCAG AATATGCCAA CTACTATACT 
AGAGAAGTGA TGCTAATCCT TATTCGAGAA TTCCAGTCTC CTGATGAAGA AATGAAGAAA 
ATTGTTTTGA AGGTGGTGAA ACAGTGTTGT GGAACTGATG GTGTAGAGGC AAACTACATT 
AAGACAGAGA TTCTTCCACC TTTCTTTAAA CACTTCTGGC AGCACAGAAT GGCTTTGGAT 
AGAAGAAATT ACCGACAGTT AGTCGATACA ACTGTGGAGT TGGCAAACAA AGTGGGCGCG 
GCAGAGATCA TATCTAGGAT TGTTGACGAT CTGAAGGATG AGGCTGAGCA GTACCGGAAA 
ATGGTGATGG AAACCATTGA GAAAATTATG GGCAATCTAG GTGCAGCGGA TATTGACCAT 
AAACTTGAGG AACAGCTTAT CGATGGCATT CTCTATGCTT TCCAAGAACA GACTACGGAG 
GATTCAGTAA TGCTGAATGG CTTTGGCACA GTAGTCAATG CTCTTGGCAA ACGAGTCAAA 
CCATACTTGC CTCAGATCTG TGGTACAGTT TTATGGCGTT TGAATAATAA ATCAGCAAAA 
GTTAGGCAAC AAGCAGCTGA CTTGATTTCT CGAACTGCTG TTGTCATGAA GACTTGTCAA 
GAGGAAAAAC TGATGGGGCA CTTGGGTGTG GTGCTGTATG AGTATCTGGG TGAAGAGTAC 
CCTGAAGTAT TGGGCAGCAT TCTTGGAGCA CTGAAGGCTA TTGTAAATGT AATAGGTATG 
CATAAGATGA CACCACCAAT TAAAGATCTG TTGCCTAGAC TCACCCCCAT CTTAAAGAAC 
AGACATGAAA AAGTACAAGA GAATTGTATT GATCTTGTTG GGCGTATTGC TGACAGGGGA 
GCTGAGTATG TATCTGCAAG AGAGTGGATG AGGATTTGCT TTGAACTTTT AGAGCTTTTA 
AAAGCTCACA AAAAAGCTAT TCGAAGAGCT ACAGTCAATA CATTTGGTTA TATCGCAAAG 
GCTATTGGCC CTCACGATGT ATTGGCTACA CTTCTAAACA ACCTCAAAGT TCAGGAAAGG 
CAGAACAGGG TTTGTACGAC TGTAGCAATA GCCATTGTTG CTGAAACATG CTCACCCTTC 
ACAGTACTCC CTGCCCTGAT GAATGAGTAC AGAGTTCCTG AGCTTAATGT TCAAAATGGA 
GTGTTAAAAT CACTCTCCTT CCTGTTTGAG TATATCGGTG AAATGGGAAA AGACTACATC 
TACGCTGTAA CACCTTTACT TGAGGATGCA TTAATGGATA GGGACCTTGT ACACAGACAG 
ACAGCTAGTG CAGTGGTACA ACACATGTCA CTTGGTGTTT ATGGATTTGG CTGTGAAGAT 
TCTCTGAATC ACTTACTGAA CTATGTGTGG CCTAATGTGT TTGAGACATC TCCCCATGTA 
ATCCAGGCAG TTATGGGAGC TCTGGAGGGC CTGAGAGTTG CTATTGGACC ATGCAGAATG 
TTGCAGTATT GCTTACAGGG CCTGTTTCAC CCAGCTCGGA AAGTCAGAGA TGTATATTGG 
AAAATTTACA ACTCCATCTA CATTGGCTCC CAGGATGCTC TCATAGCACA TTACCCAAGG 
ATCTACAATG ATGATAAGAA CACCTATATT CGTTACGAAC TTGACTATAT CTTGTAA

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

RefSeq	XP_017452143.1
CDS	1473..4949
Translation	MNARTYMDVMREQHLTKEEREIRQQLAEKAKAGELKVVNGAAASQPPSKRKRRWDQTADQTPGATPKKLSSWDQAETPGHTPSLRWDETPGRAKGSETPGATPGSKIWDPTPSHTPAGAATPGRGDTPGHATPGHGGATSSARKNRWDETPKTERDTPGHGSGWAETPRTDRGGDSIGETPTPGASKRKSRWDETPASQMGGSTPVLTPGKTPIGTPAMNMATPTPGHIMSMTPEQLQAWRWEREIDERNRPLSDEELDAMFPEGYKVLPPPAGYVPIRTPARKLTATPTPLGGMTGFHMQTEDRTMKSVNDQPSGNLPFLKPDDIQYFDKLLVDVDESTLSPEEQKERKIMKLLLKIKNGTPPMRKAALRQITDKAREFGAGPLFNQILPLLMSPTLEDQERHLLVKVIDRILYKLDDLVRPYVHKILVVIEPLLIDEDYYARVEGREIISNLAKAAGLATMISTMRPDIDNMDEYVRNTTARAFAVVASALGIPSLLPFLKAVCKSKKSWQARHTGIKIVQQIAILMGCAILPHLRSLVEIIEHGLVDEQQKVRTISALAIAALAEAATPYGIESFDSVLKPLWKGIRQHRGKGLAAFLKAIGYLIPLMDAEYANYYTREVMLILIREFQSPDEEMKKIVLKVVKQCCGTDGVEANYIKTEILPPFFKHFWQHRMALDRRNYRQLVDTTVELANKVGAAEIISRIVDDLKDEAEQYRKMVMETIEKIMGNLGAADIDHKLEEQLIDGILYAFQEQTTEDSVMLNGFGTVVNALGKRVKPYLPQICGTVLWRLNNKSAKVRQQAADLISRTAVVMKTCQEEKLMGHLGVVLYEYLGEEYPEVLGSILGALKAIVNVIGMHKMTPPIKDLLPRLTPILKNRHEKVQENCIDLVGRIADRGAEYVSAREWMRICFELLELLKAHKKAIRRATVNTFGYIAKAIGPHDVLATLLNNLKVQERQNRVCTTVAIAIVAETCSPFTVLPALMNEYRVPELNVQNGVLKSLSFLFEYIGEMGKDYIYAVTPLLEDALMDRDLVHRQTASAVVQHMSLGVYGFGCEDSLNHLLNYVWPNVFETSPHVIQAVMGALEGLRVAIGPCRMLQYCLQGLFHPARKVRDVYWKIYNSIYIGSQDALIAHYPRIYNDDKNTYIRYELDYIL

Target ORF information:

RefSeq Version	XM_017596654.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus splicing factor 3b, subunit 1 (Sf3b1), transcript variant X1, mRNA.

Target ORF information:

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

XM_017596654.1

ORF Insert Sequence:

ATGAATGCTA GAACCTACAT GGATGTTATG CGAGAACAAC ATTTGACTAA GGAAGAGAGA 
GAAATTAGGC AACAACTAGC AGAAAAAGCT AAAGCTGGAG AACTAAAAGT TGTCAACGGA 
GCAGCAGCAT CCCAGCCTCC CTCAAAACGA AAACGGCGCT GGGATCAAAC TGCTGACCAG 
ACTCCTGGTG CCACTCCCAA AAAGCTGTCA AGTTGGGATC AGGCAGAGAC CCCTGGGCAT 
ACCCCTTCTT TAAGATGGGA TGAGACACCG GGTCGTGCAA AAGGAAGTGA AACACCTGGA 
GCAACCCCAG GCTCAAAAAT ATGGGATCCT ACACCTAGTC ATACACCTGC GGGAGCTGCT 
ACTCCTGGAC GAGGAGATAC ACCAGGCCAT GCAACCCCGG GCCATGGCGG TGCAACTTCC 
AGTGCCCGTA AAAACAGATG GGATGAGACC CCCAAAACAG AAAGAGATAC TCCTGGGCAT 
GGAAGTGGGT GGGCTGAGAC TCCTCGAACA GACCGAGGTG GAGACTCTAT TGGTGAGACA 
CCAACTCCTG GAGCAAGTAA AAGAAAGTCT CGTTGGGACG AAACACCAGC TAGTCAAATG 
GGCGGAAGCA CTCCTGTTCT GACTCCAGGA AAAACACCAA TTGGCACACC AGCCATGAAC 
ATGGCCACCC CCACTCCAGG TCACATAATG AGCATGACTC CTGAGCAGCT TCAGGCTTGG 
CGGTGGGAGA GAGAGATTGA TGAGCGCAAC CGCCCACTTT CTGATGAGGA ATTAGATGCT 
ATGTTCCCAG AAGGATACAA GGTCCTTCCC CCTCCAGCTG GCTATGTTCC TATTCGAACT 
CCAGCTCGAA AGCTGACAGC AACTCCCACA CCTTTGGGCG GTATGACTGG TTTTCACATG 
CAAACTGAAG ACAGAACTAT GAAAAGTGTC AACGACCAGC CATCTGGGAA TCTTCCATTT 
CTAAAACCTG ATGACATTCA GTACTTTGAC AAACTATTGG TTGATGTAGA TGAGTCAACA 
CTTAGTCCAG AAGAGCAAAA AGAAAGAAAA ATAATGAAGT TGCTTTTAAA AATTAAGAAT 
GGTACACCTC CAATGAGAAA GGCTGCCTTA CGTCAGATTA CTGATAAAGC TCGAGAATTT 
GGAGCTGGAC CACTGTTTAA CCAGATTCTG CCTCTATTGA TGTCCCCTAC ACTTGAGGAT 
CAAGAGCGAC ATTTACTTGT GAAAGTTATT GACAGAATAT TGTATAAACT TGATGACTTG 
GTGCGGCCAT ATGTGCACAA GATTCTTGTG GTTATCGAGC CACTGTTGAT TGATGAAGAT 
TACTATGCTA GAGTGGAAGG CCGAGAAATT ATTTCTAATT TGGCAAAGGC TGCTGGTCTG 
GCTACTATGA TTTCTACCAT GAGACCTGAT ATAGATAACA TGGATGAATA TGTCCGAAAC 
ACAACAGCTA GAGCTTTTGC TGTTGTAGCC TCTGCTCTGG GCATTCCTTC TTTATTGCCT 
TTCTTGAAAG CTGTGTGTAA AAGCAAGAAG TCTTGGCAAG CGAGGCACAC TGGTATTAAG 
ATTGTACAAC AGATAGCCAT TCTCATGGGC TGTGCTATCT TGCCACATCT CAGAAGTTTA 
GTTGAAATCA TTGAGCATGG TCTCGTGGAT GAGCAGCAGA AAGTTCGGAC CATCAGTGCT 
CTGGCCATTG CTGCTTTGGC TGAGGCAGCA ACTCCTTATG GTATTGAGTC TTTTGATTCT 
GTGCTCAAGC CCCTATGGAA GGGTATTCGC CAACATAGAG GAAAGGGTCT GGCTGCTTTC 
TTGAAGGCTA TTGGGTATCT TATTCCTCTT ATGGATGCAG AATATGCCAA CTACTATACT 
AGAGAAGTGA TGCTAATCCT TATTCGAGAA TTCCAGTCTC CTGATGAAGA AATGAAGAAA 
ATTGTTTTGA AGGTGGTGAA ACAGTGTTGT GGAACTGATG GTGTAGAGGC AAACTACATT 
AAGACAGAGA TTCTTCCACC TTTCTTTAAA CACTTCTGGC AGCACAGAAT GGCTTTGGAT 
AGAAGAAATT ACCGACAGTT AGTCGATACA ACTGTGGAGT TGGCAAACAA AGTGGGCGCG 
GCAGAGATCA TATCTAGGAT TGTTGACGAT CTGAAGGATG AGGCTGAGCA GTACCGGAAA 
ATGGTGATGG AAACCATTGA GAAAATTATG GGCAATCTAG GTGCAGCGGA TATTGACCAT 
AAACTTGAGG AACAGCTTAT CGATGGCATT CTCTATGCTT TCCAAGAACA GACTACGGAG 
GATTCAGTAA TGCTGAATGG CTTTGGCACA GTAGTCAATG CTCTTGGCAA ACGAGTCAAA 
CCATACTTGC CTCAGATCTG TGGTACAGTT TTATGGCGTT TGAATAATAA ATCAGCAAAA 
GTTAGGCAAC AAGCAGCTGA CTTGATTTCT CGAACTGCTG TTGTCATGAA GACTTGTCAA 
GAGGAAAAAC TGATGGGGCA CTTGGGTGTG GTGCTGTATG AGTATCTGGG TGAAGAGTAC 
CCTGAAGTAT TGGGCAGCAT TCTTGGAGCA CTGAAGGCTA TTGTAAATGT AATAGGTATG 
CATAAGATGA CACCACCAAT TAAAGATCTG TTGCCTAGAC TCACCCCCAT CTTAAAGAAC 
AGACATGAAA AAGTACAAGA GAATTGTATT GATCTTGTTG GGCGTATTGC TGACAGGGGA 
GCTGAGTATG TATCTGCAAG AGAGTGGATG AGGATTTGCT TTGAACTTTT AGAGCTTTTA 
AAAGCTCACA AAAAAGCTAT TCGAAGAGCT ACAGTCAATA CATTTGGTTA TATCGCAAAG 
GCTATTGGCC CTCACGATGT ATTGGCTACA CTTCTAAACA ACCTCAAAGT TCAGGAAAGG 
CAGAACAGGG TTTGTACGAC TGTAGCAATA GCCATTGTTG CTGAAACATG CTCACCCTTC 
ACAGTACTCC CTGCCCTGAT GAATGAGTAC AGAGTTCCTG AGCTTAATGT TCAAAATGGA 
GTGTTAAAAT CACTCTCCTT CCTGTTTGAG TATATCGGTG AAATGGGAAA AGACTACATC 
TACGCTGTAA CACCTTTACT TGAGGATGCA TTAATGGATA GGGACCTTGT ACACAGACAG 
ACAGCTAGTG CAGTGGTACA ACACATGTCA CTTGGTGTTT ATGGATTTGG CTGTGAAGAT 
TCTCTGAATC ACTTACTGAA CTATGTGTGG CCTAATGTGT TTGAGACATC TCCCCATGTA 
ATCCAGGCAG TTATGGGAGC TCTGGAGGGC CTGAGAGTTG CTATTGGACC ATGCAGAATG 
TTGCAGTATT GCTTACAGGG CCTGTTTCAC CCAGCTCGGA AAGTCAGAGA TGTATATTGG 
AAAATTTACA ACTCCATCTA CATTGGCTCC CAGGATGCTC TCATAGCACA TTACCCAAGG 
ATCTACAATG ATGATAAGAA CACCTATATT CGTTACGAAC TTGACTATAT CTTGTAA

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

PubMed

Structure of the human activated spliceosome in three conformational states.
Cell research(2018 Jan)
Zhang X,Yan C,Zhan X,Li L,Lei J,Shi Y

Cryo-EM Structure of a Pre-catalytic Human Spliceosome Primed for Activation.
Cell170(4)701-713.e11(2017 Aug)
Bertram K,Agafonov DE,Dybkov O,Haselbach D,Leelaram MN,Will CL,Urlaub H,Kastner B,L?hrmann R,Stark H

Splicing modulators act at the branch point adenosine binding pocket defined by the PHF5A-SF3b complex.
Nature communications815522(2017 May)
Teng T,Tsai JH,Puyang X,Seiler M,Peng S,Prajapati S,Aird D,Buonamici S,Caleb B,Chan B,Corson L,Feala J,Fekkes P,Gerard B,Karr C,Korpal M,Liu X,T Lowe J,Mizui Y,Palacino J,Park E,Smith PG,Subramanian V,Wu ZJ,Zou J,Yu L,Chicas A,Warmuth M,Larsen N,Zhu P

Towards Functional Annotation of the Preimplantation Transcriptome: An RNAi Screen in Mammalian Embryos.
Scientific reports637396(2016 Nov)
Cui W,Dai X,Marcho C,Han Z,Zhang K,Tremblay KD,Mager J

Molecular Architecture of SF3b and Structural Consequences of Its Cancer-Related Mutations.
Molecular cell64(2)307-319(2016 Oct)
Cretu C,Schmitzov? J,Ponce-Salvatierra A,Dybkov O,De Laurentiis EI,Sharma K,Will CL,Urlaub H,L?hrmann R,Pena V

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Sf3b1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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