SMARCC1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	SMARCC1
Entrez Gene ID	6599
Full Name	SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1
Synonyms	BAF155,CRACC1,Rsc8,SRG3,SWI3
General protein information	Preferred Names SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 Names SWI/SNF complex subunit SMARCC1 BRG1-associated factor 155 SWI/SNF complex 155 kDa subunit SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily C member 1 chromatin remodeling complex BAF155 subunit mammalian chromatin remodeling complex BRG1-associated factor 155
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 3 Map Location: 3p21.31
Summary	The protein encoded by this gene is a member of the SWI/SNF family of proteins, whose members display helicase and ATPase activities and which are thought to regulate transcription of certain genes by altering the chromatin structure around those genes. The encoded protein is part of the large ATP-dependent chromatin remodeling complex SNF/SWI and contains a predicted leucine zipper motif typical of many transcription factors. [provided by RefSeq, Jul 2008].
Disorder MIM:	601732

mRNA and Protein(s)

mRNA	Protein	Name
NM_003074.3	NP_003065.3	SWI/SNF complex subunit SMARCC1
NM_003074.4	NP_003065.3	SWI/SNF complex subunit SMARCC1
XM_011534034.1	XP_011532336.1	SWI/SNF complex subunit SMARCC1 isoform X1

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	SMARCC1	XP_533845.2
Rattus norvegicus (Norway rat)	Smarcc1	NP_001100331.1
Gallus gallus (chicken)	SMARCC1	XP_003640717.2
Danio rerio (zebrafish)	smarcc1a	XP_003200294.1
Homo sapiens (human)	SMARCC1	NP_003065.3
Mus musculus (house mouse)	Smarcc1	NP_033237.2
Xenopus tropicalis (tropical clawed frog)	smarcc1	XP_002942764.2
Pan troglodytes (chimpanzee)	SMARCC1	XP_001154676.1
Bos taurus (cattle)	SMARCC1	XP_002707826.3

Gene Ontology
Bibliography

Related articles in PubMed

Nuclear/cytoplasmic transport defects in BBS6 underlie congenital heart disease through perturbation of a chromatin remodeling protein.
Scott CA, Marsden AN, Rebagliati MR, Zhang Q, Chamling X, Searby CC, Baye LM, Sheffield VC, Slusarski DC
PLoS genetics13(7)e1006936(2017 Jul)

Histone-binding of DPF2 mediates its repressive role in myeloid differentiation.
Huber FM, Greenblatt SM, Davenport AM, Martinez C, Xu Y, Vu LP, Nimer SD, Hoelz A
Proceedings of the National Academy of Sciences of the United States of America114(23)6016-6021(2017 Jun)

Structural Insights into BAF47 and BAF155 Complex Formation.
Yan L, Xie S, Du Y, Qian C
Journal of molecular biology429(11)1650-1660(2017 Jun)

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

Here, the authors first confirmed that SWIRM domain of BAF155 is responsible for its interaction with BAF47 and then narrowed down the SWIRM-binding region in BAF47 to the Repeat 1 (RPT1) domain.
Title: Structural Insights into BAF47 and BAF155 Complex Formation.

our data showed that Swi3 strongly affects haem/oxygen-dependent activation of respiration gene promoters whereas Swi2 affects only the basal, haem-independent activities of these promoters. using computational analysis and RNAi knockdown, we showed that the mammalian Swi3 BAF155 and BAF170 regulate respiration in HeLa cells.
Title: The Swi3 protein plays a unique role in regulating respiration in eukaryotes.

NKX6.1 directly enhances the mRNA level of E-cadherin by recruiting BAF155 coactivator and represses that of vimentin and N-cadherin by recruiting RBBP7 (retinoblastoma binding protein 7) corepressor.
Title: NKX6.1 functions as a metastatic suppressor through epigenetic regulation of the epithelial-mesenchymal transition.

we identify BAF155 as a substrate for arginine methyltransferase CARM1.
Title: CARM1 methylates chromatin remodeling factor BAF155 to enhance tumor progression and metastasis.

Wwp2 acts as a ubiquitin ligase of SRG3.
Title: Wwp2 targets SRG3, a scaffold protein of the SWI/SNF-like BAF complex, for ubiquitination and degradation.

The following SMARCC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMARCC1 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)
OHu26066	NM_003074.4 Latest version!	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$399.50-$559.30 $799.00
OHu60631	XM_011534034.1 Latest version!	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	5-7	$475.30 $679.00
View Old Accession Versions >>
OHu26066	NM_003074.3	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$399.50-$559.30 $799.00
Hide Old Accession Versions >>

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

Reference Sequences (Refseq)

SMARCC1 ( NM_003074.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_003065.3 Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.

Price & Availability↑

CloneID	OHu26066
Clone ID Related Accession (Same CDS sequence)	NM_003074.3 , NM_003074.4
Accession Version	NM_003074.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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	2017-12-10
Organism	Homo sapiens(human)
Product	SWI/SNF complex subunit SMARCC1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC012101.1, BC050564.1 and BC040242.1. On May 20, 2008 this sequence version replaced NM_003074.2. 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## Transcript exon combination :: SRR1660803.95065.1, SRR1660809.251712.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCCGCAG CGGCGGGCGG CGGCGGGCCG GGGACAGCGG TAGGCGCCAC GGGCTCGGGG 
ATTGCGGCGG CAGCCGCAGG CCTAGCTGTT TATCGACGGA AGGATGGGGG CCCGGCCACC 
AAGTTTTGGG AGAGCCCGGA GACGGTGTCC CAGCTGGATT CGGTGCGGGT CTGGCTGGGC 
AAGCACTACA AGAAGTATGT TCATGCGGAT GCTCCTACCA ATAAAACACT GGCTGGGCTG 
GTGGTGCAGC TTCTTCAGTT CCAGGAAGAT GCCTTTGGGA AGCATGTCAC CAACCCGGCC 
TTCACCAAAC TCCCTGCAAA GTGTTTCATG GATTTCAAAG CTGGAGGCGC CTTATGTCAC 
ATTCTTGGGG CTGCTTACAA GTATAAAAAT GAACAGGGAT GGCGGAGGTT TGACCTACAG 
AACCCATCTC GAATGGATCG TAATGTGGAA ATGTTTATGA ACATTGAAAA AACATTGGTG 
CAGAACAATT GTTTGACCAG ACCCAACATC TACCTCATTC CAGACATTGA TCTGAAGTTG 
GCTAACAAAT TGAAAGATAT CATCAAACGA CATCAGGGAA CATTTACGGA TGAGAAGTCA 
AAAGCTTCCC ACCACATTTA CCCATATTCT TCCTCACAAG ACGATGAAGA ATGGTTGAGA 
CCGGTGATGA GAAAAGAGAA GCAAGTGTTA GTGCATTGGG GCTTTTACCC AGACAGCTAT 
GATACTTGGG TCCATAGTAA TGATGTTGAT GCTGAAATTG AAGATCCACC AATTCCAGAA 
AAACCATGGA AGGTTCATGT GAAATGGATT TTGGACACTG ATATTTTCAA TGAATGGATG 
AATGAGGAGG ATTATGAGGT GGATGAAAAT AGGAAGCCTG TGAGTTTTCG TCAGCGGATT 
TCAACCAAGA ATGAAGAGCC AGTCAGAAGT CCAGAAAGAA GAGATAGAAA AGCATCAGCT 
AATGCTCGAA AGAGGAAACA TTCGCCTTCG CCTCCCCCTC CGACACCAAC AGAATCACGG 
AAGAAGAGTG GGAAGAAAGG CCAAGCTAGC CTTTATGGGA AGCGCAGAAG TCAGAAAGAG 
GAAGATGAGC AAGAAGATCT AACCAAGGAT ATGGAAGACC CAACACCTGT ACCCAATATA 
GAAGAAGTAG TACTTCCCAA AAATGTGAAC CTAAAGAAAG ATAGTGAAAA TACACCTGTT 
AAAGGAGGAA CTGTAGCGGA TCTAGATGAG CAGGATGAAG AAACAGTCAC AGCAGGAGGA 
AAGGAAGATG AAGATCCTGC CAAAGGTGAT CAGAGTCGAT CAGTTGACCT TGGGGAAGAT 
AATGTGACAG AGCAGACCAA TCACATTATT ATTCCTAGTT ATGCATCATG GTTTGATTAT 
AACTGTATTC ATGTGATTGA ACGGCGTGCT CTTCCTGAGT TCTTCAATGG AAAAAACAAA 
TCCAAGACTC CAGAAATATA CTTGGCATAT CGAAATTTTA TGATTGACAC GTATCGTCTA 
AACCCCCAAG AGTATTTAAC TAGCACTGCT TGTCGGAGGA ACTTGACTGG AGATGTGTGT 
GCTGTGATGA GGGTCCATGC CTTTTTAGAG CAGTGGGGAC TCGTTAATTA CCAAGTTGAC 
CCGGAAAGTA GACCCATGGC AATGGGACCT CCTCCTACTC CTCATTTTAA TGTATTAGCT 
GATACCCCCT CTGGGCTTGT GCCTCTGCAT CTTCGATCAC CTCAGGTTCC TGCTGCTCAA 
CAGATGCTAA ATTTTCCTGA GAAAAACAAG GAAAAACCAG TTGATTTGCA GAACTTTGGT 
CTCCGTACTG ACATTTACTC CAAGAAAACA TTAGCAAAGA GTAAAGGTGC TAGTGCTGGA 
AGAGAATGGA CTGAACAGGA GACCCTTCTA CTCCTGGAGG CCCTGGAGAT GTACAAGGAT 
GATTGGAACA AAGTGTCGGA ACATGTTGGA AGTCGTACTC AGGATGAATG CATCCTCCAC 
TTTTTGAGAC TTCCCATTGA GGACCCATAC CTTGAGAATT CAGATGCTTC CCTTGGGCCT 
TTGGCCTACC AGCCTGTCCC CTTCAGTCAG TCAGGAAATC CAGTTATGAG TACTGTTGCT 
TTTTTGGCAT CTGTGGTGGA CCCTCGCGTG GCATCTGCTG CAGCAAAAGC GGCTTTGGAG 
GAGTTTTCTC GGGTCCGGGA GGAGGTACCA CTGGAATTGG TTGAAGCTCA TGTCAAGAAA 
GTACAAGAAG CAGCACGAGC CTCTGGGAAA GTGGATCCCA CCTACGGTCT GGAGAGCAGC 
TGCATTGCAG GCACAGGGCC CGATGAGCCA GAGAAGCTTG AAGGAGCTGA AGAGGAAAAA 
ATGGAAGCCG ACCCTGATGG TCAGCAGCCT GAAAAGGCAG AAAATAAAGT GGAAAATGAA 
ACGGATGAAG GTGATAAAGC ACAAGATGGA GAAAATGAAA AAAATAGTGA AAAGGAACAG 
GATAGTGAAG TGAGTGAGGA TACCAAATCA GAAGAAAAGG AGACTGAAGA GAACAAAGAA 
CTCACTGATA CATGTAAAGA AAGAGAAAGT GATACTGGGA AGAAGAAAGT AGAACATGAA 
ATTTCCGAAG GAAATGTTGC CACAGCCGCA GCAGCTGCTC TTGCCTCAGC GGCTACCAAA 
GCCAAGCACC TGGCTGCAGT GGAAGAAAGA AAGATCAAGT CCCTGGTAGC TCTCTTGGTT 
GAGACACAAA TGAAGAAACT AGAGATCAAA CTTCGACATT TTGAAGAGCT GGAAACTATC 
ATGGACAGAG AGAAAGAAGC TCTAGAACAA CAGAGGCAGC AGTTGCTTAC TGAACGCCAA 
AACTTCCACA TGGAACAGCT GAAGTATGCT GAATTACGAG CACGACAGCA AATGGAACAG 
CAGCAGCATG GCCAGAACCC TCAACAGGCA CACCAGCACT CAGGAGGACC TGGCCTGGCC 
CCACTTGGAG CAGCAGGGCA CCCTGGCATG ATGCCTCATC AACAGCCCCC TCCCTACCCT 
CTGATGCACC ACCAGATGCC ACCACCTCAT CCACCCCAGC CAGGTCAGAT ACCAGGCCCA 
GGTTCCATGA TGCCCGGGCA GCACATGCCA GGCCGCATGA TTCCCACTGT TGCAGCCAAC 
ATCCACCCCT CTGGGAGTGG CCCTACCCCT CCTGGCATGC CACCAATGCC AGGAAACATC 
TTAGGACCCC GGGTACCCCT GACAGCACCT AACGGCATGT ATCCCCCTCC ACCACAGCAG 
CAGCCACCGC CACCACCACC TGCAGATGGG GTCCCTCCGC CTCCTGCTCC TGGCCCGCCA 
GCCTCAGCTG CTCCTTAG

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

RefSeq	NP_003065.3
CDS	119..3436
Translation	MAAAAGGGGPGTAVGATGSGIAAAAAGLAVYRRKDGGPATKFWESPETVSQLDSVRVWLGKHYKKYVHADAPTNKTLAGLVVQLLQFQEDAFGKHVTNPAFTKLPAKCFMDFKAGGALCHILGAAYKYKNEQGWRRFDLQNPSRMDRNVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLKLANKLKDIIKRHQGTFTDEKSKASHHIYPYSSSQDDEEWLRPVMRKEKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWKVHVKWILDTDIFNEWMNEEDYEVDENRKPVSFRQRISTKNEEPVRSPERRDRKASANARKRKHSPSPPPPTPTESRKKSGKKGQASLYGKRRSQKEEDEQEDLTKDMEDPTPVPNIEEVVLPKNVNLKKDSENTPVKGGTVADLDEQDEETVTAGGKEDEDPAKGDQSRSVDLGEDNVTEQTNHIIIPSYASWFDYNCIHVIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQEYLTSTACRRNLTGDVCAVMRVHAFLEQWGLVNYQVDPESRPMAMGPPPTPHFNVLADTPSGLVPLHLRSPQVPAAQQMLNFPEKNKEKPVDLQNFGLRTDIYSKKTLAKSKGASAGREWTEQETLLLLEALEMYKDDWNKVSEHVGSRTQDECILHFLRLPIEDPYLENSDASLGPLAYQPVPFSQSGNPVMSTVAFLASVVDPRVASAAAKAALEEFSRVREEVPLELVEAHVKKVQEAARASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEKMEADPDGQQPEKAENKVENETDEGDKAQDGENEKNSEKEQDSEVSEDTKSEEKETEENKELTDTCKERESDTGKKKVEHEISEGNVATAAAAALASAATKAKHLAAVEERKIKSLVALLVETQMKKLEIKLRHFEELETIMDREKEALEQQRQQLLTERQNFHMEQLKYAELRARQQMEQQQHGQNPQQAHQHSGGPGLAPLGAAGHPGMMPHQQPPPYPLMHHQMPPPHPPQPGQIPGPGSMMPGQHMPGRMIPTVAANIHPSGSGPTPPGMPPMPGNILGPRVPLTAPNGMYPPPPQQQPPPPPPADGVPPPPAPGPPASAAP

Target ORF information:

RefSeq Version	NM_003074.3
Organism	Homo sapiens(human)
Definition	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.

Target ORF information:

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

NM_003074.3

ORF Insert Sequence:

ATGGCCGCAG CGGCGGGCGG CGGCGGGCCG GGGACAGCGG TAGGCGCCAC GGGCTCGGGG 
ATTGCGGCGG CAGCCGCAGG CCTAGCTGTT TATCGACGGA AGGATGGGGG CCCGGCCACC 
AAGTTTTGGG AGAGCCCGGA GACGGTGTCC CAGCTGGATT CGGTGCGGGT CTGGCTGGGC 
AAGCACTACA AGAAGTATGT TCATGCGGAT GCTCCTACCA ATAAAACACT GGCTGGGCTG 
GTGGTGCAGC TTCTTCAGTT CCAGGAAGAT GCCTTTGGGA AGCATGTCAC CAACCCGGCC 
TTCACCAAAC TCCCTGCAAA GTGTTTCATG GATTTCAAAG CTGGAGGCGC CTTATGTCAC 
ATTCTTGGGG CTGCTTACAA GTATAAAAAT GAACAGGGAT GGCGGAGGTT TGACCTACAG 
AACCCATCTC GAATGGATCG TAATGTGGAA ATGTTTATGA ACATTGAAAA AACATTGGTG 
CAGAACAATT GTTTGACCAG ACCCAACATC TACCTCATTC CAGACATTGA TCTGAAGTTG 
GCTAACAAAT TGAAAGATAT CATCAAACGA CATCAGGGAA CATTTACGGA TGAGAAGTCA 
AAAGCTTCCC ACCACATTTA CCCATATTCT TCCTCACAAG ACGATGAAGA ATGGTTGAGA 
CCGGTGATGA GAAAAGAGAA GCAAGTGTTA GTGCATTGGG GCTTTTACCC AGACAGCTAT 
GATACTTGGG TCCATAGTAA TGATGTTGAT GCTGAAATTG AAGATCCACC AATTCCAGAA 
AAACCATGGA AGGTTCATGT GAAATGGATT TTGGACACTG ATATTTTCAA TGAATGGATG 
AATGAGGAGG ATTATGAGGT GGATGAAAAT AGGAAGCCTG TGAGTTTTCG TCAGCGGATT 
TCAACCAAGA ATGAAGAGCC AGTCAGAAGT CCAGAAAGAA GAGATAGAAA AGCATCAGCT 
AATGCTCGAA AGAGGAAACA TTCGCCTTCG CCTCCCCCTC CGACACCAAC AGAATCACGG 
AAGAAGAGTG GGAAGAAAGG CCAAGCTAGC CTTTATGGGA AGCGCAGAAG TCAGAAAGAG 
GAAGATGAGC AAGAAGATCT AACCAAGGAT ATGGAAGACC CAACACCTGT ACCCAATATA 
GAAGAAGTAG TACTTCCCAA AAATGTGAAC CTAAAGAAAG ATAGTGAAAA TACACCTGTT 
AAAGGAGGAA CTGTAGCGGA TCTAGATGAG CAGGATGAAG AAACAGTCAC AGCAGGAGGA 
AAGGAAGATG AAGATCCTGC CAAAGGTGAT CAGAGTCGAT CAGTTGACCT TGGGGAAGAT 
AATGTGACAG AGCAGACCAA TCACATTATT ATTCCTAGTT ATGCATCATG GTTTGATTAT 
AACTGTATTC ATGTGATTGA ACGGCGTGCT CTTCCTGAGT TCTTCAATGG AAAAAACAAA 
TCCAAGACTC CAGAAATATA CTTGGCATAT CGAAATTTTA TGATTGACAC GTATCGTCTA 
AACCCCCAAG AGTATTTAAC TAGCACTGCT TGTCGGAGGA ACTTGACTGG AGATGTGTGT 
GCTGTGATGA GGGTCCATGC CTTTTTAGAG CAGTGGGGAC TCGTTAATTA CCAAGTTGAC 
CCGGAAAGTA GACCCATGGC AATGGGACCT CCTCCTACTC CTCATTTTAA TGTATTAGCT 
GATACCCCCT CTGGGCTTGT GCCTCTGCAT CTTCGATCAC CTCAGGTTCC TGCTGCTCAA 
CAGATGCTAA ATTTTCCTGA GAAAAACAAG GAAAAACCAG TTGATTTGCA GAACTTTGGT 
CTCCGTACTG ACATTTACTC CAAGAAAACA TTAGCAAAGA GTAAAGGTGC TAGTGCTGGA 
AGAGAATGGA CTGAACAGGA GACCCTTCTA CTCCTGGAGG CCCTGGAGAT GTACAAGGAT 
GATTGGAACA AAGTGTCGGA ACATGTTGGA AGTCGTACTC AGGATGAATG CATCCTCCAC 
TTTTTGAGAC TTCCCATTGA GGACCCATAC CTTGAGAATT CAGATGCTTC CCTTGGGCCT 
TTGGCCTACC AGCCTGTCCC CTTCAGTCAG TCAGGAAATC CAGTTATGAG TACTGTTGCT 
TTTTTGGCAT CTGTGGTGGA CCCTCGCGTG GCATCTGCTG CAGCAAAAGC GGCTTTGGAG 
GAGTTTTCTC GGGTCCGGGA GGAGGTACCA CTGGAATTGG TTGAAGCTCA TGTCAAGAAA 
GTACAAGAAG CAGCACGAGC CTCTGGGAAA GTGGATCCCA CCTACGGTCT GGAGAGCAGC 
TGCATTGCAG GCACAGGGCC CGATGAGCCA GAGAAGCTTG AAGGAGCTGA AGAGGAAAAA 
ATGGAAGCCG ACCCTGATGG TCAGCAGCCT GAAAAGGCAG AAAATAAAGT GGAAAATGAA 
ACGGATGAAG GTGATAAAGC ACAAGATGGA GAAAATGAAA AAAATAGTGA AAAGGAACAG 
GATAGTGAAG TGAGTGAGGA TACCAAATCA GAAGAAAAGG AGACTGAAGA GAACAAAGAA 
CTCACTGATA CATGTAAAGA AAGAGAAAGT GATACTGGGA AGAAGAAAGT AGAACATGAA 
ATTTCCGAAG GAAATGTTGC CACAGCCGCA GCAGCTGCTC TTGCCTCAGC GGCTACCAAA 
GCCAAGCACC TGGCTGCAGT GGAAGAAAGA AAGATCAAGT CCCTGGTAGC TCTCTTGGTT 
GAGACACAAA TGAAGAAACT AGAGATCAAA CTTCGACATT TTGAAGAGCT GGAAACTATC 
ATGGACAGAG AGAAAGAAGC TCTAGAACAA CAGAGGCAGC AGTTGCTTAC TGAACGCCAA 
AACTTCCACA TGGAACAGCT GAAGTATGCT GAATTACGAG CACGACAGCA AATGGAACAG 
CAGCAGCATG GCCAGAACCC TCAACAGGCA CACCAGCACT CAGGAGGACC TGGCCTGGCC 
CCACTTGGAG CAGCAGGGCA CCCTGGCATG ATGCCTCATC AACAGCCCCC TCCCTACCCT 
CTGATGCACC ACCAGATGCC ACCACCTCAT CCACCCCAGC CAGGTCAGAT ACCAGGCCCA 
GGTTCCATGA TGCCCGGGCA GCACATGCCA GGCCGCATGA TTCCCACTGT TGCAGCCAAC 
ATCCACCCCT CTGGGAGTGG CCCTACCCCT CCTGGCATGC CACCAATGCC AGGAAACATC 
TTAGGACCCC GGGTACCCCT GACAGCACCT AACGGCATGT ATCCCCCTCC ACCACAGCAG 
CAGCCACCGC CACCACCACC TGCAGATGGG GTCCCTCCGC CTCCTGCTCC TGGCCCGCCA 
GCCTCAGCTG CTCCTTAG

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

SMARCC1 ( NM_003074.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_003065.3 Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.

Price & Availability↑

CloneID	OHu26066
Clone ID Related Accession (Same CDS sequence)	NM_003074.3 , NM_003074.4
Accession Version	NM_003074.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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	2019-07-05
Organism	Homo sapiens(human)
Product	SWI/SNF complex subunit SMARCC1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC012101.1, BC050564.1, BC040242.1 and AC112512.6. On Nov 23, 2018 this sequence version replaced NM_003074.3. 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## Transcript exon combination :: SRR1660803.95065.1, SRR1660809.251712.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000254480.10/ ENSP00000254480.5 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCCGCAG CGGCGGGCGG CGGCGGGCCG GGGACAGCGG TAGGCGCCAC GGGCTCGGGG 
ATTGCGGCGG CAGCCGCAGG CCTAGCTGTT TATCGACGGA AGGATGGGGG CCCGGCCACC 
AAGTTTTGGG AGAGCCCGGA GACGGTGTCC CAGCTGGATT CGGTGCGGGT CTGGCTGGGC 
AAGCACTACA AGAAGTATGT TCATGCGGAT GCTCCTACCA ATAAAACACT GGCTGGGCTG 
GTGGTGCAGC TTCTTCAGTT CCAGGAAGAT GCCTTTGGGA AGCATGTCAC CAACCCGGCC 
TTCACCAAAC TCCCTGCAAA GTGTTTCATG GATTTCAAAG CTGGAGGCGC CTTATGTCAC 
ATTCTTGGGG CTGCTTACAA GTATAAAAAT GAACAGGGAT GGCGGAGGTT TGACCTACAG 
AACCCATCTC GAATGGATCG TAATGTGGAA ATGTTTATGA ACATTGAAAA AACATTGGTG 
CAGAACAATT GTTTGACCAG ACCCAACATC TACCTCATTC CAGACATTGA TCTGAAGTTG 
GCTAACAAAT TGAAAGATAT CATCAAACGA CATCAGGGAA CATTTACGGA TGAGAAGTCA 
AAAGCTTCCC ACCACATTTA CCCATATTCT TCCTCACAAG ACGATGAAGA ATGGTTGAGA 
CCGGTGATGA GAAAAGAGAA GCAAGTGTTA GTGCATTGGG GCTTTTACCC AGACAGCTAT 
GATACTTGGG TCCATAGTAA TGATGTTGAT GCTGAAATTG AAGATCCACC AATTCCAGAA 
AAACCATGGA AGGTTCATGT GAAATGGATT TTGGACACTG ATATTTTCAA TGAATGGATG 
AATGAGGAGG ATTATGAGGT GGATGAAAAT AGGAAGCCTG TGAGTTTTCG TCAGCGGATT 
TCAACCAAGA ATGAAGAGCC AGTCAGAAGT CCAGAAAGAA GAGATAGAAA AGCATCAGCT 
AATGCTCGAA AGAGGAAACA TTCGCCTTCG CCTCCCCCTC CGACACCAAC AGAATCACGG 
AAGAAGAGTG GGAAGAAAGG CCAAGCTAGC CTTTATGGGA AGCGCAGAAG TCAGAAAGAG 
GAAGATGAGC AAGAAGATCT AACCAAGGAT ATGGAAGACC CAACACCTGT ACCCAATATA 
GAAGAAGTAG TACTTCCCAA AAATGTGAAC CTAAAGAAAG ATAGTGAAAA TACACCTGTT 
AAAGGAGGAA CTGTAGCGGA TCTAGATGAG CAGGATGAAG AAACAGTCAC AGCAGGAGGA 
AAGGAAGATG AAGATCCTGC CAAAGGTGAT CAGAGTCGAT CAGTTGACCT TGGGGAAGAT 
AATGTGACAG AGCAGACCAA TCACATTATT ATTCCTAGTT ATGCATCATG GTTTGATTAT 
AACTGTATTC ATGTGATTGA ACGGCGTGCT CTTCCTGAGT TCTTCAATGG AAAAAACAAA 
TCCAAGACTC CAGAAATATA CTTGGCATAT CGAAATTTTA TGATTGACAC GTATCGTCTA 
AACCCCCAAG AGTATTTAAC TAGCACTGCT TGTCGGAGGA ACTTGACTGG AGATGTGTGT 
GCTGTGATGA GGGTCCATGC CTTTTTAGAG CAGTGGGGAC TCGTTAATTA CCAAGTTGAC 
CCGGAAAGTA GACCCATGGC AATGGGACCT CCTCCTACTC CTCATTTTAA TGTATTAGCT 
GATACCCCCT CTGGGCTTGT GCCTCTGCAT CTTCGATCAC CTCAGGTTCC TGCTGCTCAA 
CAGATGCTAA ATTTTCCTGA GAAAAACAAG GAAAAACCAG TTGATTTGCA GAACTTTGGT 
CTCCGTACTG ACATTTACTC CAAGAAAACA TTAGCAAAGA GTAAAGGTGC TAGTGCTGGA 
AGAGAATGGA CTGAACAGGA GACCCTTCTA CTCCTGGAGG CCCTGGAGAT GTACAAGGAT 
GATTGGAACA AAGTGTCGGA ACATGTTGGA AGTCGTACTC AGGATGAATG CATCCTCCAC 
TTTTTGAGAC TTCCCATTGA GGACCCATAC CTTGAGAATT CAGATGCTTC CCTTGGGCCT 
TTGGCCTACC AGCCTGTCCC CTTCAGTCAG TCAGGAAATC CAGTTATGAG TACTGTTGCT 
TTTTTGGCAT CTGTGGTGGA CCCTCGCGTG GCATCTGCTG CAGCAAAAGC GGCTTTGGAG 
GAGTTTTCTC GGGTCCGGGA GGAGGTACCA CTGGAATTGG TTGAAGCTCA TGTCAAGAAA 
GTACAAGAAG CAGCACGAGC CTCTGGGAAA GTGGATCCCA CCTACGGTCT GGAGAGCAGC 
TGCATTGCAG GCACAGGGCC CGATGAGCCA GAGAAGCTTG AAGGAGCTGA AGAGGAAAAA 
ATGGAAGCCG ACCCTGATGG TCAGCAGCCT GAAAAGGCAG AAAATAAAGT GGAAAATGAA 
ACGGATGAAG GTGATAAAGC ACAAGATGGA GAAAATGAAA AAAATAGTGA AAAGGAACAG 
GATAGTGAAG TGAGTGAGGA TACCAAATCA GAAGAAAAGG AGACTGAAGA GAACAAAGAA 
CTCACTGATA CATGTAAAGA AAGAGAAAGT GATACTGGGA AGAAGAAAGT AGAACATGAA 
ATTTCCGAAG GAAATGTTGC CACAGCCGCA GCAGCTGCTC TTGCCTCAGC GGCTACCAAA 
GCCAAGCACC TGGCTGCAGT GGAAGAAAGA AAGATCAAGT CCCTGGTAGC TCTCTTGGTT 
GAGACACAAA TGAAGAAACT AGAGATCAAA CTTCGACATT TTGAAGAGCT GGAAACTATC 
ATGGACAGAG AGAAAGAAGC TCTAGAACAA CAGAGGCAGC AGTTGCTTAC TGAACGCCAA 
AACTTCCACA TGGAACAGCT GAAGTATGCT GAATTACGAG CACGACAGCA AATGGAACAG 
CAGCAGCATG GCCAGAACCC TCAACAGGCA CACCAGCACT CAGGAGGACC TGGCCTGGCC 
CCACTTGGAG CAGCAGGGCA CCCTGGCATG ATGCCTCATC AACAGCCCCC TCCCTACCCT 
CTGATGCACC ACCAGATGCC ACCACCTCAT CCACCCCAGC CAGGTCAGAT ACCAGGCCCA 
GGTTCCATGA TGCCCGGGCA GCACATGCCA GGCCGCATGA TTCCCACTGT TGCAGCCAAC 
ATCCACCCCT CTGGGAGTGG CCCTACCCCT CCTGGCATGC CACCAATGCC AGGAAACATC 
TTAGGACCCC GGGTACCCCT GACAGCACCT AACGGCATGT ATCCCCCTCC ACCACAGCAG 
CAGCCACCGC CACCACCACC TGCAGATGGG GTCCCTCCGC CTCCTGCTCC TGGCCCGCCA 
GCCTCAGCTG CTCCTTAG

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

RefSeq	NP_003065.3
CDS	97..3414
Translation	MAAAAGGGGPGTAVGATGSGIAAAAAGLAVYRRKDGGPATKFWESPETVSQLDSVRVWLGKHYKKYVHADAPTNKTLAGLVVQLLQFQEDAFGKHVTNPAFTKLPAKCFMDFKAGGALCHILGAAYKYKNEQGWRRFDLQNPSRMDRNVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLKLANKLKDIIKRHQGTFTDEKSKASHHIYPYSSSQDDEEWLRPVMRKEKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWKVHVKWILDTDIFNEWMNEEDYEVDENRKPVSFRQRISTKNEEPVRSPERRDRKASANARKRKHSPSPPPPTPTESRKKSGKKGQASLYGKRRSQKEEDEQEDLTKDMEDPTPVPNIEEVVLPKNVNLKKDSENTPVKGGTVADLDEQDEETVTAGGKEDEDPAKGDQSRSVDLGEDNVTEQTNHIIIPSYASWFDYNCIHVIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQEYLTSTACRRNLTGDVCAVMRVHAFLEQWGLVNYQVDPESRPMAMGPPPTPHFNVLADTPSGLVPLHLRSPQVPAAQQMLNFPEKNKEKPVDLQNFGLRTDIYSKKTLAKSKGASAGREWTEQETLLLLEALEMYKDDWNKVSEHVGSRTQDECILHFLRLPIEDPYLENSDASLGPLAYQPVPFSQSGNPVMSTVAFLASVVDPRVASAAAKAALEEFSRVREEVPLELVEAHVKKVQEAARASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEKMEADPDGQQPEKAENKVENETDEGDKAQDGENEKNSEKEQDSEVSEDTKSEEKETEENKELTDTCKERESDTGKKKVEHEISEGNVATAAAAALASAATKAKHLAAVEERKIKSLVALLVETQMKKLEIKLRHFEELETIMDREKEALEQQRQQLLTERQNFHMEQLKYAELRARQQMEQQQHGQNPQQAHQHSGGPGLAPLGAAGHPGMMPHQQPPPYPLMHHQMPPPHPPQPGQIPGPGSMMPGQHMPGRMIPTVAANIHPSGSGPTPPGMPPMPGNILGPRVPLTAPNGMYPPPPQQQPPPPPPADGVPPPPAPGPPASAAP

Target ORF information:

RefSeq Version	NM_003074.4
Organism	Homo sapiens(human)
Definition	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), mRNA.

Target ORF information:

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

NM_003074.4

ORF Insert Sequence:

ATGGCCGCAG CGGCGGGCGG CGGCGGGCCG GGGACAGCGG TAGGCGCCAC GGGCTCGGGG 
ATTGCGGCGG CAGCCGCAGG CCTAGCTGTT TATCGACGGA AGGATGGGGG CCCGGCCACC 
AAGTTTTGGG AGAGCCCGGA GACGGTGTCC CAGCTGGATT CGGTGCGGGT CTGGCTGGGC 
AAGCACTACA AGAAGTATGT TCATGCGGAT GCTCCTACCA ATAAAACACT GGCTGGGCTG 
GTGGTGCAGC TTCTTCAGTT CCAGGAAGAT GCCTTTGGGA AGCATGTCAC CAACCCGGCC 
TTCACCAAAC TCCCTGCAAA GTGTTTCATG GATTTCAAAG CTGGAGGCGC CTTATGTCAC 
ATTCTTGGGG CTGCTTACAA GTATAAAAAT GAACAGGGAT GGCGGAGGTT TGACCTACAG 
AACCCATCTC GAATGGATCG TAATGTGGAA ATGTTTATGA ACATTGAAAA AACATTGGTG 
CAGAACAATT GTTTGACCAG ACCCAACATC TACCTCATTC CAGACATTGA TCTGAAGTTG 
GCTAACAAAT TGAAAGATAT CATCAAACGA CATCAGGGAA CATTTACGGA TGAGAAGTCA 
AAAGCTTCCC ACCACATTTA CCCATATTCT TCCTCACAAG ACGATGAAGA ATGGTTGAGA 
CCGGTGATGA GAAAAGAGAA GCAAGTGTTA GTGCATTGGG GCTTTTACCC AGACAGCTAT 
GATACTTGGG TCCATAGTAA TGATGTTGAT GCTGAAATTG AAGATCCACC AATTCCAGAA 
AAACCATGGA AGGTTCATGT GAAATGGATT TTGGACACTG ATATTTTCAA TGAATGGATG 
AATGAGGAGG ATTATGAGGT GGATGAAAAT AGGAAGCCTG TGAGTTTTCG TCAGCGGATT 
TCAACCAAGA ATGAAGAGCC AGTCAGAAGT CCAGAAAGAA GAGATAGAAA AGCATCAGCT 
AATGCTCGAA AGAGGAAACA TTCGCCTTCG CCTCCCCCTC CGACACCAAC AGAATCACGG 
AAGAAGAGTG GGAAGAAAGG CCAAGCTAGC CTTTATGGGA AGCGCAGAAG TCAGAAAGAG 
GAAGATGAGC AAGAAGATCT AACCAAGGAT ATGGAAGACC CAACACCTGT ACCCAATATA 
GAAGAAGTAG TACTTCCCAA AAATGTGAAC CTAAAGAAAG ATAGTGAAAA TACACCTGTT 
AAAGGAGGAA CTGTAGCGGA TCTAGATGAG CAGGATGAAG AAACAGTCAC AGCAGGAGGA 
AAGGAAGATG AAGATCCTGC CAAAGGTGAT CAGAGTCGAT CAGTTGACCT TGGGGAAGAT 
AATGTGACAG AGCAGACCAA TCACATTATT ATTCCTAGTT ATGCATCATG GTTTGATTAT 
AACTGTATTC ATGTGATTGA ACGGCGTGCT CTTCCTGAGT TCTTCAATGG AAAAAACAAA 
TCCAAGACTC CAGAAATATA CTTGGCATAT CGAAATTTTA TGATTGACAC GTATCGTCTA 
AACCCCCAAG AGTATTTAAC TAGCACTGCT TGTCGGAGGA ACTTGACTGG AGATGTGTGT 
GCTGTGATGA GGGTCCATGC CTTTTTAGAG CAGTGGGGAC TCGTTAATTA CCAAGTTGAC 
CCGGAAAGTA GACCCATGGC AATGGGACCT CCTCCTACTC CTCATTTTAA TGTATTAGCT 
GATACCCCCT CTGGGCTTGT GCCTCTGCAT CTTCGATCAC CTCAGGTTCC TGCTGCTCAA 
CAGATGCTAA ATTTTCCTGA GAAAAACAAG GAAAAACCAG TTGATTTGCA GAACTTTGGT 
CTCCGTACTG ACATTTACTC CAAGAAAACA TTAGCAAAGA GTAAAGGTGC TAGTGCTGGA 
AGAGAATGGA CTGAACAGGA GACCCTTCTA CTCCTGGAGG CCCTGGAGAT GTACAAGGAT 
GATTGGAACA AAGTGTCGGA ACATGTTGGA AGTCGTACTC AGGATGAATG CATCCTCCAC 
TTTTTGAGAC TTCCCATTGA GGACCCATAC CTTGAGAATT CAGATGCTTC CCTTGGGCCT 
TTGGCCTACC AGCCTGTCCC CTTCAGTCAG TCAGGAAATC CAGTTATGAG TACTGTTGCT 
TTTTTGGCAT CTGTGGTGGA CCCTCGCGTG GCATCTGCTG CAGCAAAAGC GGCTTTGGAG 
GAGTTTTCTC GGGTCCGGGA GGAGGTACCA CTGGAATTGG TTGAAGCTCA TGTCAAGAAA 
GTACAAGAAG CAGCACGAGC CTCTGGGAAA GTGGATCCCA CCTACGGTCT GGAGAGCAGC 
TGCATTGCAG GCACAGGGCC CGATGAGCCA GAGAAGCTTG AAGGAGCTGA AGAGGAAAAA 
ATGGAAGCCG ACCCTGATGG TCAGCAGCCT GAAAAGGCAG AAAATAAAGT GGAAAATGAA 
ACGGATGAAG GTGATAAAGC ACAAGATGGA GAAAATGAAA AAAATAGTGA AAAGGAACAG 
GATAGTGAAG TGAGTGAGGA TACCAAATCA GAAGAAAAGG AGACTGAAGA GAACAAAGAA 
CTCACTGATA CATGTAAAGA AAGAGAAAGT GATACTGGGA AGAAGAAAGT AGAACATGAA 
ATTTCCGAAG GAAATGTTGC CACAGCCGCA GCAGCTGCTC TTGCCTCAGC GGCTACCAAA 
GCCAAGCACC TGGCTGCAGT GGAAGAAAGA AAGATCAAGT CCCTGGTAGC TCTCTTGGTT 
GAGACACAAA TGAAGAAACT AGAGATCAAA CTTCGACATT TTGAAGAGCT GGAAACTATC 
ATGGACAGAG AGAAAGAAGC TCTAGAACAA CAGAGGCAGC AGTTGCTTAC TGAACGCCAA 
AACTTCCACA TGGAACAGCT GAAGTATGCT GAATTACGAG CACGACAGCA AATGGAACAG 
CAGCAGCATG GCCAGAACCC TCAACAGGCA CACCAGCACT CAGGAGGACC TGGCCTGGCC 
CCACTTGGAG CAGCAGGGCA CCCTGGCATG ATGCCTCATC AACAGCCCCC TCCCTACCCT 
CTGATGCACC ACCAGATGCC ACCACCTCAT CCACCCCAGC CAGGTCAGAT ACCAGGCCCA 
GGTTCCATGA TGCCCGGGCA GCACATGCCA GGCCGCATGA TTCCCACTGT TGCAGCCAAC 
ATCCACCCCT CTGGGAGTGG CCCTACCCCT CCTGGCATGC CACCAATGCC AGGAAACATC 
TTAGGACCCC GGGTACCCCT GACAGCACCT AACGGCATGT ATCCCCCTCC ACCACAGCAG 
CAGCCACCGC CACCACCACC TGCAGATGGG GTCCCTCCGC CTCCTGCTCC TGGCCCGCCA 
GCCTCAGCTG CTCCTTAG

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

SMARCC1 ( XM_011534034.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011532336.1 Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), transcript variant X1, mRNA.

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CloneID	OHu60631
Clone ID Related Accession (Same CDS sequence)	XM_011534034.1
Accession Version	XM_011534034.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2991bp) 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	2018-03-25
Organism	Homo sapiens(human)
Product	SWI/SNF complex subunit SMARCC1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000003.12) 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 :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATTTCA AAGCTGGAGG CGCCTTATGT CACATTCTTG GGGCTGCTTA CAAGTATAAA 
AATGAACAGG GATGGCGGAG GTTTGACCTA CAGAACCCAT CTCGAATGGA TCGTAATGTG 
GAAATGTTTA TGAACATTGA AAAAACATTG GTGCAGAACA ATTGTTTGAC CAGACCCAAC 
ATCTACCTCA TTCCAGACAT TGATCTGAAG TTGGCTAACA AATTGAAAGA TATCATCAAA 
CGACATCAGG GAACATTTAC GGATGAGAAG TCAAAAGCTT CCCACCACAT TTACCCATAT 
TCTTCCTCAC AAGACGATGA AGAATGGTTG AGACCGGTGA TGAGAAAAGA GAAGCAAGTG 
TTAGTGCATT GGGGCTTTTA CCCAGACAGC TATGATACTT GGGTCCATAG TAATGATGTT 
GATGCTGAAA TTGAAGATCC ACCAATTCCA GAAAAACCAT GGAAGGTTCA TGTGAAATGG 
ATTTTGGACA CTGATATTTT CAATGAATGG ATGAATGAGG AGGATTATGA GGTGGATGAA 
AATAGGAAGC CTGTGAGTTT TCGTCAGCGG ATTTCAACCA AGAATGAAGA GCCAGTCAGA 
AGTCCAGAAA GAAGAGATAG AAAAGCATCA GCTAATGCTC GAAAGAGGAA ACATTCGCCT 
TCGCCTCCCC CTCCGACACC AACAGAATCA CGGAAGAAGA GTGGGAAGAA AGGCCAAGCT 
AGCCTTTATG GGAAGCGCAG AAGTCAGAAA GAGGAAGATG AGCAAGAAGA TCTAACCAAG 
GATATGGAAG ACCCAACACC TGTACCCAAT ATAGAAGAAG TAGTACTTCC CAAAAATGTG 
AACCTAAAGA AAGATAGTGA AAATACACCT GTTAAAGGAG GAACTGTAGC GGATCTAGAT 
GAGCAGGATG AAGAAACAGT CACAGCAGGA GGAAAGGAAG ATGAAGATCC TGCCAAAGGT 
GATCAGAGTC GATCAGTTGA CCTTGGGGAA GATAATGTGA CAGAGCAGAC CAATCACATT 
ATTATTCCTA GTTATGCATC ATGGTTTGAT TATAACTGTA TTCATGTGAT TGAACGGCGT 
GCTCTTCCTG AGTTCTTCAA TGGAAAAAAC AAATCCAAGA CTCCAGAAAT ATACTTGGCA 
TATCGAAATT TTATGATTGA CACGTATCGT CTAAACCCCC AAGAGTATTT AACTAGCACT 
GCTTGTCGGA GGAACTTGAC TGGAGATGTG TGTGCTGTGA TGAGGGTCCA TGCCTTTTTA 
GAGCAGTGGG GACTCGTTAA TTACCAAGTT GACCCGGAAA GTAGACCCAT GGCAATGGGA 
CCTCCTCCTA CTCCTCATTT TAATGTATTA GCTGATACCC CCTCTGGGCT TGTGCCTCTG 
CATCTTCGAT CACCTCAGGT TCCTGCTGCT CAACAGATGC TAAATTTTCC TGAGAAAAAC 
AAGGAAAAAC CAGTTGATTT GCAGAACTTT GGTCTCCGTA CTGACATTTA CTCCAAGAAA 
ACATTAGCAA AGAGTAAAGG TGCTAGTGCT GGAAGAGAAT GGACTGAACA GGAGACCCTT 
CTACTCCTGG AGGCCCTGGA GATGTACAAG GATGATTGGA ACAAAGTGTC GGAACATGTT 
GGAAGTCGTA CTCAGGATGA ATGCATCCTC CACTTTTTGA GACTTCCCAT TGAGGACCCA 
TACCTTGAGA ATTCAGATGC TTCCCTTGGG CCTTTGGCCT ACCAGCCTGT CCCCTTCAGT 
CAGTCAGGAA ATCCAGTTAT GAGTACTGTT GCTTTTTTGG CATCTGTGGT GGACCCTCGC 
GTGGCATCTG CTGCAGCAAA AGCGGCTTTG GAGGAGTTTT CTCGGGTCCG GGAGGAGGTA 
CCACTGGAAT TGGTTGAAGC TCATGTCAAG AAAGTACAAG AAGCAGCACG AGCCTCTGGG 
AAAGTGGATC CCACCTACGG TCTGGAGAGC AGCTGCATTG CAGGCACAGG GCCCGATGAG 
CCAGAGAAGC TTGAAGGAGC TGAAGAGGAA AAAATGGAAG CCGACCCTGA TGGTCAGCAG 
CCTGAAAAGG CAGAAAATAA AGTGGAAAAT GAAACGGATG AAGGTGATAA AGCACAAGAT 
GGAGAAAATG AAAAAAATAG TGAAAAGGAA CAGGATAGTG AAGTGAGTGA GGATACCAAA 
TCAGAAGAAA AGGAGACTGA AGAGAACAAA GAACTCACTG ATACATGTAA AGAAAGAGAA 
AGTGATACTG GGAAGAAGAA AGTAGAACAT GAAATTTCCG AAGGAAATGT TGCCACAGCC 
GCAGCAGCTG CTCTTGCCTC AGCGGCTACC AAAGCCAAGC ACCTGGCTGC AGTGGAAGAA 
AGAAAGATCA AGTCCCTGGT AGCTCTCTTG GTTGAGACAC AAATGAAGAA ACTAGAGATC 
AAACTTCGAC ATTTTGAAGA GCTGGAAACT ATCATGGACA GAGAGAAAGA AGCTCTAGAA 
CAACAGAGGC AGCAGTTGCT TACTGAACGC CAAAACTTCC ACATGGAACA GCTGAAGTAT 
GCTGAATTAC GAGCACGACA GCAAATGGAA CAGCAGCAGC ATGGCCAGAA CCCTCAACAG 
GCACACCAGC ACTCAGGAGG ACCTGGCCTG GCCCCACTTG GAGCAGCAGG GCACCCTGGC 
ATGATGCCTC ATCAACAGCC CCCTCCCTAC CCTCTGATGC ACCACCAGAT GCCACCACCT 
CATCCACCCC AGCCAGGTCA GATACCAGGC CCAGGTTCCA TGATGCCCGG GCAGCACATG 
CCAGGCCGCA TGATTCCCAC TGTTGCAGCC AACATCCACC CCTCTGGGAG TGGCCCTACC 
CCTCCTGGCA TGCCACCAAT GCCAGGAAAC ATCTTAGGAC CCCGGGTACC CCTGACAGCA 
CCTAACGGCA TGTATCCCCC TCCACCACAG CAGCAGCCAC CGCCACCACC ACCTGCAGAT 
GGGGTCCCTC CGCCTCCTGC TCCTGGCCCG CCAGCCTCAG CTGCTCCTTA G

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

RefSeq	XP_011532336.1
CDS	177..3167
Translation	MDFKAGGALCHILGAAYKYKNEQGWRRFDLQNPSRMDRNVEMFMNIEKTLVQNNCLTRPNIYLIPDIDLKLANKLKDIIKRHQGTFTDEKSKASHHIYPYSSSQDDEEWLRPVMRKEKQVLVHWGFYPDSYDTWVHSNDVDAEIEDPPIPEKPWKVHVKWILDTDIFNEWMNEEDYEVDENRKPVSFRQRISTKNEEPVRSPERRDRKASANARKRKHSPSPPPPTPTESRKKSGKKGQASLYGKRRSQKEEDEQEDLTKDMEDPTPVPNIEEVVLPKNVNLKKDSENTPVKGGTVADLDEQDEETVTAGGKEDEDPAKGDQSRSVDLGEDNVTEQTNHIIIPSYASWFDYNCIHVIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQEYLTSTACRRNLTGDVCAVMRVHAFLEQWGLVNYQVDPESRPMAMGPPPTPHFNVLADTPSGLVPLHLRSPQVPAAQQMLNFPEKNKEKPVDLQNFGLRTDIYSKKTLAKSKGASAGREWTEQETLLLLEALEMYKDDWNKVSEHVGSRTQDECILHFLRLPIEDPYLENSDASLGPLAYQPVPFSQSGNPVMSTVAFLASVVDPRVASAAAKAALEEFSRVREEVPLELVEAHVKKVQEAARASGKVDPTYGLESSCIAGTGPDEPEKLEGAEEEKMEADPDGQQPEKAENKVENETDEGDKAQDGENEKNSEKEQDSEVSEDTKSEEKETEENKELTDTCKERESDTGKKKVEHEISEGNVATAAAAALASAATKAKHLAAVEERKIKSLVALLVETQMKKLEIKLRHFEELETIMDREKEALEQQRQQLLTERQNFHMEQLKYAELRARQQMEQQQHGQNPQQAHQHSGGPGLAPLGAAGHPGMMPHQQPPPYPLMHHQMPPPHPPQPGQIPGPGSMMPGQHMPGRMIPTVAANIHPSGSGPTPPGMPPMPGNILGPRVPLTAPNGMYPPPPQQQPPPPPPADGVPPPPAPGPPASAAP

Target ORF information:

RefSeq Version	XM_011534034.1
Organism	Homo sapiens(human)
Definition	Homo sapiens SWI/SNF related, matrix associated, actin dependent regulator of chromatin subfamily c member 1 (SMARCC1), transcript variant X1, mRNA.

Target ORF information:

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

XM_011534034.1

ORF Insert Sequence:

ATGGATTTCA AAGCTGGAGG CGCCTTATGT CACATTCTTG GGGCTGCTTA CAAGTATAAA 
AATGAACAGG GATGGCGGAG GTTTGACCTA CAGAACCCAT CTCGAATGGA TCGTAATGTG 
GAAATGTTTA TGAACATTGA AAAAACATTG GTGCAGAACA ATTGTTTGAC CAGACCCAAC 
ATCTACCTCA TTCCAGACAT TGATCTGAAG TTGGCTAACA AATTGAAAGA TATCATCAAA 
CGACATCAGG GAACATTTAC GGATGAGAAG TCAAAAGCTT CCCACCACAT TTACCCATAT 
TCTTCCTCAC AAGACGATGA AGAATGGTTG AGACCGGTGA TGAGAAAAGA GAAGCAAGTG 
TTAGTGCATT GGGGCTTTTA CCCAGACAGC TATGATACTT GGGTCCATAG TAATGATGTT 
GATGCTGAAA TTGAAGATCC ACCAATTCCA GAAAAACCAT GGAAGGTTCA TGTGAAATGG 
ATTTTGGACA CTGATATTTT CAATGAATGG ATGAATGAGG AGGATTATGA GGTGGATGAA 
AATAGGAAGC CTGTGAGTTT TCGTCAGCGG ATTTCAACCA AGAATGAAGA GCCAGTCAGA 
AGTCCAGAAA GAAGAGATAG AAAAGCATCA GCTAATGCTC GAAAGAGGAA ACATTCGCCT 
TCGCCTCCCC CTCCGACACC AACAGAATCA CGGAAGAAGA GTGGGAAGAA AGGCCAAGCT 
AGCCTTTATG GGAAGCGCAG AAGTCAGAAA GAGGAAGATG AGCAAGAAGA TCTAACCAAG 
GATATGGAAG ACCCAACACC TGTACCCAAT ATAGAAGAAG TAGTACTTCC CAAAAATGTG 
AACCTAAAGA AAGATAGTGA AAATACACCT GTTAAAGGAG GAACTGTAGC GGATCTAGAT 
GAGCAGGATG AAGAAACAGT CACAGCAGGA GGAAAGGAAG ATGAAGATCC TGCCAAAGGT 
GATCAGAGTC GATCAGTTGA CCTTGGGGAA GATAATGTGA CAGAGCAGAC CAATCACATT 
ATTATTCCTA GTTATGCATC ATGGTTTGAT TATAACTGTA TTCATGTGAT TGAACGGCGT 
GCTCTTCCTG AGTTCTTCAA TGGAAAAAAC AAATCCAAGA CTCCAGAAAT ATACTTGGCA 
TATCGAAATT TTATGATTGA CACGTATCGT CTAAACCCCC AAGAGTATTT AACTAGCACT 
GCTTGTCGGA GGAACTTGAC TGGAGATGTG TGTGCTGTGA TGAGGGTCCA TGCCTTTTTA 
GAGCAGTGGG GACTCGTTAA TTACCAAGTT GACCCGGAAA GTAGACCCAT GGCAATGGGA 
CCTCCTCCTA CTCCTCATTT TAATGTATTA GCTGATACCC CCTCTGGGCT TGTGCCTCTG 
CATCTTCGAT CACCTCAGGT TCCTGCTGCT CAACAGATGC TAAATTTTCC TGAGAAAAAC 
AAGGAAAAAC CAGTTGATTT GCAGAACTTT GGTCTCCGTA CTGACATTTA CTCCAAGAAA 
ACATTAGCAA AGAGTAAAGG TGCTAGTGCT GGAAGAGAAT GGACTGAACA GGAGACCCTT 
CTACTCCTGG AGGCCCTGGA GATGTACAAG GATGATTGGA ACAAAGTGTC GGAACATGTT 
GGAAGTCGTA CTCAGGATGA ATGCATCCTC CACTTTTTGA GACTTCCCAT TGAGGACCCA 
TACCTTGAGA ATTCAGATGC TTCCCTTGGG CCTTTGGCCT ACCAGCCTGT CCCCTTCAGT 
CAGTCAGGAA ATCCAGTTAT GAGTACTGTT GCTTTTTTGG CATCTGTGGT GGACCCTCGC 
GTGGCATCTG CTGCAGCAAA AGCGGCTTTG GAGGAGTTTT CTCGGGTCCG GGAGGAGGTA 
CCACTGGAAT TGGTTGAAGC TCATGTCAAG AAAGTACAAG AAGCAGCACG AGCCTCTGGG 
AAAGTGGATC CCACCTACGG TCTGGAGAGC AGCTGCATTG CAGGCACAGG GCCCGATGAG 
CCAGAGAAGC TTGAAGGAGC TGAAGAGGAA AAAATGGAAG CCGACCCTGA TGGTCAGCAG 
CCTGAAAAGG CAGAAAATAA AGTGGAAAAT GAAACGGATG AAGGTGATAA AGCACAAGAT 
GGAGAAAATG AAAAAAATAG TGAAAAGGAA CAGGATAGTG AAGTGAGTGA GGATACCAAA 
TCAGAAGAAA AGGAGACTGA AGAGAACAAA GAACTCACTG ATACATGTAA AGAAAGAGAA 
AGTGATACTG GGAAGAAGAA AGTAGAACAT GAAATTTCCG AAGGAAATGT TGCCACAGCC 
GCAGCAGCTG CTCTTGCCTC AGCGGCTACC AAAGCCAAGC ACCTGGCTGC AGTGGAAGAA 
AGAAAGATCA AGTCCCTGGT AGCTCTCTTG GTTGAGACAC AAATGAAGAA ACTAGAGATC 
AAACTTCGAC ATTTTGAAGA GCTGGAAACT ATCATGGACA GAGAGAAAGA AGCTCTAGAA 
CAACAGAGGC AGCAGTTGCT TACTGAACGC CAAAACTTCC ACATGGAACA GCTGAAGTAT 
GCTGAATTAC GAGCACGACA GCAAATGGAA CAGCAGCAGC ATGGCCAGAA CCCTCAACAG 
GCACACCAGC ACTCAGGAGG ACCTGGCCTG GCCCCACTTG GAGCAGCAGG GCACCCTGGC 
ATGATGCCTC ATCAACAGCC CCCTCCCTAC CCTCTGATGC ACCACCAGAT GCCACCACCT 
CATCCACCCC AGCCAGGTCA GATACCAGGC CCAGGTTCCA TGATGCCCGG GCAGCACATG 
CCAGGCCGCA TGATTCCCAC TGTTGCAGCC AACATCCACC CCTCTGGGAG TGGCCCTACC 
CCTCCTGGCA TGCCACCAAT GCCAGGAAAC ATCTTAGGAC CCCGGGTACC CCTGACAGCA 
CCTAACGGCA TGTATCCCCC TCCACCACAG CAGCAGCCAC CGCCACCACC ACCTGCAGAT 
GGGGTCCCTC CGCCTCCTGC TCCTGGCCCG CCAGCCTCAG CTGCTCCTTA G

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

PubMed

Nuclear/cytoplasmic transport defects in BBS6 underlie congenital heart disease through perturbation of a chromatin remodeling protein.
PLoS genetics13(7)e1006936(2017 Jul)
Scott CA,Marsden AN,Rebagliati MR,Zhang Q,Chamling X,Searby CC,Baye LM,Sheffield VC,Slusarski DC

Histone-binding of DPF2 mediates its repressive role in myeloid differentiation.
Proceedings of the National Academy of Sciences of the United States of America114(23)6016-6021(2017 Jun)
Huber FM,Greenblatt SM,Davenport AM,Martinez C,Xu Y,Vu LP,Nimer SD,Hoelz A

Structural Insights into BAF47 and BAF155 Complex Formation.
Journal of molecular biology429(11)1650-1660(2017 Jun)
Yan L,Xie S,Du Y,Qian C

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SMARCC1 cDNA ORF clone, Homo sapiens(human)

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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