ORF cDNA Clones and Custom Clones » Species Summary » Rattus norvegicus » Smarcad1 cDNA ORF clone

Smarcad1 cDNA ORF clone, Rattus norvegicus(Norway rat)

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Summary

Gene Symbol	Smarcad1
Entrez Gene ID	312398
Full Name	SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1
General protein information	Preferred Names SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 Names SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 4 Map Location: 4q31

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006236600.3	XP_006236662.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X1
NM_001107864.2	NP_001101334.2	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1
XM_008762979.2	XP_008761201.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X2
XM_006236599.2	XP_006236661.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X1
XM_006236601.3	XP_006236663.1	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X3

Homologies

Pan troglodytes (chimpanzee)	SMARCAD1	XP_001163670.1
Mus musculus (house mouse)	Smarcad1	NP_031984.1
Rattus norvegicus (Norway rat)	Smarcad1	NP_001101334.2
	SMARCAD1	XP_002804185.1
Gallus gallus (chicken)	SMARCAD1	XP_420485.4
Danio rerio (zebrafish)	smarcad1	NP_001018610.2
Danio rerio (zebrafish)	LOC563175	XP_005155692.1
Canis lupus familiaris (dog)	SMARCAD1	XP_005639255.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP009980	XP_319118.4
Xenopus tropicalis (tropical clawed frog)	smarcad1	NP_001015697.1
Homo sapiens (human)	SMARCAD1	NP_001121901.1
Bos taurus (cattle)	SMARCAD1	NP_001192361.1
Drosophila melanogaster (fruit fly)	Etl1	NP_609320.2

The yeast Fun30 and human SMARCAD1 chromatin remodellers promote DNA end resection.
Costelloe T, Louge R, Tomimatsu N, Mukherjee B, Martini E, Khadaroo B, Dubois K, Wiegant WW, Thierry A, Burma S, van Attikum H, Llorente B
Nature489(7417)581-4(2012 Sep)

Maintenance of silent chromatin through replication requires SWI/SNF-like chromatin remodeler SMARCAD1.
Rowbotham SP, Barki L, Neves-Costa A, Santos F, Dean W, Hawkes N, Choudhary P, Will WR, Webster J, Oxley D, Green CM, Varga-Weisz P, Mermoud JE
Molecular cell42(3)285-96(2011 May)

The novel protein complex with SMARCAD1/KIAA1122 binds to the vicinity of TSS.
Okazaki N, Ikeda S, Ohara R, Shimada K, Yanagawa T, Nagase T, Ohara O, Koga H
Journal of molecular biology382(2)257-65(2008 Oct)

SMARCAD1, a novel human helicase family-defining member associated with genetic instability: cloning, expression, and mapping to 4q22-q23, a band rich in breakpoints and deletion mutants involved in several human diseases.
Adra CN, Donato JL, Badovinac R, Syed F, Kheraj R, Cai H, Moran C, Kolker MT, Turner H, Weremowicz S, Shirakawa T, Morton CC, Schnipper LE, Drews R
Genomics69(2)162-73(2000 Oct)

The Etl-1 gene encodes a nuclear protein differentially expressed during early mouse development.
Schoor M, Schuster-Gossler K, Gossler A
Developmental dynamics : an official publication of the American Association of Anatomists197(3)227-37(1993 Jul)

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

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The following Smarcad1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Smarcad1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
ORa27313	XM_006236601.3 Latest version!	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X4, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	12-14	$475.30 $679.00
ORa47126	XM_008762979.2 Latest version!	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X3, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	12-14	$475.30 $679.00
ORa00209	NM_001107864.2 Latest version!	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1` (Smarcad1), mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$559.30 $799.00
ORa00209	XM_006236600.3 Latest version!	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X1, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$559.30 $799.00
ORa00209	XM_006236599.2 Latest version!	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X2, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$559.30 $799.00

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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)

Smarcad1 ( XM_006236601.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006236663.1 Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	ORa27313
Clone ID Related Accession (Same CDS sequence)	XM_006236601.3
Accession Version	XM_006236601.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2520bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006236601.2. ##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##

ATGGATGGAG CCATTGCTGC TGCCTTGCTG AAGTTCGGTG ATGCAGGTGG TGGACCCAGG 
AAAAGAAAAT TATCTTCTTC TTCTGAGGCA TATGAAGAGG ATGAAGCTAA TGATGATCAG 
TCTTTAAAAA AGCCGCGAGG GGATCGTAGA GAAGAATCAA ATGAGTCTGC AGAAGCTAGC 
AGCAACTGGG AAAAGCAAGA AAGTATTGTG TTGAAATTGC AGAAGGAATT CCCAAATTTT 
GATAAACAGG AGTTAAGGGA AGTGCTTAAG GAGCATGAGT GGATGTACAC AGAAGCCTTG 
GAGTCTCTGA AAGTGTTTGC GGAAGATCAA GATGTGCAGT GTGCTTCACA AAGTGAGGTT 
ACAAATGGAA AAGAAGTTGC AAGGAATCAA AATTATTCTA AAAATGCAGC TAAAATAAAG 
ATGAAACAGA AAATTTCCAT GAAACCACAA AATGGCTTTA ACAAGAAACG TAAGAAAAAT 
GTATTTAATC CTAAGAAAGC CGTAGAGGAC TCTGAGTATG ATTCGGGTTC TGATGCTGGG 
AGCTCACTGG ATGAGGACTA CAGCAGTTGT GAAGAAGTGA TGGAGGACGG CTATAAAGGC 
AAAATTCTCC ACTTCCTTCA AGATGCTTCG ATTGGTGAAC TGACTTTGAT TCCTAAGTGT 
TCTCAGAAAA AGGCTCAGAA GATAATAGAA CTCCGGCCCT TTAATAATTG GGAAACTCTG 
TTTACAAAGA TGTCCAAAAT CAATGGCCTA TCTGAAGATT TGATATGGAA TTGCAAAACG 
GTAATTCAAG AAAGGGATGT AGTTATAAGA CTTATGAACA AATGTGAAGA TATTTCAAAT 
AAATTAACCA AACAAGTTAC CATGCTTACT GGAAATGGAG GTGGATGGAA CATAGAACAG 
CCTTCCCTTC TAAACCAAAG TTTGTCACTC AAGCCCTATC AGAAGGTTGG TTTGAATTGG 
CTGGCATTGG TGCATAAACA TGGACTTAAT GGCATTTTGG CAGATGAAAT GGGCCTAGGA 
AAAACCATTC AAGCCATTGC CTTCCTGGCA TACCTCTTTC AAGAGGGTAA TAAAGGGCCT 
CATTTGATTG TTGTTCCGGC CTCCACCATA GATAACTGGT TAAGAGAAGT TAACTTATGG 
TGCCCTACTT TAAATGTGCT CTGTTACTAT GGTTCTCAAG AAGAGCGTAA ACAAATTAGA 
TTCAACATCC ATAATAAATA TGAAGATTAC AATGTAATTG TTACGACGTA TAATTGTGCA 
ATCAGCAGCT CTGATGACCG CAGTCTCTTT CGACGCCTGA AACTGAATTA TGCAATTTTT 
GATGAGGGCC ATATGCTGAA GAATATGGGC TCTATCCGCT ACCAGCACCT AATGACAATT 
AATGCACGAA ACCGGTTACT ACTCACGGGA ACACCTGTGC AGAATAATCT GCTAGAACTC 
ATGTCATTGT TGAATTTTGT TATGCCACAC ATGTTTAGCA GTAGCACCAG CGAAATCCGA 
AGGATGTTTT CTTCTAAAAC GAAACCAGCA GATGAACAGA GTATATACGA AAAGGAGAGA 
ATAGCACATG CAAAACAAAT CATAAAGCCC TTTATTCTCA GAAGAGTGAA AGAGGAGGTT 
CTTAAGCTTC TGCCTCCCAA GAAGGATCAG ATTGAGCTAT GCGCAATGTC AGAGAAGCAG 
GAGCAACTCT ACTCGGGCCT TTTTAACAGA TTGAAAAAGT CTATCAACAA CCTGGAAAAA 
AACACAGAGA TGTGCAATGT CATGATGCAA TTAAGAAAAA TGGCCAATCA TCCTTTACTA 
CACCGCCAGT ATTACACGGC TGAGAAGCTG AAGGAGATGT CTCAGCTAAT GCTGAAGGAA 
CCTACGCATT GTGAGGCAAA CCCCGACCTG ATCTTTGAAG ACATGGAAGT TATGACAGAT 
TTTGAACTAC ATGTCCTTTG TAAACAGTAT CAACACATTA ATAGTTACCA GTTAGACATG 
GATTTAATTT TAGATTCTGG GAAATTCCGA ACCTTAGGAT GCATCTTGTC TGAGTTGAAA 
CAGAAGGGTG ATAGAGTGGT ATTATTCAGC CAGTTTACCA TGATGCTGGA TATATTAGAG 
GTTCTCTTAA AGCACCATCA ACATAGGTAC CTCCGATTAG ATGGAAAGAC TCAGATTTCT 
GAAAGGATCC ATCTAATTGA TGAGTTTAAT ACAGATATGG ATATCTTTGT GTTTCTCTTG 
TCAACTAAGG CGGGTGGATT AGGAATAAAC CTGACCTCAG CAAATGTTGT TATACTTCAT 
GACATTGACT GCAACCCATA CAACGACAAA CAAGCGGAAG ACAGGTGCCA TAGAGTTGGT 
CAGACTAAAG AAGTATTAGT TATTAAATTA ATAAGCCAAG GAACGATTGA AGAGTCCATG 
CTAAAAATTA ACCAACAAAA GTTGAAGCTA GAGCAAGACA TGACTACAGT AGATGAAGCT 
GATGAGGGAA GTATGCCAGC GGATATAGCC ACGCTACTGA AAACGTCAAT GGGCCTGTGA

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

RefSeq	XP_006236663.1
CDS	1847..4366
Translation	MDGAIAAALLKFGDAGGGPRKRKLSSSSEAYEEDEANDDQSLKKPRGDRREESNESAEASSNWEKQESIVLKLQKEFPNFDKQELREVLKEHEWMYTEALESLKVFAEDQDVQCASQSEVTNGKEVARNQNYSKNAAKIKMKQKISMKPQNGFNKKRKKNVFNPKKAVEDSEYDSGSDAGSSLDEDYSSCEEVMEDGYKGKILHFLQDASIGELTLIPKCSQKKAQKIIELRPFNNWETLFTKMSKINGLSEDLIWNCKTVIQERDVVIRLMNKCEDISNKLTKQVTMLTGNGGGWNIEQPSLLNQSLSLKPYQKVGLNWLALVHKHGLNGILADEMGLGKTIQAIAFLAYLFQEGNKGPHLIVVPASTIDNWLREVNLWCPTLNVLCYYGSQEERKQIRFNIHNKYEDYNVIVTTYNCAISSSDDRSLFRRLKLNYAIFDEGHMLKNMGSIRYQHLMTINARNRLLLTGTPVQNNLLELMSLLNFVMPHMFSSSTSEIRRMFSSKTKPADEQSIYEKERIAHAKQIIKPFILRRVKEEVLKLLPPKKDQIELCAMSEKQEQLYSGLFNRLKKSINNLEKNTEMCNVMMQLRKMANHPLLHRQYYTAEKLKEMSQLMLKEPTHCEANPDLIFEDMEVMTDFELHVLCKQYQHINSYQLDMDLILDSGKFRTLGCILSELKQKGDRVVLFSQFTMMLDILEVLLKHHQHRYLRLDGKTQISERIHLIDEFNTDMDIFVFLLSTKAGGLGINLTSANVVILHDIDCNPYNDKQAEDRCHRVGQTKEVLVIKLISQGTIEESMLKINQQKLKLEQDMTTVDEADEGSMPADIATLLKTSMGL

Target ORF information:

RefSeq Version	XM_006236601.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X4, mRNA.

Target ORF information:

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

XM_006236601.3

ORF Insert Sequence:

ATGGATGGAG CCATTGCTGC TGCCTTGCTG AAGTTCGGTG ATGCAGGTGG TGGACCCAGG 
AAAAGAAAAT TATCTTCTTC TTCTGAGGCA TATGAAGAGG ATGAAGCTAA TGATGATCAG 
TCTTTAAAAA AGCCGCGAGG GGATCGTAGA GAAGAATCAA ATGAGTCTGC AGAAGCTAGC 
AGCAACTGGG AAAAGCAAGA AAGTATTGTG TTGAAATTGC AGAAGGAATT CCCAAATTTT 
GATAAACAGG AGTTAAGGGA AGTGCTTAAG GAGCATGAGT GGATGTACAC AGAAGCCTTG 
GAGTCTCTGA AAGTGTTTGC GGAAGATCAA GATGTGCAGT GTGCTTCACA AAGTGAGGTT 
ACAAATGGAA AAGAAGTTGC AAGGAATCAA AATTATTCTA AAAATGCAGC TAAAATAAAG 
ATGAAACAGA AAATTTCCAT GAAACCACAA AATGGCTTTA ACAAGAAACG TAAGAAAAAT 
GTATTTAATC CTAAGAAAGC CGTAGAGGAC TCTGAGTATG ATTCGGGTTC TGATGCTGGG 
AGCTCACTGG ATGAGGACTA CAGCAGTTGT GAAGAAGTGA TGGAGGACGG CTATAAAGGC 
AAAATTCTCC ACTTCCTTCA AGATGCTTCG ATTGGTGAAC TGACTTTGAT TCCTAAGTGT 
TCTCAGAAAA AGGCTCAGAA GATAATAGAA CTCCGGCCCT TTAATAATTG GGAAACTCTG 
TTTACAAAGA TGTCCAAAAT CAATGGCCTA TCTGAAGATT TGATATGGAA TTGCAAAACG 
GTAATTCAAG AAAGGGATGT AGTTATAAGA CTTATGAACA AATGTGAAGA TATTTCAAAT 
AAATTAACCA AACAAGTTAC CATGCTTACT GGAAATGGAG GTGGATGGAA CATAGAACAG 
CCTTCCCTTC TAAACCAAAG TTTGTCACTC AAGCCCTATC AGAAGGTTGG TTTGAATTGG 
CTGGCATTGG TGCATAAACA TGGACTTAAT GGCATTTTGG CAGATGAAAT GGGCCTAGGA 
AAAACCATTC AAGCCATTGC CTTCCTGGCA TACCTCTTTC AAGAGGGTAA TAAAGGGCCT 
CATTTGATTG TTGTTCCGGC CTCCACCATA GATAACTGGT TAAGAGAAGT TAACTTATGG 
TGCCCTACTT TAAATGTGCT CTGTTACTAT GGTTCTCAAG AAGAGCGTAA ACAAATTAGA 
TTCAACATCC ATAATAAATA TGAAGATTAC AATGTAATTG TTACGACGTA TAATTGTGCA 
ATCAGCAGCT CTGATGACCG CAGTCTCTTT CGACGCCTGA AACTGAATTA TGCAATTTTT 
GATGAGGGCC ATATGCTGAA GAATATGGGC TCTATCCGCT ACCAGCACCT AATGACAATT 
AATGCACGAA ACCGGTTACT ACTCACGGGA ACACCTGTGC AGAATAATCT GCTAGAACTC 
ATGTCATTGT TGAATTTTGT TATGCCACAC ATGTTTAGCA GTAGCACCAG CGAAATCCGA 
AGGATGTTTT CTTCTAAAAC GAAACCAGCA GATGAACAGA GTATATACGA AAAGGAGAGA 
ATAGCACATG CAAAACAAAT CATAAAGCCC TTTATTCTCA GAAGAGTGAA AGAGGAGGTT 
CTTAAGCTTC TGCCTCCCAA GAAGGATCAG ATTGAGCTAT GCGCAATGTC AGAGAAGCAG 
GAGCAACTCT ACTCGGGCCT TTTTAACAGA TTGAAAAAGT CTATCAACAA CCTGGAAAAA 
AACACAGAGA TGTGCAATGT CATGATGCAA TTAAGAAAAA TGGCCAATCA TCCTTTACTA 
CACCGCCAGT ATTACACGGC TGAGAAGCTG AAGGAGATGT CTCAGCTAAT GCTGAAGGAA 
CCTACGCATT GTGAGGCAAA CCCCGACCTG ATCTTTGAAG ACATGGAAGT TATGACAGAT 
TTTGAACTAC ATGTCCTTTG TAAACAGTAT CAACACATTA ATAGTTACCA GTTAGACATG 
GATTTAATTT TAGATTCTGG GAAATTCCGA ACCTTAGGAT GCATCTTGTC TGAGTTGAAA 
CAGAAGGGTG ATAGAGTGGT ATTATTCAGC CAGTTTACCA TGATGCTGGA TATATTAGAG 
GTTCTCTTAA AGCACCATCA ACATAGGTAC CTCCGATTAG ATGGAAAGAC TCAGATTTCT 
GAAAGGATCC ATCTAATTGA TGAGTTTAAT ACAGATATGG ATATCTTTGT GTTTCTCTTG 
TCAACTAAGG CGGGTGGATT AGGAATAAAC CTGACCTCAG CAAATGTTGT TATACTTCAT 
GACATTGACT GCAACCCATA CAACGACAAA CAAGCGGAAG ACAGGTGCCA TAGAGTTGGT 
CAGACTAAAG AAGTATTAGT TATTAAATTA ATAAGCCAAG GAACGATTGA AGAGTCCATG 
CTAAAAATTA ACCAACAAAA GTTGAAGCTA GAGCAAGACA TGACTACAGT AGATGAAGCT 
GATGAGGGAA GTATGCCAGC GGATATAGCC ACGCTACTGA AAACGTCAAT GGGCCTGTGA

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

Smarcad1 ( XM_008762979.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008761201.1 Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ORa47126
Clone ID Related Accession (Same CDS sequence)	XM_008762979.2
Accession Version	XM_008762979.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2943bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008762979.1. ##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##

ATGAAGTTAA TAAAAATTTA CTTTGGTCTT GCTCAGAATA TCTCTTTTTG TTTTGCAGAA 
GATTCTAGTG TTCCAGAACC TCCAGACAAT GAAAGCAAAG CAAGTTTATC ATGTTTCCAA 
AATCAAAGAA CAATACAGGA ATATATTGAT TTATCATCTG ATAGTGAAGA TGTTTCTCCA 
AATTGTTCCA GTACAGTTCA AGAGAAAAAA TTCAGCAAAG ACACAGTAAT TATAGTTTCA 
GAGCCATCTG AAGATGAAGA ATCCCATGAC CTTCCTTCTG CTACACGAAG AAATGACATC 
TCAGAACTGG AAGACCTTTC AGAATTGGAA GATCTTAAAG ATGCTAAGCT TCAGACATTG 
AAGGAACTGT TTCCACAAAG AAGTGACAGT GATCTTCTAA AGTTGATTGA CTCAACAAGC 
ACTATGGATG GAGCCATTGC TGCTGCCTTG CTGAAGTTCG GTGATGCAGG TGGTGGACCC 
AGGAAAAGAA AATTATCTTC TTCTTCTGAG GCATATGAAG AGGATGAAGC TAATGATGAT 
CAGTCTTTAA AAAAGCCGCG AGGGGATCGT AGAGAAGAAT CAAATGAGTC TGCAGAAGCT 
AGCAGCAACT GGGAAAAGCA AGAAAGTATT GTGTTGAAAT TGCAGAAGGA ATTCCCAAAT 
TTTGATAAAC AGGAGTTAAG GGAAGTGCTT AAGGAGCATG AGTGGATGTA CACAGAAGCC 
TTGGAGTCTC TGAAAGTGTT TGCGGAAGAT CAAGATGTGC AGTGTGCTTC ACAAAGTGAG 
GTTACAAATG GAAAAGAAGT TGCAAGGAAT CAAAATTATT CTAAAAATGC AGCTAAAATA 
AAGATGAAAC AGAAAATTTC CATGAAACCA CAAAATGGCT TTAACAAGAA ACGTAAGAAA 
AATGTATTTA ATCCTAAGAA AGCCGTAGAG GACTCTGAGT ATGATTCGGG TTCTGATGCT 
GGGAGCTCAC TGGATGAGGA CTACAGCAGT TGTGAAGAAG TGATGGAGGA CGGCTATAAA 
GGCAAAATTC TCCACTTCCT TCAAGATGCT TCGATTGGTG AACTGACTTT GATTCCTAAG 
TGTTCTCAGA AAAAGGCTCA GAAGATAATA GAACTCCGGC CCTTTAATAA TTGGGAAACT 
CTGTTTACAA AGATGTCCAA AATCAATGGC CTATCTGAAG ATTTGATATG GAATTGCAAA 
ACGGTAATTC AAGAAAGGGA TGTAGTTATA AGACTTATGA ACAAATGTGA AGATATTTCA 
AATAAATTAA CCAAACAAGT TACCATGCTT ACTGGAAATG GAGGTGGATG GAACATAGAA 
CAGCCTTCCC TTCTAAACCA AAGTTTGTCA CTCAAGCCCT ATCAGAAGGT TGGTTTGAAT 
TGGCTGGCAT TGGTGCATAA ACATGGACTT AATGGCATTT TGGCAGATGA AATGGGCCTA 
GGAAAAACCA TTCAAGCCAT TGCCTTCCTG GCATACCTCT TTCAAGAGGG TAATAAAGGG 
CCTCATTTGA TTGTTGTTCC GGCCTCCACC ATAGATAACT GGTTAAGAGA AGTTAACTTA 
TGGTGCCCTA CTTTAAATGT GCTCTGTTAC TATGGTTCTC AAGAAGAGCG TAAACAAATT 
AGATTCAACA TCCATAATAA ATATGAAGAT TACAATGTAA TTGTTACGAC GTATAATTGT 
GCAATCAGCA GCTCTGATGA CCGCAGTCTC TTTCGACGCC TGAAACTGAA TTATGCAATT 
TTTGATGAGG GCCATATGCT GAAGAATATG GGCTCTATCC GCTACCAGCA CCTAATGACA 
ATTAATGCAC GAAACCGGTT ACTACTCACG GGAACACCTG TGCAGAATAA TCTGCTAGAA 
CTCATGTCAT TGTTGAATTT TGTTATGCCA CACATGTTTA GCAGTAGCAC CAGCGAAATC 
CGAAGGATGT TTTCTTCTAA AACGAAACCA GCAGATGAAC AGAGTATATA CGAAAAGGAG 
AGAATAGCAC ATGCAAAACA AATCATAAAG CCCTTTATTC TCAGAAGAGT GAAAGAGGAG 
GTTCTTAAGC TTCTGCCTCC CAAGAAGGAT CAGATTGAGC TATGCGCAAT GTCAGAGAAG 
CAGGAGCAAC TCTACTCGGG CCTTTTTAAC AGATTGAAAA AGTCTATCAA CAACCTGGAA 
AAAAACACAG AGATGTGCAA TGTCATGATG CAATTAAGAA AAATGGCCAA TCATCCTTTA 
CTACACCGCC AGTATTACAC GGCTGAGAAG CTGAAGGAGA TGTCTCAGCT AATGCTGAAG 
GAACCTACGC ATTGTGAGGC AAACCCCGAC CTGATCTTTG AAGACATGGA AGTTATGACA 
GATTTTGAAC TACATGTCCT TTGTAAACAG TATCAACACA TTAATAGTTA CCAGTTAGAC 
ATGGATTTAA TTTTAGATTC TGGGAAATTC CGAACCTTAG GATGCATCTT GTCTGAGTTG 
AAACAGAAGG GTGATAGAGT GGTATTATTC AGCCAGTTTA CCATGATGCT GGATATATTA 
GAGGTTCTCT TAAAGCACCA TCAACATAGG TACCTCCGAT TAGATGGAAA GACTCAGATT 
TCTGAAAGGA TCCATCTAAT TGATGAGTTT AATACAGATA TGGATATCTT TGTGTTTCTC 
TTGTCAACTA AGGCGGGTGG ATTAGGAATA AACCTGACCT CAGCAAATGT TGTTATACTT 
CATGACATTG ACTGCAACCC ATACAACGAC AAACAAGCGG AAGACAGGTG CCATAGAGTT 
GGTCAGACTA AAGAAGTATT AGTTATTAAA TTAATAAGCC AAGGAACGAT TGAAGAGTCC 
ATGCTAAAAA TTAACCAACA AAAGTTGAAG CTAGAGCAAG ACATGACTAC AGTAGATGAA 
GCTGATGAGG GAAGTATGCC AGCGGATATA GCCACGCTAC TGAAAACGTC AATGGGCCTG 
TGA

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

RefSeq	XP_008761201.1
CDS	2215..5157
Translation	MKLIKIYFGLAQNISFCFAEDSSVPEPPDNESKASLSCFQNQRTIQEYIDLSSDSEDVSPNCSSTVQEKKFSKDTVIIVSEPSEDEESHDLPSATRRNDISELEDLSELEDLKDAKLQTLKELFPQRSDSDLLKLIDSTSTMDGAIAAALLKFGDAGGGPRKRKLSSSSEAYEEDEANDDQSLKKPRGDRREESNESAEASSNWEKQESIVLKLQKEFPNFDKQELREVLKEHEWMYTEALESLKVFAEDQDVQCASQSEVTNGKEVARNQNYSKNAAKIKMKQKISMKPQNGFNKKRKKNVFNPKKAVEDSEYDSGSDAGSSLDEDYSSCEEVMEDGYKGKILHFLQDASIGELTLIPKCSQKKAQKIIELRPFNNWETLFTKMSKINGLSEDLIWNCKTVIQERDVVIRLMNKCEDISNKLTKQVTMLTGNGGGWNIEQPSLLNQSLSLKPYQKVGLNWLALVHKHGLNGILADEMGLGKTIQAIAFLAYLFQEGNKGPHLIVVPASTIDNWLREVNLWCPTLNVLCYYGSQEERKQIRFNIHNKYEDYNVIVTTYNCAISSSDDRSLFRRLKLNYAIFDEGHMLKNMGSIRYQHLMTINARNRLLLTGTPVQNNLLELMSLLNFVMPHMFSSSTSEIRRMFSSKTKPADEQSIYEKERIAHAKQIIKPFILRRVKEEVLKLLPPKKDQIELCAMSEKQEQLYSGLFNRLKKSINNLEKNTEMCNVMMQLRKMANHPLLHRQYYTAEKLKEMSQLMLKEPTHCEANPDLIFEDMEVMTDFELHVLCKQYQHINSYQLDMDLILDSGKFRTLGCILSELKQKGDRVVLFSQFTMMLDILEVLLKHHQHRYLRLDGKTQISERIHLIDEFNTDMDIFVFLLSTKAGGLGINLTSANVVILHDIDCNPYNDKQAEDRCHRVGQTKEVLVIKLISQGTIEESMLKINQQKLKLEQDMTTVDEADEGSMPADIATLLKTSMGL

Target ORF information:

RefSeq Version	XM_008762979.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X3, mRNA.

Target ORF information:

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

XM_008762979.2

ORF Insert Sequence:

ATGAAGTTAA TAAAAATTTA CTTTGGTCTT GCTCAGAATA TCTCTTTTTG TTTTGCAGAA 
GATTCTAGTG TTCCAGAACC TCCAGACAAT GAAAGCAAAG CAAGTTTATC ATGTTTCCAA 
AATCAAAGAA CAATACAGGA ATATATTGAT TTATCATCTG ATAGTGAAGA TGTTTCTCCA 
AATTGTTCCA GTACAGTTCA AGAGAAAAAA TTCAGCAAAG ACACAGTAAT TATAGTTTCA 
GAGCCATCTG AAGATGAAGA ATCCCATGAC CTTCCTTCTG CTACACGAAG AAATGACATC 
TCAGAACTGG AAGACCTTTC AGAATTGGAA GATCTTAAAG ATGCTAAGCT TCAGACATTG 
AAGGAACTGT TTCCACAAAG AAGTGACAGT GATCTTCTAA AGTTGATTGA CTCAACAAGC 
ACTATGGATG GAGCCATTGC TGCTGCCTTG CTGAAGTTCG GTGATGCAGG TGGTGGACCC 
AGGAAAAGAA AATTATCTTC TTCTTCTGAG GCATATGAAG AGGATGAAGC TAATGATGAT 
CAGTCTTTAA AAAAGCCGCG AGGGGATCGT AGAGAAGAAT CAAATGAGTC TGCAGAAGCT 
AGCAGCAACT GGGAAAAGCA AGAAAGTATT GTGTTGAAAT TGCAGAAGGA ATTCCCAAAT 
TTTGATAAAC AGGAGTTAAG GGAAGTGCTT AAGGAGCATG AGTGGATGTA CACAGAAGCC 
TTGGAGTCTC TGAAAGTGTT TGCGGAAGAT CAAGATGTGC AGTGTGCTTC ACAAAGTGAG 
GTTACAAATG GAAAAGAAGT TGCAAGGAAT CAAAATTATT CTAAAAATGC AGCTAAAATA 
AAGATGAAAC AGAAAATTTC CATGAAACCA CAAAATGGCT TTAACAAGAA ACGTAAGAAA 
AATGTATTTA ATCCTAAGAA AGCCGTAGAG GACTCTGAGT ATGATTCGGG TTCTGATGCT 
GGGAGCTCAC TGGATGAGGA CTACAGCAGT TGTGAAGAAG TGATGGAGGA CGGCTATAAA 
GGCAAAATTC TCCACTTCCT TCAAGATGCT TCGATTGGTG AACTGACTTT GATTCCTAAG 
TGTTCTCAGA AAAAGGCTCA GAAGATAATA GAACTCCGGC CCTTTAATAA TTGGGAAACT 
CTGTTTACAA AGATGTCCAA AATCAATGGC CTATCTGAAG ATTTGATATG GAATTGCAAA 
ACGGTAATTC AAGAAAGGGA TGTAGTTATA AGACTTATGA ACAAATGTGA AGATATTTCA 
AATAAATTAA CCAAACAAGT TACCATGCTT ACTGGAAATG GAGGTGGATG GAACATAGAA 
CAGCCTTCCC TTCTAAACCA AAGTTTGTCA CTCAAGCCCT ATCAGAAGGT TGGTTTGAAT 
TGGCTGGCAT TGGTGCATAA ACATGGACTT AATGGCATTT TGGCAGATGA AATGGGCCTA 
GGAAAAACCA TTCAAGCCAT TGCCTTCCTG GCATACCTCT TTCAAGAGGG TAATAAAGGG 
CCTCATTTGA TTGTTGTTCC GGCCTCCACC ATAGATAACT GGTTAAGAGA AGTTAACTTA 
TGGTGCCCTA CTTTAAATGT GCTCTGTTAC TATGGTTCTC AAGAAGAGCG TAAACAAATT 
AGATTCAACA TCCATAATAA ATATGAAGAT TACAATGTAA TTGTTACGAC GTATAATTGT 
GCAATCAGCA GCTCTGATGA CCGCAGTCTC TTTCGACGCC TGAAACTGAA TTATGCAATT 
TTTGATGAGG GCCATATGCT GAAGAATATG GGCTCTATCC GCTACCAGCA CCTAATGACA 
ATTAATGCAC GAAACCGGTT ACTACTCACG GGAACACCTG TGCAGAATAA TCTGCTAGAA 
CTCATGTCAT TGTTGAATTT TGTTATGCCA CACATGTTTA GCAGTAGCAC CAGCGAAATC 
CGAAGGATGT TTTCTTCTAA AACGAAACCA GCAGATGAAC AGAGTATATA CGAAAAGGAG 
AGAATAGCAC ATGCAAAACA AATCATAAAG CCCTTTATTC TCAGAAGAGT GAAAGAGGAG 
GTTCTTAAGC TTCTGCCTCC CAAGAAGGAT CAGATTGAGC TATGCGCAAT GTCAGAGAAG 
CAGGAGCAAC TCTACTCGGG CCTTTTTAAC AGATTGAAAA AGTCTATCAA CAACCTGGAA 
AAAAACACAG AGATGTGCAA TGTCATGATG CAATTAAGAA AAATGGCCAA TCATCCTTTA 
CTACACCGCC AGTATTACAC GGCTGAGAAG CTGAAGGAGA TGTCTCAGCT AATGCTGAAG 
GAACCTACGC ATTGTGAGGC AAACCCCGAC CTGATCTTTG AAGACATGGA AGTTATGACA 
GATTTTGAAC TACATGTCCT TTGTAAACAG TATCAACACA TTAATAGTTA CCAGTTAGAC 
ATGGATTTAA TTTTAGATTC TGGGAAATTC CGAACCTTAG GATGCATCTT GTCTGAGTTG 
AAACAGAAGG GTGATAGAGT GGTATTATTC AGCCAGTTTA CCATGATGCT GGATATATTA 
GAGGTTCTCT TAAAGCACCA TCAACATAGG TACCTCCGAT TAGATGGAAA GACTCAGATT 
TCTGAAAGGA TCCATCTAAT TGATGAGTTT AATACAGATA TGGATATCTT TGTGTTTCTC 
TTGTCAACTA AGGCGGGTGG ATTAGGAATA AACCTGACCT CAGCAAATGT TGTTATACTT 
CATGACATTG ACTGCAACCC ATACAACGAC AAACAAGCGG AAGACAGGTG CCATAGAGTT 
GGTCAGACTA AAGAAGTATT AGTTATTAAA TTAATAAGCC AAGGAACGAT TGAAGAGTCC 
ATGCTAAAAA TTAACCAACA AAAGTTGAAG CTAGAGCAAG ACATGACTAC AGTAGATGAA 
GCTGATGAGG GAAGTATGCC AGCGGATATA GCCACGCTAC TGAAAACGTC AATGGGCCTG 
TGA

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

Smarcad1 ( NM_001107864.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001101334.2 Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1` (Smarcad1), mRNA.

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CloneID	ORa00209
Clone ID Related Accession (Same CDS sequence)	XM_006236600.3 , NM_001107864.2 , XM_006236599.2
Accession Version	NM_001107864.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3075bp) 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	2019-02-23
Organism	Rattus norvegicus(Norway rat)
Product	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07060817.1. On Jan 11, 2008 this sequence version replaced NM_001107864.1. 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. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

RefSeq	NP_001101334.2
CDS	51..3125
Translation	MNLFNLDRFRFEKRSKIEEAPEAAPQPSQPGPSSPISLSAEEENAEGEVSRANTPDSDVTEKTEDSSVPEPPDNESKASLSCFQNQRTIQEYIDLSSDSEDVSPNCSSTVQEKKFSKDTVIIVSEPSEDEESHDLPSATRRNDISELEDLSELEDLKDAKLQTLKELFPQRSDSDLLKLIDSTSTMDGAIAAALLKFGDAGGGPRKRKLSSSSEAYEEDEANDDQSLKKPRGDRREESNESAEASSNWEKQESIVLKLQKEFPNFDKQELREVLKEHEWMYTEALESLKVFAEDQDVQCASQSEVTNGKEVARNQNYSKNAAKIKMKQKISMKPQNGFNKKRKKNVFNPKKAVEDSEYDSGSDAGSSLDEDYSSCEEVMEDGYKGKILHFLQDASIGELTLIPKCSQKKAQKIIELRPFNNWETLFTKMSKINGLSEDLIWNCKTVIQERDVVIRLMNKCEDISNKLTKQVTMLTGNGGGWNIEQPSLLNQSLSLKPYQKVGLNWLALVHKHGLNGILADEMGLGKTIQAIAFLAYLFQEGNKGPHLIVVPASTIDNWLREVNLWCPTLNVLCYYGSQEERKQIRFNIHNKYEDYNVIVTTYNCAISSSDDRSLFRRLKLNYAIFDEGHMLKNMGSIRYQHLMTINARNRLLLTGTPVQNNLLELMSLLNFVMPHMFSSSTSEIRRMFSSKTKPADEQSIYEKERIAHAKQIIKPFILRRVKEEVLKLLPPKKDQIELCAMSEKQEQLYSGLFNRLKKSINNLEKNTEMCNVMMQLRKMANHPLLHRQYYTAEKLKEMSQLMLKEPTHCEANPDLIFEDMEVMTDFELHVLCKQYQHINSYQLDMDLILDSGKFRTLGCILSELKQKGDRVVLFSQFTMMLDILEVLLKHHQHRYLRLDGKTQISERIHLIDEFNTDMDIFVFLLSTKAGGLGINLTSANVVILHDIDCNPYNDKQAEDRCHRVGQTKEVLVIKLISQGTIEESMLKINQQKLKLEQDMTTVDEADEGSMPADIATLLKTSMGL

Target ORF information:

RefSeq Version	NM_001107864.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1` (Smarcad1), mRNA.

Target ORF information:

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

NM_001107864.2

ORF Insert Sequence:

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

Smarcad1 ( XM_006236600.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006236662.1 Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa00209
Clone ID Related Accession (Same CDS sequence)	XM_006236600.3 , NM_001107864.2 , XM_006236599.2
Accession Version	XM_006236600.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3075bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006236600.2. ##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##

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

RefSeq	XP_006236662.1
CDS	256..3330
Translation	MNLFNLDRFRFEKRSKIEEAPEAAPQPSQPGPSSPISLSAEEENAEGEVSRANTPDSDVTEKTEDSSVPEPPDNESKASLSCFQNQRTIQEYIDLSSDSEDVSPNCSSTVQEKKFSKDTVIIVSEPSEDEESHDLPSATRRNDISELEDLSELEDLKDAKLQTLKELFPQRSDSDLLKLIDSTSTMDGAIAAALLKFGDAGGGPRKRKLSSSSEAYEEDEANDDQSLKKPRGDRREESNESAEASSNWEKQESIVLKLQKEFPNFDKQELREVLKEHEWMYTEALESLKVFAEDQDVQCASQSEVTNGKEVARNQNYSKNAAKIKMKQKISMKPQNGFNKKRKKNVFNPKKAVEDSEYDSGSDAGSSLDEDYSSCEEVMEDGYKGKILHFLQDASIGELTLIPKCSQKKAQKIIELRPFNNWETLFTKMSKINGLSEDLIWNCKTVIQERDVVIRLMNKCEDISNKLTKQVTMLTGNGGGWNIEQPSLLNQSLSLKPYQKVGLNWLALVHKHGLNGILADEMGLGKTIQAIAFLAYLFQEGNKGPHLIVVPASTIDNWLREVNLWCPTLNVLCYYGSQEERKQIRFNIHNKYEDYNVIVTTYNCAISSSDDRSLFRRLKLNYAIFDEGHMLKNMGSIRYQHLMTINARNRLLLTGTPVQNNLLELMSLLNFVMPHMFSSSTSEIRRMFSSKTKPADEQSIYEKERIAHAKQIIKPFILRRVKEEVLKLLPPKKDQIELCAMSEKQEQLYSGLFNRLKKSINNLEKNTEMCNVMMQLRKMANHPLLHRQYYTAEKLKEMSQLMLKEPTHCEANPDLIFEDMEVMTDFELHVLCKQYQHINSYQLDMDLILDSGKFRTLGCILSELKQKGDRVVLFSQFTMMLDILEVLLKHHQHRYLRLDGKTQISERIHLIDEFNTDMDIFVFLLSTKAGGLGINLTSANVVILHDIDCNPYNDKQAEDRCHRVGQTKEVLVIKLISQGTIEESMLKINQQKLKLEQDMTTVDEADEGSMPADIATLLKTSMGL

Target ORF information:

RefSeq Version	XM_006236600.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X1, mRNA.

Target ORF information:

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

XM_006236600.3

ORF Insert Sequence:

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

Smarcad1 ( XM_006236599.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006236661.1 Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X2, mRNA.

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CloneID	ORa00209
Clone ID Related Accession (Same CDS sequence)	XM_006236600.3 , NM_001107864.2 , XM_006236599.2
Accession Version	XM_006236599.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3075bp) 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	SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily A containing DEAD/H box 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005103.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006236599.1. ##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##

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

RefSeq	XP_006236661.1
CDS	317..3391
Translation	MNLFNLDRFRFEKRSKIEEAPEAAPQPSQPGPSSPISLSAEEENAEGEVSRANTPDSDVTEKTEDSSVPEPPDNESKASLSCFQNQRTIQEYIDLSSDSEDVSPNCSSTVQEKKFSKDTVIIVSEPSEDEESHDLPSATRRNDISELEDLSELEDLKDAKLQTLKELFPQRSDSDLLKLIDSTSTMDGAIAAALLKFGDAGGGPRKRKLSSSSEAYEEDEANDDQSLKKPRGDRREESNESAEASSNWEKQESIVLKLQKEFPNFDKQELREVLKEHEWMYTEALESLKVFAEDQDVQCASQSEVTNGKEVARNQNYSKNAAKIKMKQKISMKPQNGFNKKRKKNVFNPKKAVEDSEYDSGSDAGSSLDEDYSSCEEVMEDGYKGKILHFLQDASIGELTLIPKCSQKKAQKIIELRPFNNWETLFTKMSKINGLSEDLIWNCKTVIQERDVVIRLMNKCEDISNKLTKQVTMLTGNGGGWNIEQPSLLNQSLSLKPYQKVGLNWLALVHKHGLNGILADEMGLGKTIQAIAFLAYLFQEGNKGPHLIVVPASTIDNWLREVNLWCPTLNVLCYYGSQEERKQIRFNIHNKYEDYNVIVTTYNCAISSSDDRSLFRRLKLNYAIFDEGHMLKNMGSIRYQHLMTINARNRLLLTGTPVQNNLLELMSLLNFVMPHMFSSSTSEIRRMFSSKTKPADEQSIYEKERIAHAKQIIKPFILRRVKEEVLKLLPPKKDQIELCAMSEKQEQLYSGLFNRLKKSINNLEKNTEMCNVMMQLRKMANHPLLHRQYYTAEKLKEMSQLMLKEPTHCEANPDLIFEDMEVMTDFELHVLCKQYQHINSYQLDMDLILDSGKFRTLGCILSELKQKGDRVVLFSQFTMMLDILEVLLKHHQHRYLRLDGKTQISERIHLIDEFNTDMDIFVFLLSTKAGGLGINLTSANVVILHDIDCNPYNDKQAEDRCHRVGQTKEVLVIKLISQGTIEESMLKINQQKLKLEQDMTTVDEADEGSMPADIATLLKTSMGL

Target ORF information:

RefSeq Version	XM_006236599.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus SWI/SNF-related, matrix-associated actin-dependent regulator of chromatin, subfamily a, containing DEAD/H box 1 (Smarcad1), transcript variant X2, mRNA.

Target ORF information:

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

XM_006236599.2

ORF Insert Sequence:

ATGAATCTTT TCAACTTGGA CCGTTTTCGC TTTGAGAAAA GGAGTAAGAT TGAGGAAGCT 
CCTGAAGCAG CCCCTCAGCC CTCCCAGCCC GGTCCTTCGT CACCAATTTC TCTTAGTGCT 
GAAGAGGAGA ATGCTGAAGG GGAAGTTAGC AGGGCAAACA CCCCAGACTC AGATGTAACT 
GAAAAAACAG AAGATTCTAG TGTTCCAGAA CCTCCAGACA ATGAAAGCAA AGCAAGTTTA 
TCATGTTTCC AAAATCAAAG AACAATACAG GAATATATTG ATTTATCATC TGATAGTGAA 
GATGTTTCTC CAAATTGTTC CAGTACAGTT CAAGAGAAAA AATTCAGCAA AGACACAGTA 
ATTATAGTTT CAGAGCCATC TGAAGATGAA GAATCCCATG ACCTTCCTTC TGCTACACGA 
AGAAATGACA TCTCAGAACT GGAAGACCTT TCAGAATTGG AAGATCTTAA AGATGCTAAG 
CTTCAGACAT TGAAGGAACT GTTTCCACAA AGAAGTGACA GTGATCTTCT AAAGTTGATT 
GACTCAACAA GCACTATGGA TGGAGCCATT GCTGCTGCCT TGCTGAAGTT CGGTGATGCA 
GGTGGTGGAC CCAGGAAAAG AAAATTATCT TCTTCTTCTG AGGCATATGA AGAGGATGAA 
GCTAATGATG ATCAGTCTTT AAAAAAGCCG CGAGGGGATC GTAGAGAAGA ATCAAATGAG 
TCTGCAGAAG CTAGCAGCAA CTGGGAAAAG CAAGAAAGTA TTGTGTTGAA ATTGCAGAAG 
GAATTCCCAA ATTTTGATAA ACAGGAGTTA AGGGAAGTGC TTAAGGAGCA TGAGTGGATG 
TACACAGAAG CCTTGGAGTC TCTGAAAGTG TTTGCGGAAG ATCAAGATGT GCAGTGTGCT 
TCACAAAGTG AGGTTACAAA TGGAAAAGAA GTTGCAAGGA ATCAAAATTA TTCTAAAAAT 
GCAGCTAAAA TAAAGATGAA ACAGAAAATT TCCATGAAAC CACAAAATGG CTTTAACAAG 
AAACGTAAGA AAAATGTATT TAATCCTAAG AAAGCCGTAG AGGACTCTGA GTATGATTCG 
GGTTCTGATG CTGGGAGCTC ACTGGATGAG GACTACAGCA GTTGTGAAGA AGTGATGGAG 
GACGGCTATA AAGGCAAAAT TCTCCACTTC CTTCAAGATG CTTCGATTGG TGAACTGACT 
TTGATTCCTA AGTGTTCTCA GAAAAAGGCT CAGAAGATAA TAGAACTCCG GCCCTTTAAT 
AATTGGGAAA CTCTGTTTAC AAAGATGTCC AAAATCAATG GCCTATCTGA AGATTTGATA 
TGGAATTGCA AAACGGTAAT TCAAGAAAGG GATGTAGTTA TAAGACTTAT GAACAAATGT 
GAAGATATTT CAAATAAATT AACCAAACAA GTTACCATGC TTACTGGAAA TGGAGGTGGA 
TGGAACATAG AACAGCCTTC CCTTCTAAAC CAAAGTTTGT CACTCAAGCC CTATCAGAAG 
GTTGGTTTGA ATTGGCTGGC ATTGGTGCAT AAACATGGAC TTAATGGCAT TTTGGCAGAT 
GAAATGGGCC TAGGAAAAAC CATTCAAGCC ATTGCCTTCC TGGCATACCT CTTTCAAGAG 
GGTAATAAAG GGCCTCATTT GATTGTTGTT CCGGCCTCCA CCATAGATAA CTGGTTAAGA 
GAAGTTAACT TATGGTGCCC TACTTTAAAT GTGCTCTGTT ACTATGGTTC TCAAGAAGAG 
CGTAAACAAA TTAGATTCAA CATCCATAAT AAATATGAAG ATTACAATGT AATTGTTACG 
ACGTATAATT GTGCAATCAG CAGCTCTGAT GACCGCAGTC TCTTTCGACG CCTGAAACTG 
AATTATGCAA TTTTTGATGA GGGCCATATG CTGAAGAATA TGGGCTCTAT CCGCTACCAG 
CACCTAATGA CAATTAATGC ACGAAACCGG TTACTACTCA CGGGAACACC TGTGCAGAAT 
AATCTGCTAG AACTCATGTC ATTGTTGAAT TTTGTTATGC CACACATGTT TAGCAGTAGC 
ACCAGCGAAA TCCGAAGGAT GTTTTCTTCT AAAACGAAAC CAGCAGATGA ACAGAGTATA 
TACGAAAAGG AGAGAATAGC ACATGCAAAA CAAATCATAA AGCCCTTTAT TCTCAGAAGA 
GTGAAAGAGG AGGTTCTTAA GCTTCTGCCT CCCAAGAAGG ATCAGATTGA GCTATGCGCA 
ATGTCAGAGA AGCAGGAGCA ACTCTACTCG GGCCTTTTTA ACAGATTGAA AAAGTCTATC 
AACAACCTGG AAAAAAACAC AGAGATGTGC AATGTCATGA TGCAATTAAG AAAAATGGCC 
AATCATCCTT TACTACACCG CCAGTATTAC ACGGCTGAGA AGCTGAAGGA GATGTCTCAG 
CTAATGCTGA AGGAACCTAC GCATTGTGAG GCAAACCCCG ACCTGATCTT TGAAGACATG 
GAAGTTATGA CAGATTTTGA ACTACATGTC CTTTGTAAAC AGTATCAACA CATTAATAGT 
TACCAGTTAG ACATGGATTT AATTTTAGAT TCTGGGAAAT TCCGAACCTT AGGATGCATC 
TTGTCTGAGT TGAAACAGAA GGGTGATAGA GTGGTATTAT TCAGCCAGTT TACCATGATG 
CTGGATATAT TAGAGGTTCT CTTAAAGCAC CATCAACATA GGTACCTCCG ATTAGATGGA 
AAGACTCAGA TTTCTGAAAG GATCCATCTA ATTGATGAGT TTAATACAGA TATGGATATC 
TTTGTGTTTC TCTTGTCAAC TAAGGCGGGT GGATTAGGAA TAAACCTGAC CTCAGCAAAT 
GTTGTTATAC TTCATGACAT TGACTGCAAC CCATACAACG ACAAACAAGC GGAAGACAGG 
TGCCATAGAG TTGGTCAGAC TAAAGAAGTA TTAGTTATTA AATTAATAAG CCAAGGAACG 
ATTGAAGAGT CCATGCTAAA AATTAACCAA CAAAAGTTGA AGCTAGAGCA AGACATGACT 
ACAGTAGATG AAGCTGATGA GGGAAGTATG CCAGCGGATA TAGCCACGCT ACTGAAAACG 
TCAATGGGCC TGTGA

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

PubMed

The yeast Fun30 and human SMARCAD1 chromatin remodellers promote DNA end resection.
Nature489(7417)581-4(2012 Sep)
Costelloe T,Louge R,Tomimatsu N,Mukherjee B,Martini E,Khadaroo B,Dubois K,Wiegant WW,Thierry A,Burma S,van Attikum H,Llorente B

Maintenance of silent chromatin through replication requires SWI/SNF-like chromatin remodeler SMARCAD1.
Molecular cell42(3)285-96(2011 May)
Rowbotham SP,Barki L,Neves-Costa A,Santos F,Dean W,Hawkes N,Choudhary P,Will WR,Webster J,Oxley D,Green CM,Varga-Weisz P,Mermoud JE

The novel protein complex with SMARCAD1/KIAA1122 binds to the vicinity of TSS.
Journal of molecular biology382(2)257-65(2008 Oct)
Okazaki N,Ikeda S,Ohara R,Shimada K,Yanagawa T,Nagase T,Ohara O,Koga H

SMARCAD1, a novel human helicase family-defining member associated with genetic instability: cloning, expression, and mapping to 4q22-q23, a band rich in breakpoints and deletion mutants involved in several human diseases.
Genomics69(2)162-73(2000 Oct)
Adra CN,Donato JL,Badovinac R,Syed F,Kheraj R,Cai H,Moran C,Kolker MT,Turner H,Weremowicz S,Shirakawa T,Morton CC,Schnipper LE,Drews R

The Etl-1 gene encodes a nuclear protein differentially expressed during early mouse development.
Developmental dynamics : an official publication of the American Association of Anatomists197(3)227-37(1993 Jul)
Schoor M,Schuster-Gossler K,Gossler A

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Smarcad1 cDNA ORF clone, Rattus norvegicus(Norway rat)

Summary

Reference Sequences (RefSeq)

Pathways from BioSystems

Homologies

Gene Ontology

Bibliography

Reference Sequences (Refseq)

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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