×

ARID1A cDNA ORF clone, Homo sapiens (human)

Gene Symbol ARID1A
Entrez Gene ID 8289
Full Name AT rich interactive domain 1A (SWI-like)
Synonyms B120, BAF250, BAF250a, BM029, C1orf4, ELD, MRD14, OSA1, P270, SMARCF1, hELD, hOSA1
General protein information
Preferred Names
AT-rich interactive domain-containing protein 1A
Names
AT-rich interactive domain-containing protein 1A
osa homolog 1
SWI-like protein
brain protein 120
OSA1 nuclear protein
BRG1-associated factor 250a
SWI/SNF complex protein p270
chromatin remodeling factor p250
ARID domain-containing protein 1A
SWI/SNF-related, matrix-associated, actin-dependent regulator of chromatin subfamily F member 1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

1

1p35.3

Summary This gene encodes a member of the SWI/SNF family, whose members have helicase and ATPase activities and 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, which is required for transcriptional activation of genes normally repressed by chromatin. It possesses at least two conserved domains that could be important for its function. First, it has a DNA-binding domain that can specifically bind an AT-rich DNA sequence known to be recognized by a SNF/SWI complex at the beta-globin locus. Second, the C-terminus of the protein can stimulate glucocorticoid receptor-dependent transcriptional activation. It is thought that the protein encoded by this gene confers specificity to the SNF/SWI complex and may recruit the complex to its targets through either protein-DNA or protein-protein interactions. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008]. lac of sum
Disorder MIM:

603024


mRNA and Protein(s)

mRNA Protein Name
NM_139135 NP_624361 AT-rich interactive domain-containing protein 1A isoform b
NM_006015 NP_006006 AT-rich interactive domain-containing protein 1A isoform a



Homo sapiens (human) ARID1A NP_006006.3
Pan troglodytes (chimpanzee) ARID1A XP_513235.4
Macaca mulatta (Rhesus monkey) LOC719949 XP_002808326.1
Canis lupus familiaris (dog) ARID1A XP_005617799.1
Bos taurus (cattle) ARID1A NP_001192714.1
Mus musculus (house mouse) Arid1a NP_001074288.1
Rattus norvegicus (Norway rat) Arid1a NP_001100105.1
Gallus gallus (chicken) ARID1A XP_417693.4
Danio rerio (zebrafish) arid1ab XP_696565.6
Xenopus (Silurana) tropicalis (western clawed frog) arid1a XP_002934685.2


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

The following ARID1A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARID1A 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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu23927 NM_139135 Homo sapiens AT rich interactive domain 1A (SWI-like) (ARID1A), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $1091.30
$1559.00
OHu23960 NM_006015 Homo sapiens AT rich interactive domain 1A (SWI-like) (ARID1A), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $923.30
$1319.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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.


CloneID OHu23927
Clone ID Related Accession (Same CDS sequence) NM_139135
Accession Version NM_139135.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 6207bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product AT-rich interactive domain-containing protein 1A isoform b
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL512408.12, AF521670.1, AF268913.1 and AL034380.26. On Nov 15, 2006 this sequence version replaced gi:21264574. Transcript Variant: This variant (2) lacks a segment in the coding region compared to variant 1. Variant 2 encodes isoform b, which lacks an internal segment compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2144120, SAMEA2144335 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
ATGGCCGCGC AGGTCGCCCC CGCCGCCGCC AGCAGCCTGG GCAACCCGCC GCCGCCGCCG 
CCCTCGGAGC TGAAGAAAGC CGAGCAGCAG CAGCGGGAGG AGGCGGGGGG CGAGGCGGCG
GCGGCGGCAG CGGCCGAGCG CGGGGAAATG AAGGCAGCCG CCGGGCAGGA AAGCGAGGGC
CCCGCCGTGG GGCCGCCGCA GCCGCTGGGA AAGGAGCTGC AGGACGGGGC CGAGAGCAAT
GGGGGTGGCG GCGGCGGCGG AGCCGGCAGC GGCGGCGGGC CCGGCGCGGA GCCGGACCTG
AAGAACTCGA ACGGGAACGC GGGCCCTAGG CCCGCCCTGA ACAATAACCT CACGGAGCCG
CCCGGCGGCG GCGGTGGCGG CAGCAGCGAT GGGGTGGGGG CGCCTCCTCA CTCAGCCGCG
GCCGCCTTGC CGCCCCCAGC CTACGGCTTC GGGCAACCCT ACGGCCGGAG CCCGTCTGCC
GTCGCCGCCG CCGCGGCCGC CGTCTTCCAC CAACAACATG GCGGACAACA AAGCCCTGGC
CTGGCAGCGC TGCAGAGCGG CGGCGGCGGG GGCCTGGAGC CCTACGCGGG GCCCCAGCAG
AACTCTCACG ACCACGGCTT CCCCAACCAC CAGTACAACT CCTACTACCC CAACCGCAGC
GCCTACCCCC CGCCCGCCCC GGCCTACGCG CTGAGCTCCC CGAGAGGTGG CACTCCGGGC
TCCGGCGCGG CGGCGGCTGC CGGCTCCAAG CCGCCTCCCT CCTCCAGCGC CTCCGCCTCC
TCGTCGTCTT CGTCCTTCGC TCAGCAGCGC TTCGGGGCCA TGGGGGGAGG CGGCCCCTCC
GCGGCCGGCG GGGGAACTCC CCAGCCCACC GCCACCCCCA CCCTCAACCA ACTGCTCACG
TCGCCCAGCT CGGCCCGGGG CTACCAGGGC TACCCCGGGG GCGACTACAG TGGCGGGCCC
CAGGACGGGG GCGCCGGCAA GGGCCCGGCG GACATGGCCT CGCAGTGTTG GGGGGCTGCG
GCGGCGGCAG CTGCGGCGGC GGCCGCCTCG GGAGGGGCCC AACAAAGGAG CCACCACGCG
CCCATGAGCC CCGGGAGCAG CGGCGGCGGG GGGCAGCCGC TCGCCCGGAC CCCTCAGCCA
TCCAGTCCAA TGGATCAGAT GGGCAAGATG AGACCTCAGC CATATGGCGG GACTAACCCA
TACTCGCAGC AACAGGGACC TCCGTCAGGA CCGCAGCAAG GACATGGGTA CCCAGGGCAG
CCATACGGGT CCCAGACCCC GCAGCGGTAC CCGATGACCA TGCAGGGCCG GGCGCAGAGT
GCCATGGGCG GCCTCTCTTA TACACAGCAG ATTCCTCCTT ATGGACAACA AGGCCCCAGC
GGGTATGGTC AACAGGGCCA GACTCCATAT TACAACCAGC AAAGTCCTCA CCCTCAGCAG
CAGCAGCCAC CCTACTCCCA GCAACCACCG TCCCAGACCC CTCATGCCCA ACCTTCGTAT
CAGCAGCAGC CACAGTCTCA ACCACCACAG CTCCAGTCCT CTCAGCCTCC ATACTCCCAG
CAGCCATCCC AGCCTCCACA TCAGCAGTCC CCGGCTCCAT ACCCCTCCCA GCAGTCGACG
ACACAGCAGC ACCCCCAGAG CCAGCCCCCC TACTCACAGC CACAGGCTCA GTCTCCTTAC
CAGCAGCAGC AACCTCAGCA GCCAGCACCC TCGACGCTCT CCCAGCAGGC TGCGTATCCT
CAGCCCCAGT CTCAGCAGTC CCAGCAAACT GCCTATTCCC AGCAGCGCTT CCCTCCACCG
CAGGAGCTAT CTCAAGATTC ATTTGGGTCT CAGGCATCCT CAGCCCCCTC AATGACCTCC
AGTAAGGGAG GGCAAGAAGA TATGAACCTG AGCCTTCAGT CAAGACCCTC CAGCTTGCCT
GATCTATCTG GTTCAATAGA TGACCTCCCC ATGGGGACAG AAGGAGCTCT GAGTCCTGGA
GTGAGCACAT CAGGGATTTC CAGCAGCCAA GGAGAGCAGA GTAATCCAGC TCAGTCTCCT
TTCTCTCCTC ATACCTCCCC TCACCTGCCT GGCATCCGAG GCCCTTCCCC GTCCCCTGTT
GGCTCTCCCG CCAGTGTTGC TCAGTCTCGC TCAGGACCAC TCTCGCCTGC TGCAGTGCCA
GGCAACCAGA TGCCACCTCG GCCACCCAGT GGCCAGTCGG ACAGCATCAT GCATCCTTCC
ATGAACCAAT CAAGCATTGC CCAAGATCGA GGTTATATGC AGAGGAACCC CCAGATGCCC
CAGTACAGTT CCCCCCAGCC CGGCTCAGCC TTATCTCCGC GTCAGCCTTC CGGAGGACAG
ATACACACAG GCATGGGCTC CTACCAGCAG AACTCCATGG GGAGCTATGG TCCCCAGGGG
GGTCAGTATG GCCCACAAGG TGGCTACCCC AGGCAGCCAA ACTATAATGC CTTGCCCAAT
GCCAACTACC CCAGTGCAGG CATGGCTGGA GGCATAAACC CCATGGGTGC CGGAGGTCAA
ATGCATGGAC AGCCTGGCAT CCCACCTTAT GGCACACTCC CTCCAGGGAG GATGAGTCAC
GCCTCCATGG GCAACCGGCC TTATGGCCCT AACATGGCCA ATATGCCACC TCAGGTTGGG
TCAGGGATGT GTCCCCCACC AGGGGGCATG AACCGGAAAA CCCAAGAAAC TGCTGTCGCC
ATGCATGTTG CTGCCAACTC TATCCAAAAC AGGCCGCCAG GCTACCCCAA TATGAATCAA
GGGGGCATGA TGGGAACTGG ACCTCCTTAT GGACAAGGGA TTAATAGTAT GGCTGGCATG
ATCAACCCTC AGGGACCCCC ATATTCCATG GGTGGAACCA TGGCCAACAA TTCTGCAGGG
ATGGCAGCCA GCCCAGAGAT GATGGGCCTT GGGGATGTAA AGTTAACTCC AGCCACCAAA
ATGAACAACA AGGCAGATGG GACACCCAAG ACAGAATCCA AATCCAAGAA ATCCAGTTCT
TCTACTACAA CCAATGAGAA GATCACCAAG TTGTATGAGC TGGGTGGTGA GCCTGAGAGG
AAGATGTGGG TGGACCGTTA TCTGGCCTTC ACTGAGGAGA AGGCCATGGG CATGACAAAT
CTGCCTGCTG TGGGTAGGAA ACCTCTGGAC CTCTATCGCC TCTATGTGTC TGTGAAGGAG
ATTGGTGGAT TGACTCAGGT CAACAAGAAC AAAAAATGGC GGGAACTTGC AACCAACCTC
AATGTGGGCA CATCAAGCAG TGCTGCCAGC TCCTTGAAAA AGCAGTATAT CCAGTGTCTC
TATGCCTTTG AATGCAAGAT TGAACGGGGA GAAGACCCTC CCCCAGACAT CTTTGCAGCT
GCTGATTCCA AGAAGTCCCA GCCCAAGATC CAGCCTCCCT CTCCTGCGGG ATCAGGATCT
ATGCAGGGGC CCCAGACTCC CCAGTCAACC AGCAGTTCCA TGGCAGAAGG AGGAGACTTA
AAGCCACCAA CTCCAGCATC CACACCACAC AGTCAGATCC CCCCATTGCC AGGCATGAGC
AGGAGCAATT CAGTTGGGAT CCAGGATGCC TTTAATGATG GAAGTGACTC CACATTCCAG
AAGCGGAATT CCATGACTCC AAACCCTGGG TATCAGCCCA GTATGAATAC CTCTGACATG
ATGGGGCGCA TGTCCTATGA GCCAAATAAG GATCCTTATG GCAGCATGAG GAAAGCTCCA
GGGAGTGATC CCTTCATGTC CTCAGGGCAG GGCCCCAACG GCGGGATGGG TGACCCCTAC
AGTCGTGCTG CCGGCCCTGG GCTAGGAAAT GTGGCGATGG GACCACGACA GCACTATCCC
TATGGAGGTC CTTATGACAG AGTGAGGACG GAGCCTGGAA TAGGGCCTGA GGGAAACATG
AGCACTGGGG CCCCACAGCC GAATCTCATG CCTTCCAACC CAGACTCGGG GATGTATTCT
CCTAGCCGCT ACCCCCCGCA GCAGCAGCAG CAGCAGCAGC AACGACATGA TTCCTATGGC
AATCAGTTCT CCACCCAAGG CACCCCTTCT GGCAGCCCCT TCCCCAGCCA GCAGACTACA
ATGTATCAAC AGCAACAGCA GGTATCCAGC CCTGCTCCCC TGCCCCGGCC AATGGAGAAC
CGCACCTCTC CTAGCAAGTC TCCATTCCTG CACTCTGGGA TGAAAATGCA GAAGGCAGGT
CCCCCAGTAC CTGCCTCGCA CATAGCACCT GCCCCTGTGC AGCCCCCCAT GATTCGGCGG
GATATCACCT TCCCACCTGG CTCTGTTGAA GCCACACAGC CTGTGTTGAA GCAGAGGAGG
CGGCTCACAA TGAAAGACAT TGGAACCCCG GAGGCATGGC GGGTAATGAT GTCCCTCAAG
TCTGGTCTCC TGGCAGAGAG CACATGGGCA TTAGATACCA TCAACATCCT GCTGTATGAT
GACAACAGCA TCATGACCTT CAACCTCAGT CAGCTCCCAG GGTTGCTAGA GCTCCTTGTA
GAATATTTCC GACGATGCCT GATTGAGATC TTTGGCATTT TAAAGGAGTA TGAGGTGGGT
GACCCAGGAC AGAGAACGCT ACTGGATCCT GGGAGGTTCA GCAAGGTGTC TAGTCCAGCT
CCCATGGAGG GTGGGGAAGA AGAAGAAGAA CTTCTAGGTC CTAAACTAGA AGAGGAAGAA
GAAGAGGAAG TAGTTGAAAA TGATGAGGAG ATAGCCTTTT CAGGCAAGGA CAAGCCAGCT
TCAGAGAATA GTGAGGAGAA GCTGATCAGT AAGTTTGACA AGCTTCCAGT AAAGATCGTA
CAGAAGAATG ATCCATTTGT GGTGGACTGC TCAGATAAGC TTGGGCGTGT GCAGGAGTTT
GACAGTGGCC TGCTGCACTG GCGGATTGGT GGGGGGGACA CCACTGAGCA TATCCAGACC
CACTTCGAGA GCAAGACAGA GCTGCTGCCT TCCCGGCCTC ACGCACCCTG CCCACCAGCC
CCTCGGAAGC ATGTGACAAC AGCAGAGGGT ACACCAGGGA CAACAGACCA GGAGGGGCCC
CCACCTGATG GACCTCCAGA AAAACGGATC ACAGCCACTA TGGATGACAT GTTGTCTACT
CGGTCTAGCA CCTTGACCGA GGATGGAGCT AAGAGTTCAG AGGCCATCAA GGAGAGCAGC
AAGTTTCCAT TTGGCATTAG CCCAGCACAG AGCCACCGGA ACATCAAGAT CCTAGAGGAC
GAACCCCACA GTAAGGATGA GACCCCACTG TGTACCCTTC TGGACTGGCA GGATTCTCTT
GCCAAGCGCT GCGTCTGTGT GTCCAATACC ATTCGAAGCC TGTCATTTGT GCCAGGCAAT
GACTTTGAGA TGTCCAAACA CCCAGGGCTG CTGCTCATCC TGGGCAAGCT GATCCTGCTG
CACCACAAGC ACCCAGAACG GAAGCAGGCA CCACTAACTT ATGAAAAGGA GGAGGAACAG
GACCAAGGGG TGAGCTGCAA CAAAGTGGAG TGGTGGTGGG ACTGCTTGGA GATGCTCCGG
GAAAACACCT TGGTTACACT CGCCAACATC TCGGGGCAGT TGGACCTATC TCCATACCCC
GAGAGCATTT GCCTGCCTGT CCTGGACGGA CTCCTACACT GGGCAGTTTG CCCTTCAGCT
GAAGCCCAGG ACCCCTTTTC CACCCTGGGC CCCAATGCCG TCCTTTCCCC GCAGAGACTG
GTCTTGGAAA CCCTCAGCAA ACTCAGCATC CAGGACAACA ATGTGGACCT GATTCTGGCC
ACACCCCCCT TCAGCCGCCT GGAGAAGTTG TATAGCACTA TGGTGCGCTT CCTCAGTGAC
CGAAAGAACC CGGTGTGCCG GGAGATGGCT GTGGTACTGC TGGCCAACCT GGCTCAGGGG
GACAGCCTGG CAGCTCGTGC CATTGCAGTG CAGAAGGGCA GTATCGGCAA CCTCCTGGGC
TTCCTAGAGG ACAGCCTTGC CGCCACACAG TTCCAGCAGA GCCAGGCCAG CCTCCTCCAC
ATGCAGAACC CACCCTTTGA GCCAACTAGT GTGGACATGA TGCGGCGGGC TGCCCGCGCG
CTGCTTGCCT TGGCCAAGGT GGACGAGAAC CACTCAGAGT TTACTCTGTA CGAATCACGG
CTGTTGGACA TCTCGGTATC ACCGTTGATG AACTCATTGG TTTCACAAGT CATTTGTGAT
GTACTGTTTT TGATTGGCCA GTCATGA

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

RefSeq NP_624361.1
CDS374..6580
Misc Feature(1)134..136(+)
Misc Feature(2)1460..1462(+)
Misc Feature(3)2183..2185(+)
Misc Feature(4)2336..>2707(+)
Misc Feature(5)2465..2467(+)
Misc Feature(6)2687..2689(+)
Misc Feature(7)3413..3685(+)
Misc Feature(8)4985..4987(+)
Misc Feature(9)5645..6415(+)
Exon (1)1..1510
Gene:ARID1A
Gene Synonym:
Exon (2)1511..1723
Gene:ARID1A
Gene Synonym:
Exon (3)1724..2176
Gene:ARID1A
Gene Synonym:
Exon (4)2177..2293
Gene:ARID1A
Gene Synonym:
Exon (5)2294..2534
Gene:ARID1A
Gene Synonym:
Exon (6)2535..2624
Gene:ARID1A
Gene Synonym:
Exon (7)2625..2792
Gene:ARID1A
Gene Synonym:
Exon (8)2793..3105
Gene:ARID1A
Gene Synonym:
Exon (9)3106..3251
Gene:ARID1A
Gene Synonym:
Exon (10)3252..3361
Gene:ARID1A
Gene Synonym:
Exon (11)3362..3571
Gene:ARID1A
Gene Synonym:
Exon (12)3572..3779
Gene:ARID1A
Gene Synonym:
Exon (13)3780..3912
Gene:ARID1A
Gene Synonym:
Exon (14)3913..4088
Gene:ARID1A
Gene Synonym:
Exon (15)4089..4239
Gene:ARID1A
Gene Synonym:
Exon (16)4240..4377
Gene:ARID1A
Gene Synonym:
Exon (17)4378..4474
Gene:ARID1A
Gene Synonym:
Exon (18)4475..4715
Gene:ARID1A
Gene Synonym:
Exon (19)4716..4846
Gene:ARID1A
Gene Synonym:
Exon (20)4847..7934
Gene:ARID1A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_139135
Organism Homo sapiens (human)
Definition Homo sapiens AT rich interactive domain 1A (SWI-like) (ARID1A), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_139135

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
ATGGCCGCGC AGGTCGCCCC CGCCGCCGCC AGCAGCCTGG GCAACCCGCC GCCGCCGCCG 
CCCTCGGAGC TGAAGAAAGC CGAGCAGCAG CAGCGGGAGG AGGCGGGGGG CGAGGCGGCG
GCGGCGGCAG CGGCCGAGCG CGGGGAAATG AAGGCAGCCG CCGGGCAGGA AAGCGAGGGC
CCCGCCGTGG GGCCGCCGCA GCCGCTGGGA AAGGAGCTGC AGGACGGGGC CGAGAGCAAT
GGGGGTGGCG GCGGCGGCGG AGCCGGCAGC GGCGGCGGGC CCGGCGCGGA GCCGGACCTG
AAGAACTCGA ACGGGAACGC GGGCCCTAGG CCCGCCCTGA ACAATAACCT CACGGAGCCG
CCCGGCGGCG GCGGTGGCGG CAGCAGCGAT GGGGTGGGGG CGCCTCCTCA CTCAGCCGCG
GCCGCCTTGC CGCCCCCAGC CTACGGCTTC GGGCAACCCT ACGGCCGGAG CCCGTCTGCC
GTCGCCGCCG CCGCGGCCGC CGTCTTCCAC CAACAACATG GCGGACAACA AAGCCCTGGC
CTGGCAGCGC TGCAGAGCGG CGGCGGCGGG GGCCTGGAGC CCTACGCGGG GCCCCAGCAG
AACTCTCACG ACCACGGCTT CCCCAACCAC CAGTACAACT CCTACTACCC CAACCGCAGC
GCCTACCCCC CGCCCGCCCC GGCCTACGCG CTGAGCTCCC CGAGAGGTGG CACTCCGGGC
TCCGGCGCGG CGGCGGCTGC CGGCTCCAAG CCGCCTCCCT CCTCCAGCGC CTCCGCCTCC
TCGTCGTCTT CGTCCTTCGC TCAGCAGCGC TTCGGGGCCA TGGGGGGAGG CGGCCCCTCC
GCGGCCGGCG GGGGAACTCC CCAGCCCACC GCCACCCCCA CCCTCAACCA ACTGCTCACG
TCGCCCAGCT CGGCCCGGGG CTACCAGGGC TACCCCGGGG GCGACTACAG TGGCGGGCCC
CAGGACGGGG GCGCCGGCAA GGGCCCGGCG GACATGGCCT CGCAGTGTTG GGGGGCTGCG
GCGGCGGCAG CTGCGGCGGC GGCCGCCTCG GGAGGGGCCC AACAAAGGAG CCACCACGCG
CCCATGAGCC CCGGGAGCAG CGGCGGCGGG GGGCAGCCGC TCGCCCGGAC CCCTCAGCCA
TCCAGTCCAA TGGATCAGAT GGGCAAGATG AGACCTCAGC CATATGGCGG GACTAACCCA
TACTCGCAGC AACAGGGACC TCCGTCAGGA CCGCAGCAAG GACATGGGTA CCCAGGGCAG
CCATACGGGT CCCAGACCCC GCAGCGGTAC CCGATGACCA TGCAGGGCCG GGCGCAGAGT
GCCATGGGCG GCCTCTCTTA TACACAGCAG ATTCCTCCTT ATGGACAACA AGGCCCCAGC
GGGTATGGTC AACAGGGCCA GACTCCATAT TACAACCAGC AAAGTCCTCA CCCTCAGCAG
CAGCAGCCAC CCTACTCCCA GCAACCACCG TCCCAGACCC CTCATGCCCA ACCTTCGTAT
CAGCAGCAGC CACAGTCTCA ACCACCACAG CTCCAGTCCT CTCAGCCTCC ATACTCCCAG
CAGCCATCCC AGCCTCCACA TCAGCAGTCC CCGGCTCCAT ACCCCTCCCA GCAGTCGACG
ACACAGCAGC ACCCCCAGAG CCAGCCCCCC TACTCACAGC CACAGGCTCA GTCTCCTTAC
CAGCAGCAGC AACCTCAGCA GCCAGCACCC TCGACGCTCT CCCAGCAGGC TGCGTATCCT
CAGCCCCAGT CTCAGCAGTC CCAGCAAACT GCCTATTCCC AGCAGCGCTT CCCTCCACCG
CAGGAGCTAT CTCAAGATTC ATTTGGGTCT CAGGCATCCT CAGCCCCCTC AATGACCTCC
AGTAAGGGAG GGCAAGAAGA TATGAACCTG AGCCTTCAGT CAAGACCCTC CAGCTTGCCT
GATCTATCTG GTTCAATAGA TGACCTCCCC ATGGGGACAG AAGGAGCTCT GAGTCCTGGA
GTGAGCACAT CAGGGATTTC CAGCAGCCAA GGAGAGCAGA GTAATCCAGC TCAGTCTCCT
TTCTCTCCTC ATACCTCCCC TCACCTGCCT GGCATCCGAG GCCCTTCCCC GTCCCCTGTT
GGCTCTCCCG CCAGTGTTGC TCAGTCTCGC TCAGGACCAC TCTCGCCTGC TGCAGTGCCA
GGCAACCAGA TGCCACCTCG GCCACCCAGT GGCCAGTCGG ACAGCATCAT GCATCCTTCC
ATGAACCAAT CAAGCATTGC CCAAGATCGA GGTTATATGC AGAGGAACCC CCAGATGCCC
CAGTACAGTT CCCCCCAGCC CGGCTCAGCC TTATCTCCGC GTCAGCCTTC CGGAGGACAG
ATACACACAG GCATGGGCTC CTACCAGCAG AACTCCATGG GGAGCTATGG TCCCCAGGGG
GGTCAGTATG GCCCACAAGG TGGCTACCCC AGGCAGCCAA ACTATAATGC CTTGCCCAAT
GCCAACTACC CCAGTGCAGG CATGGCTGGA GGCATAAACC CCATGGGTGC CGGAGGTCAA
ATGCATGGAC AGCCTGGCAT CCCACCTTAT GGCACACTCC CTCCAGGGAG GATGAGTCAC
GCCTCCATGG GCAACCGGCC TTATGGCCCT AACATGGCCA ATATGCCACC TCAGGTTGGG
TCAGGGATGT GTCCCCCACC AGGGGGCATG AACCGGAAAA CCCAAGAAAC TGCTGTCGCC
ATGCATGTTG CTGCCAACTC TATCCAAAAC AGGCCGCCAG GCTACCCCAA TATGAATCAA
GGGGGCATGA TGGGAACTGG ACCTCCTTAT GGACAAGGGA TTAATAGTAT GGCTGGCATG
ATCAACCCTC AGGGACCCCC ATATTCCATG GGTGGAACCA TGGCCAACAA TTCTGCAGGG
ATGGCAGCCA GCCCAGAGAT GATGGGCCTT GGGGATGTAA AGTTAACTCC AGCCACCAAA
ATGAACAACA AGGCAGATGG GACACCCAAG ACAGAATCCA AATCCAAGAA ATCCAGTTCT
TCTACTACAA CCAATGAGAA GATCACCAAG TTGTATGAGC TGGGTGGTGA GCCTGAGAGG
AAGATGTGGG TGGACCGTTA TCTGGCCTTC ACTGAGGAGA AGGCCATGGG CATGACAAAT
CTGCCTGCTG TGGGTAGGAA ACCTCTGGAC CTCTATCGCC TCTATGTGTC TGTGAAGGAG
ATTGGTGGAT TGACTCAGGT CAACAAGAAC AAAAAATGGC GGGAACTTGC AACCAACCTC
AATGTGGGCA CATCAAGCAG TGCTGCCAGC TCCTTGAAAA AGCAGTATAT CCAGTGTCTC
TATGCCTTTG AATGCAAGAT TGAACGGGGA GAAGACCCTC CCCCAGACAT CTTTGCAGCT
GCTGATTCCA AGAAGTCCCA GCCCAAGATC CAGCCTCCCT CTCCTGCGGG ATCAGGATCT
ATGCAGGGGC CCCAGACTCC CCAGTCAACC AGCAGTTCCA TGGCAGAAGG AGGAGACTTA
AAGCCACCAA CTCCAGCATC CACACCACAC AGTCAGATCC CCCCATTGCC AGGCATGAGC
AGGAGCAATT CAGTTGGGAT CCAGGATGCC TTTAATGATG GAAGTGACTC CACATTCCAG
AAGCGGAATT CCATGACTCC AAACCCTGGG TATCAGCCCA GTATGAATAC CTCTGACATG
ATGGGGCGCA TGTCCTATGA GCCAAATAAG GATCCTTATG GCAGCATGAG GAAAGCTCCA
GGGAGTGATC CCTTCATGTC CTCAGGGCAG GGCCCCAACG GCGGGATGGG TGACCCCTAC
AGTCGTGCTG CCGGCCCTGG GCTAGGAAAT GTGGCGATGG GACCACGACA GCACTATCCC
TATGGAGGTC CTTATGACAG AGTGAGGACG GAGCCTGGAA TAGGGCCTGA GGGAAACATG
AGCACTGGGG CCCCACAGCC GAATCTCATG CCTTCCAACC CAGACTCGGG GATGTATTCT
CCTAGCCGCT ACCCCCCGCA GCAGCAGCAG CAGCAGCAGC AACGACATGA TTCCTATGGC
AATCAGTTCT CCACCCAAGG CACCCCTTCT GGCAGCCCCT TCCCCAGCCA GCAGACTACA
ATGTATCAAC AGCAACAGCA GGTATCCAGC CCTGCTCCCC TGCCCCGGCC AATGGAGAAC
CGCACCTCTC CTAGCAAGTC TCCATTCCTG CACTCTGGGA TGAAAATGCA GAAGGCAGGT
CCCCCAGTAC CTGCCTCGCA CATAGCACCT GCCCCTGTGC AGCCCCCCAT GATTCGGCGG
GATATCACCT TCCCACCTGG CTCTGTTGAA GCCACACAGC CTGTGTTGAA GCAGAGGAGG
CGGCTCACAA TGAAAGACAT TGGAACCCCG GAGGCATGGC GGGTAATGAT GTCCCTCAAG
TCTGGTCTCC TGGCAGAGAG CACATGGGCA TTAGATACCA TCAACATCCT GCTGTATGAT
GACAACAGCA TCATGACCTT CAACCTCAGT CAGCTCCCAG GGTTGCTAGA GCTCCTTGTA
GAATATTTCC GACGATGCCT GATTGAGATC TTTGGCATTT TAAAGGAGTA TGAGGTGGGT
GACCCAGGAC AGAGAACGCT ACTGGATCCT GGGAGGTTCA GCAAGGTGTC TAGTCCAGCT
CCCATGGAGG GTGGGGAAGA AGAAGAAGAA CTTCTAGGTC CTAAACTAGA AGAGGAAGAA
GAAGAGGAAG TAGTTGAAAA TGATGAGGAG ATAGCCTTTT CAGGCAAGGA CAAGCCAGCT
TCAGAGAATA GTGAGGAGAA GCTGATCAGT AAGTTTGACA AGCTTCCAGT AAAGATCGTA
CAGAAGAATG ATCCATTTGT GGTGGACTGC TCAGATAAGC TTGGGCGTGT GCAGGAGTTT
GACAGTGGCC TGCTGCACTG GCGGATTGGT GGGGGGGACA CCACTGAGCA TATCCAGACC
CACTTCGAGA GCAAGACAGA GCTGCTGCCT TCCCGGCCTC ACGCACCCTG CCCACCAGCC
CCTCGGAAGC ATGTGACAAC AGCAGAGGGT ACACCAGGGA CAACAGACCA GGAGGGGCCC
CCACCTGATG GACCTCCAGA AAAACGGATC ACAGCCACTA TGGATGACAT GTTGTCTACT
CGGTCTAGCA CCTTGACCGA GGATGGAGCT AAGAGTTCAG AGGCCATCAA GGAGAGCAGC
AAGTTTCCAT TTGGCATTAG CCCAGCACAG AGCCACCGGA ACATCAAGAT CCTAGAGGAC
GAACCCCACA GTAAGGATGA GACCCCACTG TGTACCCTTC TGGACTGGCA GGATTCTCTT
GCCAAGCGCT GCGTCTGTGT GTCCAATACC ATTCGAAGCC TGTCATTTGT GCCAGGCAAT
GACTTTGAGA TGTCCAAACA CCCAGGGCTG CTGCTCATCC TGGGCAAGCT GATCCTGCTG
CACCACAAGC ACCCAGAACG GAAGCAGGCA CCACTAACTT ATGAAAAGGA GGAGGAACAG
GACCAAGGGG TGAGCTGCAA CAAAGTGGAG TGGTGGTGGG ACTGCTTGGA GATGCTCCGG
GAAAACACCT TGGTTACACT CGCCAACATC TCGGGGCAGT TGGACCTATC TCCATACCCC
GAGAGCATTT GCCTGCCTGT CCTGGACGGA CTCCTACACT GGGCAGTTTG CCCTTCAGCT
GAAGCCCAGG ACCCCTTTTC CACCCTGGGC CCCAATGCCG TCCTTTCCCC GCAGAGACTG
GTCTTGGAAA CCCTCAGCAA ACTCAGCATC CAGGACAACA ATGTGGACCT GATTCTGGCC
ACACCCCCCT TCAGCCGCCT GGAGAAGTTG TATAGCACTA TGGTGCGCTT CCTCAGTGAC
CGAAAGAACC CGGTGTGCCG GGAGATGGCT GTGGTACTGC TGGCCAACCT GGCTCAGGGG
GACAGCCTGG CAGCTCGTGC CATTGCAGTG CAGAAGGGCA GTATCGGCAA CCTCCTGGGC
TTCCTAGAGG ACAGCCTTGC CGCCACACAG TTCCAGCAGA GCCAGGCCAG CCTCCTCCAC
ATGCAGAACC CACCCTTTGA GCCAACTAGT GTGGACATGA TGCGGCGGGC TGCCCGCGCG
CTGCTTGCCT TGGCCAAGGT GGACGAGAAC CACTCAGAGT TTACTCTGTA CGAATCACGG
CTGTTGGACA TCTCGGTATC ACCGTTGATG AACTCATTGG TTTCACAAGT CATTTGTGAT
GTACTGTTTT TGATTGGCCA GTCATGA

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

CloneID OHu23960
Clone ID Related Accession (Same CDS sequence) NM_006015
Accession Version NM_006015.4 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 6858bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product AT-rich interactive domain-containing protein 1A isoform a
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL512408.12, AF521670.1 and AL034380.26. This sequence is a reference standard in the RefSeqGene project. On Nov 15, 2006 this sequence version replaced gi:21264564. Transcript Variant: This variant (1) is the longer transcript and encodes the longer isoform (a). 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 :: AF231056.1, AF521670.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
ATGGCCGCGC AGGTCGCCCC CGCCGCCGCC AGCAGCCTGG GCAACCCGCC GCCGCCGCCG 
CCCTCGGAGC TGAAGAAAGC CGAGCAGCAG CAGCGGGAGG AGGCGGGGGG CGAGGCGGCG
GCGGCGGCAG CGGCCGAGCG CGGGGAAATG AAGGCAGCCG CCGGGCAGGA AAGCGAGGGC
CCCGCCGTGG GGCCGCCGCA GCCGCTGGGA AAGGAGCTGC AGGACGGGGC CGAGAGCAAT
GGGGGTGGCG GCGGCGGCGG AGCCGGCAGC GGCGGCGGGC CCGGCGCGGA GCCGGACCTG
AAGAACTCGA ACGGGAACGC GGGCCCTAGG CCCGCCCTGA ACAATAACCT CACGGAGCCG
CCCGGCGGCG GCGGTGGCGG CAGCAGCGAT GGGGTGGGGG CGCCTCCTCA CTCAGCCGCG
GCCGCCTTGC CGCCCCCAGC CTACGGCTTC GGGCAACCCT ACGGCCGGAG CCCGTCTGCC
GTCGCCGCCG CCGCGGCCGC CGTCTTCCAC CAACAACATG GCGGACAACA AAGCCCTGGC
CTGGCAGCGC TGCAGAGCGG CGGCGGCGGG GGCCTGGAGC CCTACGCGGG GCCCCAGCAG
AACTCTCACG ACCACGGCTT CCCCAACCAC CAGTACAACT CCTACTACCC CAACCGCAGC
GCCTACCCCC CGCCCGCCCC GGCCTACGCG CTGAGCTCCC CGAGAGGTGG CACTCCGGGC
TCCGGCGCGG CGGCGGCTGC CGGCTCCAAG CCGCCTCCCT CCTCCAGCGC CTCCGCCTCC
TCGTCGTCTT CGTCCTTCGC TCAGCAGCGC TTCGGGGCCA TGGGGGGAGG CGGCCCCTCC
GCGGCCGGCG GGGGAACTCC CCAGCCCACC GCCACCCCCA CCCTCAACCA ACTGCTCACG
TCGCCCAGCT CGGCCCGGGG CTACCAGGGC TACCCCGGGG GCGACTACAG TGGCGGGCCC
CAGGACGGGG GCGCCGGCAA GGGCCCGGCG GACATGGCCT CGCAGTGTTG GGGGGCTGCG
GCGGCGGCAG CTGCGGCGGC GGCCGCCTCG GGAGGGGCCC AACAAAGGAG CCACCACGCG
CCCATGAGCC CCGGGAGCAG CGGCGGCGGG GGGCAGCCGC TCGCCCGGAC CCCTCAGCCA
TCCAGTCCAA TGGATCAGAT GGGCAAGATG AGACCTCAGC CATATGGCGG GACTAACCCA
TACTCGCAGC AACAGGGACC TCCGTCAGGA CCGCAGCAAG GACATGGGTA CCCAGGGCAG
CCATACGGGT CCCAGACCCC GCAGCGGTAC CCGATGACCA TGCAGGGCCG GGCGCAGAGT
GCCATGGGCG GCCTCTCTTA TACACAGCAG ATTCCTCCTT ATGGACAACA AGGCCCCAGC
GGGTATGGTC AACAGGGCCA GACTCCATAT TACAACCAGC AAAGTCCTCA CCCTCAGCAG
CAGCAGCCAC CCTACTCCCA GCAACCACCG TCCCAGACCC CTCATGCCCA ACCTTCGTAT
CAGCAGCAGC CACAGTCTCA ACCACCACAG CTCCAGTCCT CTCAGCCTCC ATACTCCCAG
CAGCCATCCC AGCCTCCACA TCAGCAGTCC CCGGCTCCAT ACCCCTCCCA GCAGTCGACG
ACACAGCAGC ACCCCCAGAG CCAGCCCCCC TACTCACAGC CACAGGCTCA GTCTCCTTAC
CAGCAGCAGC AACCTCAGCA GCCAGCACCC TCGACGCTCT CCCAGCAGGC TGCGTATCCT
CAGCCCCAGT CTCAGCAGTC CCAGCAAACT GCCTATTCCC AGCAGCGCTT CCCTCCACCG
CAGGAGCTAT CTCAAGATTC ATTTGGGTCT CAGGCATCCT CAGCCCCCTC AATGACCTCC
AGTAAGGGAG GGCAAGAAGA TATGAACCTG AGCCTTCAGT CAAGACCCTC CAGCTTGCCT
GATCTATCTG GTTCAATAGA TGACCTCCCC ATGGGGACAG AAGGAGCTCT GAGTCCTGGA
GTGAGCACAT CAGGGATTTC CAGCAGCCAA GGAGAGCAGA GTAATCCAGC TCAGTCTCCT
TTCTCTCCTC ATACCTCCCC TCACCTGCCT GGCATCCGAG GCCCTTCCCC GTCCCCTGTT
GGCTCTCCCG CCAGTGTTGC TCAGTCTCGC TCAGGACCAC TCTCGCCTGC TGCAGTGCCA
GGCAACCAGA TGCCACCTCG GCCACCCAGT GGCCAGTCGG ACAGCATCAT GCATCCTTCC
ATGAACCAAT CAAGCATTGC CCAAGATCGA GGTTATATGC AGAGGAACCC CCAGATGCCC
CAGTACAGTT CCCCCCAGCC CGGCTCAGCC TTATCTCCGC GTCAGCCTTC CGGAGGACAG
ATACACACAG GCATGGGCTC CTACCAGCAG AACTCCATGG GGAGCTATGG TCCCCAGGGG
GGTCAGTATG GCCCACAAGG TGGCTACCCC AGGCAGCCAA ACTATAATGC CTTGCCCAAT
GCCAACTACC CCAGTGCAGG CATGGCTGGA GGCATAAACC CCATGGGTGC CGGAGGTCAA
ATGCATGGAC AGCCTGGCAT CCCACCTTAT GGCACACTCC CTCCAGGGAG GATGAGTCAC
GCCTCCATGG GCAACCGGCC TTATGGCCCT AACATGGCCA ATATGCCACC TCAGGTTGGG
TCAGGGATGT GTCCCCCACC AGGGGGCATG AACCGGAAAA CCCAAGAAAC TGCTGTCGCC
ATGCATGTTG CTGCCAACTC TATCCAAAAC AGGCCGCCAG GCTACCCCAA TATGAATCAA
GGGGGCATGA TGGGAACTGG ACCTCCTTAT GGACAAGGGA TTAATAGTAT GGCTGGCATG
ATCAACCCTC AGGGACCCCC ATATTCCATG GGTGGAACCA TGGCCAACAA TTCTGCAGGG
ATGGCAGCCA GCCCAGAGAT GATGGGCCTT GGGGATGTAA AGTTAACTCC AGCCACCAAA
ATGAACAACA AGGCAGATGG GACACCCAAG ACAGAATCCA AATCCAAGAA ATCCAGTTCT
TCTACTACAA CCAATGAGAA GATCACCAAG TTGTATGAGC TGGGTGGTGA GCCTGAGAGG
AAGATGTGGG TGGACCGTTA TCTGGCCTTC ACTGAGGAGA AGGCCATGGG CATGACAAAT
CTGCCTGCTG TGGGTAGGAA ACCTCTGGAC CTCTATCGCC TCTATGTGTC TGTGAAGGAG
ATTGGTGGAT TGACTCAGGT CAACAAGAAC AAAAAATGGC GGGAACTTGC AACCAACCTC
AATGTGGGCA CATCAAGCAG TGCTGCCAGC TCCTTGAAAA AGCAGTATAT CCAGTGTCTC
TATGCCTTTG AATGCAAGAT TGAACGGGGA GAAGACCCTC CCCCAGACAT CTTTGCAGCT
GCTGATTCCA AGAAGTCCCA GCCCAAGATC CAGCCTCCCT CTCCTGCGGG ATCAGGATCT
ATGCAGGGGC CCCAGACTCC CCAGTCAACC AGCAGTTCCA TGGCAGAAGG AGGAGACTTA
AAGCCACCAA CTCCAGCATC CACACCACAC AGTCAGATCC CCCCATTGCC AGGCATGAGC
AGGAGCAATT CAGTTGGGAT CCAGGATGCC TTTAATGATG GAAGTGACTC CACATTCCAG
AAGCGGAATT CCATGACTCC AAACCCTGGG TATCAGCCCA GTATGAATAC CTCTGACATG
ATGGGGCGCA TGTCCTATGA GCCAAATAAG GATCCTTATG GCAGCATGAG GAAAGCTCCA
GGGAGTGATC CCTTCATGTC CTCAGGGCAG GGCCCCAACG GCGGGATGGG TGACCCCTAC
AGTCGTGCTG CCGGCCCTGG GCTAGGAAAT GTGGCGATGG GACCACGACA GCACTATCCC
TATGGAGGTC CTTATGACAG AGTGAGGACG GAGCCTGGAA TAGGGCCTGA GGGAAACATG
AGCACTGGGG CCCCACAGCC GAATCTCATG CCTTCCAACC CAGACTCGGG GATGTATTCT
CCTAGCCGCT ACCCCCCGCA GCAGCAGCAG CAGCAGCAGC AACGACATGA TTCCTATGGC
AATCAGTTCT CCACCCAAGG CACCCCTTCT GGCAGCCCCT TCCCCAGCCA GCAGACTACA
ATGTATCAAC AGCAACAGCA GAATTACAAG CGGCCAATGG ATGGCACATA TGGCCCTCCT
GCCAAGCGGC ACGAAGGGGA GATGTACAGC GTGCCATACA GCACTGGGCA GGGGCAGCCT
CAGCAGCAGC AGTTGCCCCC AGCCCAGCCC CAGCCTGCCA GCCAGCAACA AGCTGCCCAG
CCTTCCCCTC AGCAAGATGT ATACAACCAG TATGGCAATG CCTATCCTGC CACTGCCACA
GCTGCTACTG AGCGCCGACC AGCAGGCGGC CCCCAGAACC AATTTCCATT CCAGTTTGGC
CGAGACCGTG TCTCTGCACC CCCTGGCACC AATGCCCAGC AAAACATGCC ACCACAAATG
ATGGGCGGCC CCATACAGGC ATCAGCTGAG GTTGCTCAGC AAGGCACCAT GTGGCAGGGG
CGTAATGACA TGACCTATAA TTATGCCAAC AGGCAGAGCA CGGGCTCTGC CCCCCAGGGC
CCCGCCTATC ATGGCGTGAA CCGAACAGAT GAAATGCTGC ACACAGATCA GAGGGCCAAC
CACGAAGGCT CGTGGCCTTC CCATGGCACA CGCCAGCCCC CATATGGTCC CTCTGCCCCT
GTGCCCCCCA TGACAAGGCC CCCTCCATCT AACTACCAGC CCCCACCAAG CATGCAGAAT
CACATTCCTC AGGTATCCAG CCCTGCTCCC CTGCCCCGGC CAATGGAGAA CCGCACCTCT
CCTAGCAAGT CTCCATTCCT GCACTCTGGG ATGAAAATGC AGAAGGCAGG TCCCCCAGTA
CCTGCCTCGC ACATAGCACC TGCCCCTGTG CAGCCCCCCA TGATTCGGCG GGATATCACC
TTCCCACCTG GCTCTGTTGA AGCCACACAG CCTGTGTTGA AGCAGAGGAG GCGGCTCACA
ATGAAAGACA TTGGAACCCC GGAGGCATGG CGGGTAATGA TGTCCCTCAA GTCTGGTCTC
CTGGCAGAGA GCACATGGGC ATTAGATACC ATCAACATCC TGCTGTATGA TGACAACAGC
ATCATGACCT TCAACCTCAG TCAGCTCCCA GGGTTGCTAG AGCTCCTTGT AGAATATTTC
CGACGATGCC TGATTGAGAT CTTTGGCATT TTAAAGGAGT ATGAGGTGGG TGACCCAGGA
CAGAGAACGC TACTGGATCC TGGGAGGTTC AGCAAGGTGT CTAGTCCAGC TCCCATGGAG
GGTGGGGAAG AAGAAGAAGA ACTTCTAGGT CCTAAACTAG AAGAGGAAGA AGAAGAGGAA
GTAGTTGAAA ATGATGAGGA GATAGCCTTT TCAGGCAAGG ACAAGCCAGC TTCAGAGAAT
AGTGAGGAGA AGCTGATCAG TAAGTTTGAC AAGCTTCCAG TAAAGATCGT ACAGAAGAAT
GATCCATTTG TGGTGGACTG CTCAGATAAG CTTGGGCGTG TGCAGGAGTT TGACAGTGGC
CTGCTGCACT GGCGGATTGG TGGGGGGGAC ACCACTGAGC ATATCCAGAC CCACTTCGAG
AGCAAGACAG AGCTGCTGCC TTCCCGGCCT CACGCACCCT GCCCACCAGC CCCTCGGAAG
CATGTGACAA CAGCAGAGGG TACACCAGGG ACAACAGACC AGGAGGGGCC CCCACCTGAT
GGACCTCCAG AAAAACGGAT CACAGCCACT ATGGATGACA TGTTGTCTAC TCGGTCTAGC
ACCTTGACCG AGGATGGAGC TAAGAGTTCA GAGGCCATCA AGGAGAGCAG CAAGTTTCCA
TTTGGCATTA GCCCAGCACA GAGCCACCGG AACATCAAGA TCCTAGAGGA CGAACCCCAC
AGTAAGGATG AGACCCCACT GTGTACCCTT CTGGACTGGC AGGATTCTCT TGCCAAGCGC
TGCGTCTGTG TGTCCAATAC CATTCGAAGC CTGTCATTTG TGCCAGGCAA TGACTTTGAG
ATGTCCAAAC ACCCAGGGCT GCTGCTCATC CTGGGCAAGC TGATCCTGCT GCACCACAAG
CACCCAGAAC GGAAGCAGGC ACCACTAACT TATGAAAAGG AGGAGGAACA GGACCAAGGG
GTGAGCTGCA ACAAAGTGGA GTGGTGGTGG GACTGCTTGG AGATGCTCCG GGAAAACACC
TTGGTTACAC TCGCCAACAT CTCGGGGCAG TTGGACCTAT CTCCATACCC CGAGAGCATT
TGCCTGCCTG TCCTGGACGG ACTCCTACAC TGGGCAGTTT GCCCTTCAGC TGAAGCCCAG
GACCCCTTTT CCACCCTGGG CCCCAATGCC GTCCTTTCCC CGCAGAGACT GGTCTTGGAA
ACCCTCAGCA AACTCAGCAT CCAGGACAAC AATGTGGACC TGATTCTGGC CACACCCCCC
TTCAGCCGCC TGGAGAAGTT GTATAGCACT ATGGTGCGCT TCCTCAGTGA CCGAAAGAAC
CCGGTGTGCC GGGAGATGGC TGTGGTACTG CTGGCCAACC TGGCTCAGGG GGACAGCCTG
GCAGCTCGTG CCATTGCAGT GCAGAAGGGC AGTATCGGCA ACCTCCTGGG CTTCCTAGAG
GACAGCCTTG CCGCCACACA GTTCCAGCAG AGCCAGGCCA GCCTCCTCCA CATGCAGAAC
CCACCCTTTG AGCCAACTAG TGTGGACATG ATGCGGCGGG CTGCCCGCGC GCTGCTTGCC
TTGGCCAAGG TGGACGAGAA CCACTCAGAG TTTACTCTGT ACGAATCACG GCTGTTGGAC
ATCTCGGTAT CACCGTTGAT GAACTCATTG GTTTCACAAG TCATTTGTGA TGTACTGTTT
TTGATTGGCC AGTCATGA

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

RefSeq NP_006006.3
CDS374..7231
Misc Feature(1)134..136(+)
Misc Feature(2)377..379(+)
Misc Feature(3)608..610(+)
Misc Feature(4)1229..1231(+)
Misc Feature(5)1256..1270(+)
Misc Feature(6)1274..1276(+)
Misc Feature(7)1460..1462(+)
Misc Feature(8)1460..1462(+)
Misc Feature(9)2183..2185(+)
Misc Feature(10)2183..2185(+)
Misc Feature(11)2459..2461(+)
Misc Feature(12)2459..2461(+)
Misc Feature(13)2465..2467(+)
Misc Feature(14)2477..2479(+)
Misc Feature(15)2663..2665(+)
Misc Feature(16)2687..2689(+)
Misc Feature(17)2687..2689(+)
Misc Feature(18)3413..3685(+)
Misc Feature(19)3923..3925(+)
Misc Feature(20)5183..5185(+)
Misc Feature(21)5207..5209(+)
Misc Feature(22)5498..5512(+)
Misc Feature(23)5636..5638(+)
Misc Feature(24)6086..6088(+)
Misc Feature(25)6203..6205(+)
Misc Feature(26)6272..6286(+)
Misc Feature(27)6296..7066(+)
Misc Feature(28)6626..6640(+)
Exon (1)1..1510
Gene:ARID1A
Gene Synonym:
Exon (2)1511..1723
Gene:ARID1A
Gene Synonym:
Exon (3)1724..2176
Gene:ARID1A
Gene Synonym:
Exon (4)2177..2293
Gene:ARID1A
Gene Synonym:
Exon (5)2294..2534
Gene:ARID1A
Gene Synonym:
Exon (6)2535..2624
Gene:ARID1A
Gene Synonym:
Exon (7)2625..2792
Gene:ARID1A
Gene Synonym:
Exon (8)2793..3105
Gene:ARID1A
Gene Synonym:
Exon (9)3106..3251
Gene:ARID1A
Gene Synonym:
Exon (10)3252..3361
Gene:ARID1A
Gene Synonym:
Exon (11)3362..3571
Gene:ARID1A
Gene Synonym:
Exon (12)3572..3779
Gene:ARID1A
Gene Synonym:
Exon (13)3780..3912
Gene:ARID1A
Gene Synonym:
Exon (14)3913..4088
Gene:ARID1A
Gene Synonym:
Exon (15)4089..4239
Gene:ARID1A
Gene Synonym:
Exon (16)4240..4377
Gene:ARID1A
Gene Synonym:
Exon (17)4378..4474
Gene:ARID1A
Gene Synonym:
Exon (18)4475..5366
Gene:ARID1A
Gene Synonym:
Exon (19)5367..5497
Gene:ARID1A
Gene Synonym:
Exon (20)5498..8585
Gene:ARID1A
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_006015
Organism Homo sapiens (human)
Definition Homo sapiens AT rich interactive domain 1A (SWI-like) (ARID1A), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_006015

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
ATGGCCGCGC AGGTCGCCCC CGCCGCCGCC AGCAGCCTGG GCAACCCGCC GCCGCCGCCG 
CCCTCGGAGC TGAAGAAAGC CGAGCAGCAG CAGCGGGAGG AGGCGGGGGG CGAGGCGGCG
GCGGCGGCAG CGGCCGAGCG CGGGGAAATG AAGGCAGCCG CCGGGCAGGA AAGCGAGGGC
CCCGCCGTGG GGCCGCCGCA GCCGCTGGGA AAGGAGCTGC AGGACGGGGC CGAGAGCAAT
GGGGGTGGCG GCGGCGGCGG AGCCGGCAGC GGCGGCGGGC CCGGCGCGGA GCCGGACCTG
AAGAACTCGA ACGGGAACGC GGGCCCTAGG CCCGCCCTGA ACAATAACCT CACGGAGCCG
CCCGGCGGCG GCGGTGGCGG CAGCAGCGAT GGGGTGGGGG CGCCTCCTCA CTCAGCCGCG
GCCGCCTTGC CGCCCCCAGC CTACGGCTTC GGGCAACCCT ACGGCCGGAG CCCGTCTGCC
GTCGCCGCCG CCGCGGCCGC CGTCTTCCAC CAACAACATG GCGGACAACA AAGCCCTGGC
CTGGCAGCGC TGCAGAGCGG CGGCGGCGGG GGCCTGGAGC CCTACGCGGG GCCCCAGCAG
AACTCTCACG ACCACGGCTT CCCCAACCAC CAGTACAACT CCTACTACCC CAACCGCAGC
GCCTACCCCC CGCCCGCCCC GGCCTACGCG CTGAGCTCCC CGAGAGGTGG CACTCCGGGC
TCCGGCGCGG CGGCGGCTGC CGGCTCCAAG CCGCCTCCCT CCTCCAGCGC CTCCGCCTCC
TCGTCGTCTT CGTCCTTCGC TCAGCAGCGC TTCGGGGCCA TGGGGGGAGG CGGCCCCTCC
GCGGCCGGCG GGGGAACTCC CCAGCCCACC GCCACCCCCA CCCTCAACCA ACTGCTCACG
TCGCCCAGCT CGGCCCGGGG CTACCAGGGC TACCCCGGGG GCGACTACAG TGGCGGGCCC
CAGGACGGGG GCGCCGGCAA GGGCCCGGCG GACATGGCCT CGCAGTGTTG GGGGGCTGCG
GCGGCGGCAG CTGCGGCGGC GGCCGCCTCG GGAGGGGCCC AACAAAGGAG CCACCACGCG
CCCATGAGCC CCGGGAGCAG CGGCGGCGGG GGGCAGCCGC TCGCCCGGAC CCCTCAGCCA
TCCAGTCCAA TGGATCAGAT GGGCAAGATG AGACCTCAGC CATATGGCGG GACTAACCCA
TACTCGCAGC AACAGGGACC TCCGTCAGGA CCGCAGCAAG GACATGGGTA CCCAGGGCAG
CCATACGGGT CCCAGACCCC GCAGCGGTAC CCGATGACCA TGCAGGGCCG GGCGCAGAGT
GCCATGGGCG GCCTCTCTTA TACACAGCAG ATTCCTCCTT ATGGACAACA AGGCCCCAGC
GGGTATGGTC AACAGGGCCA GACTCCATAT TACAACCAGC AAAGTCCTCA CCCTCAGCAG
CAGCAGCCAC CCTACTCCCA GCAACCACCG TCCCAGACCC CTCATGCCCA ACCTTCGTAT
CAGCAGCAGC CACAGTCTCA ACCACCACAG CTCCAGTCCT CTCAGCCTCC ATACTCCCAG
CAGCCATCCC AGCCTCCACA TCAGCAGTCC CCGGCTCCAT ACCCCTCCCA GCAGTCGACG
ACACAGCAGC ACCCCCAGAG CCAGCCCCCC TACTCACAGC CACAGGCTCA GTCTCCTTAC
CAGCAGCAGC AACCTCAGCA GCCAGCACCC TCGACGCTCT CCCAGCAGGC TGCGTATCCT
CAGCCCCAGT CTCAGCAGTC CCAGCAAACT GCCTATTCCC AGCAGCGCTT CCCTCCACCG
CAGGAGCTAT CTCAAGATTC ATTTGGGTCT CAGGCATCCT CAGCCCCCTC AATGACCTCC
AGTAAGGGAG GGCAAGAAGA TATGAACCTG AGCCTTCAGT CAAGACCCTC CAGCTTGCCT
GATCTATCTG GTTCAATAGA TGACCTCCCC ATGGGGACAG AAGGAGCTCT GAGTCCTGGA
GTGAGCACAT CAGGGATTTC CAGCAGCCAA GGAGAGCAGA GTAATCCAGC TCAGTCTCCT
TTCTCTCCTC ATACCTCCCC TCACCTGCCT GGCATCCGAG GCCCTTCCCC GTCCCCTGTT
GGCTCTCCCG CCAGTGTTGC TCAGTCTCGC TCAGGACCAC TCTCGCCTGC TGCAGTGCCA
GGCAACCAGA TGCCACCTCG GCCACCCAGT GGCCAGTCGG ACAGCATCAT GCATCCTTCC
ATGAACCAAT CAAGCATTGC CCAAGATCGA GGTTATATGC AGAGGAACCC CCAGATGCCC
CAGTACAGTT CCCCCCAGCC CGGCTCAGCC TTATCTCCGC GTCAGCCTTC CGGAGGACAG
ATACACACAG GCATGGGCTC CTACCAGCAG AACTCCATGG GGAGCTATGG TCCCCAGGGG
GGTCAGTATG GCCCACAAGG TGGCTACCCC AGGCAGCCAA ACTATAATGC CTTGCCCAAT
GCCAACTACC CCAGTGCAGG CATGGCTGGA GGCATAAACC CCATGGGTGC CGGAGGTCAA
ATGCATGGAC AGCCTGGCAT CCCACCTTAT GGCACACTCC CTCCAGGGAG GATGAGTCAC
GCCTCCATGG GCAACCGGCC TTATGGCCCT AACATGGCCA ATATGCCACC TCAGGTTGGG
TCAGGGATGT GTCCCCCACC AGGGGGCATG AACCGGAAAA CCCAAGAAAC TGCTGTCGCC
ATGCATGTTG CTGCCAACTC TATCCAAAAC AGGCCGCCAG GCTACCCCAA TATGAATCAA
GGGGGCATGA TGGGAACTGG ACCTCCTTAT GGACAAGGGA TTAATAGTAT GGCTGGCATG
ATCAACCCTC AGGGACCCCC ATATTCCATG GGTGGAACCA TGGCCAACAA TTCTGCAGGG
ATGGCAGCCA GCCCAGAGAT GATGGGCCTT GGGGATGTAA AGTTAACTCC AGCCACCAAA
ATGAACAACA AGGCAGATGG GACACCCAAG ACAGAATCCA AATCCAAGAA ATCCAGTTCT
TCTACTACAA CCAATGAGAA GATCACCAAG TTGTATGAGC TGGGTGGTGA GCCTGAGAGG
AAGATGTGGG TGGACCGTTA TCTGGCCTTC ACTGAGGAGA AGGCCATGGG CATGACAAAT
CTGCCTGCTG TGGGTAGGAA ACCTCTGGAC CTCTATCGCC TCTATGTGTC TGTGAAGGAG
ATTGGTGGAT TGACTCAGGT CAACAAGAAC AAAAAATGGC GGGAACTTGC AACCAACCTC
AATGTGGGCA CATCAAGCAG TGCTGCCAGC TCCTTGAAAA AGCAGTATAT CCAGTGTCTC
TATGCCTTTG AATGCAAGAT TGAACGGGGA GAAGACCCTC CCCCAGACAT CTTTGCAGCT
GCTGATTCCA AGAAGTCCCA GCCCAAGATC CAGCCTCCCT CTCCTGCGGG ATCAGGATCT
ATGCAGGGGC CCCAGACTCC CCAGTCAACC AGCAGTTCCA TGGCAGAAGG AGGAGACTTA
AAGCCACCAA CTCCAGCATC CACACCACAC AGTCAGATCC CCCCATTGCC AGGCATGAGC
AGGAGCAATT CAGTTGGGAT CCAGGATGCC TTTAATGATG GAAGTGACTC CACATTCCAG
AAGCGGAATT CCATGACTCC AAACCCTGGG TATCAGCCCA GTATGAATAC CTCTGACATG
ATGGGGCGCA TGTCCTATGA GCCAAATAAG GATCCTTATG GCAGCATGAG GAAAGCTCCA
GGGAGTGATC CCTTCATGTC CTCAGGGCAG GGCCCCAACG GCGGGATGGG TGACCCCTAC
AGTCGTGCTG CCGGCCCTGG GCTAGGAAAT GTGGCGATGG GACCACGACA GCACTATCCC
TATGGAGGTC CTTATGACAG AGTGAGGACG GAGCCTGGAA TAGGGCCTGA GGGAAACATG
AGCACTGGGG CCCCACAGCC GAATCTCATG CCTTCCAACC CAGACTCGGG GATGTATTCT
CCTAGCCGCT ACCCCCCGCA GCAGCAGCAG CAGCAGCAGC AACGACATGA TTCCTATGGC
AATCAGTTCT CCACCCAAGG CACCCCTTCT GGCAGCCCCT TCCCCAGCCA GCAGACTACA
ATGTATCAAC AGCAACAGCA GAATTACAAG CGGCCAATGG ATGGCACATA TGGCCCTCCT
GCCAAGCGGC ACGAAGGGGA GATGTACAGC GTGCCATACA GCACTGGGCA GGGGCAGCCT
CAGCAGCAGC AGTTGCCCCC AGCCCAGCCC CAGCCTGCCA GCCAGCAACA AGCTGCCCAG
CCTTCCCCTC AGCAAGATGT ATACAACCAG TATGGCAATG CCTATCCTGC CACTGCCACA
GCTGCTACTG AGCGCCGACC AGCAGGCGGC CCCCAGAACC AATTTCCATT CCAGTTTGGC
CGAGACCGTG TCTCTGCACC CCCTGGCACC AATGCCCAGC AAAACATGCC ACCACAAATG
ATGGGCGGCC CCATACAGGC ATCAGCTGAG GTTGCTCAGC AAGGCACCAT GTGGCAGGGG
CGTAATGACA TGACCTATAA TTATGCCAAC AGGCAGAGCA CGGGCTCTGC CCCCCAGGGC
CCCGCCTATC ATGGCGTGAA CCGAACAGAT GAAATGCTGC ACACAGATCA GAGGGCCAAC
CACGAAGGCT CGTGGCCTTC CCATGGCACA CGCCAGCCCC CATATGGTCC CTCTGCCCCT
GTGCCCCCCA TGACAAGGCC CCCTCCATCT AACTACCAGC CCCCACCAAG CATGCAGAAT
CACATTCCTC AGGTATCCAG CCCTGCTCCC CTGCCCCGGC CAATGGAGAA CCGCACCTCT
CCTAGCAAGT CTCCATTCCT GCACTCTGGG ATGAAAATGC AGAAGGCAGG TCCCCCAGTA
CCTGCCTCGC ACATAGCACC TGCCCCTGTG CAGCCCCCCA TGATTCGGCG GGATATCACC
TTCCCACCTG GCTCTGTTGA AGCCACACAG CCTGTGTTGA AGCAGAGGAG GCGGCTCACA
ATGAAAGACA TTGGAACCCC GGAGGCATGG CGGGTAATGA TGTCCCTCAA GTCTGGTCTC
CTGGCAGAGA GCACATGGGC ATTAGATACC ATCAACATCC TGCTGTATGA TGACAACAGC
ATCATGACCT TCAACCTCAG TCAGCTCCCA GGGTTGCTAG AGCTCCTTGT AGAATATTTC
CGACGATGCC TGATTGAGAT CTTTGGCATT TTAAAGGAGT ATGAGGTGGG TGACCCAGGA
CAGAGAACGC TACTGGATCC TGGGAGGTTC AGCAAGGTGT CTAGTCCAGC TCCCATGGAG
GGTGGGGAAG AAGAAGAAGA ACTTCTAGGT CCTAAACTAG AAGAGGAAGA AGAAGAGGAA
GTAGTTGAAA ATGATGAGGA GATAGCCTTT TCAGGCAAGG ACAAGCCAGC TTCAGAGAAT
AGTGAGGAGA AGCTGATCAG TAAGTTTGAC AAGCTTCCAG TAAAGATCGT ACAGAAGAAT
GATCCATTTG TGGTGGACTG CTCAGATAAG CTTGGGCGTG TGCAGGAGTT TGACAGTGGC
CTGCTGCACT GGCGGATTGG TGGGGGGGAC ACCACTGAGC ATATCCAGAC CCACTTCGAG
AGCAAGACAG AGCTGCTGCC TTCCCGGCCT CACGCACCCT GCCCACCAGC CCCTCGGAAG
CATGTGACAA CAGCAGAGGG TACACCAGGG ACAACAGACC AGGAGGGGCC CCCACCTGAT
GGACCTCCAG AAAAACGGAT CACAGCCACT ATGGATGACA TGTTGTCTAC TCGGTCTAGC
ACCTTGACCG AGGATGGAGC TAAGAGTTCA GAGGCCATCA AGGAGAGCAG CAAGTTTCCA
TTTGGCATTA GCCCAGCACA GAGCCACCGG AACATCAAGA TCCTAGAGGA CGAACCCCAC
AGTAAGGATG AGACCCCACT GTGTACCCTT CTGGACTGGC AGGATTCTCT TGCCAAGCGC
TGCGTCTGTG TGTCCAATAC CATTCGAAGC CTGTCATTTG TGCCAGGCAA TGACTTTGAG
ATGTCCAAAC ACCCAGGGCT GCTGCTCATC CTGGGCAAGC TGATCCTGCT GCACCACAAG
CACCCAGAAC GGAAGCAGGC ACCACTAACT TATGAAAAGG AGGAGGAACA GGACCAAGGG
GTGAGCTGCA ACAAAGTGGA GTGGTGGTGG GACTGCTTGG AGATGCTCCG GGAAAACACC
TTGGTTACAC TCGCCAACAT CTCGGGGCAG TTGGACCTAT CTCCATACCC CGAGAGCATT
TGCCTGCCTG TCCTGGACGG ACTCCTACAC TGGGCAGTTT GCCCTTCAGC TGAAGCCCAG
GACCCCTTTT CCACCCTGGG CCCCAATGCC GTCCTTTCCC CGCAGAGACT GGTCTTGGAA
ACCCTCAGCA AACTCAGCAT CCAGGACAAC AATGTGGACC TGATTCTGGC CACACCCCCC
TTCAGCCGCC TGGAGAAGTT GTATAGCACT ATGGTGCGCT TCCTCAGTGA CCGAAAGAAC
CCGGTGTGCC GGGAGATGGC TGTGGTACTG CTGGCCAACC TGGCTCAGGG GGACAGCCTG
GCAGCTCGTG CCATTGCAGT GCAGAAGGGC AGTATCGGCA ACCTCCTGGG CTTCCTAGAG
GACAGCCTTG CCGCCACACA GTTCCAGCAG AGCCAGGCCA GCCTCCTCCA CATGCAGAAC
CCACCCTTTG AGCCAACTAG TGTGGACATG ATGCGGCGGG CTGCCCGCGC GCTGCTTGCC
TTGGCCAAGG TGGACGAGAA CCACTCAGAG TTTACTCTGT ACGAATCACG GCTGTTGGAC
ATCTCGGTAT CACCGTTGAT GAACTCATTG GTTTCACAAG TCATTTGTGA TGTACTGTTT
TTGATTGGCC AGTCATGA

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

book

Mutations in linker histone genes HIST1H1 B, C, D, and E; OCT2 (POU2F2); IRF8; and ARID1A underlying the pathogenesis of follicular lymphoma
Blood 123 (10), 1487-1498 (2014)
Li H, Kaminski MS, Li Y, Yildiz M, Ouillette P, Jones S, Fox H, Jacobi K, Saiya-Cork K, Bixby D, Lebovic D, Roulston D, Shedden K, Sabel M, Marentette L, Cimmino V, Chang AE and Malek SN.


book

ARID1B is a specific vulnerability in ARID1A-mutant cancers
Nat. Med. 20 (3), 251-254 (2014)
Helming KC, Wang X, Wilson BG, Vazquez F, Haswell JR, Manchester HE, Kim Y, Kryukov GV, Ghandi M, Aguirre AJ, Jagani Z, Wang Z, Garraway LA, Hahn WC and Roberts CW.


book

High prevalence of MAP2K1 mutations in variant and IGHV4-34-expressing hairy-cell leukemias
Nat. Genet. 46 (1), 8-10 (2014)
Waterfall JJ, Arons E, Walker RL, Pineda M, Roth L, Killian JK, Abaan OD, Davis SR, Kreitman RJ and Meltzer PS.


book

Exome sequencing identifies frequent inactivating mutations in BAP1, ARID1A and PBRM1 in intrahepatic cholangiocarcinomas
Nat. Genet. 45 (12), 1470-1473 (2013)
Jiao Y, Pawlik TM, Anders RA, Selaru FM, Streppel MM, Lucas DJ, Niknafs N, Guthrie VB, Maitra A, Argani P, Offerhaus GJ, Roa JC, Roberts LR, Gores GJ, Popescu I, Alexandrescu ST, Dima S, Fassan M, Simbolo M, Mafficini A, Capelli P, Lawlor RT, Ruzzenente A, Guglielmi A, Tortora G, de Braud F, Scarpa A, Jarnagin W, Klimstra D, Karchin R, Velculescu VE, Hruban RH, Vogelstein B, Kinzler KW, Papadopoulos N and Wood LD.


book

Loss of ARID1A expression correlates with stages of tumor progression in uterine endometrioid carcinoma
Am. J. Surg. Pathol. 37 (9), 1342-1348 (2013)
Mao TL, Ardighieri L, Ayhan A, Kuo KT, Wu CH, Wang TL and Shih IeM.


book

p300/CREB binding protein-related protein p270 is a component of mammalian SWI/SNF complexes
Mol. Cell. Biol. 18 (6), 3596-3603 (1998)
Dallas PB, Cheney IW, Liao DW, Bowrin V, Byam W, Pacchione S, Kobayashi R, Yaciuk P and Moran E.


book

Molecular cloning and expression of a novel human cDNA containing CAG repeats
Gene 204 (1-2), 71-77 (1997)
Takeuchi T, Chen BK, Qiu Y, Sonobe H and Ohtsuki Y.


book

Purification and biochemical heterogeneity of the mammalian SWI-SNF complex
EMBO J. 15 (19), 5370-5382 (1996)
Wang W, Cote J, Xue Y, Zhou S, Khavari PA, Biggar SR, Muchardt C, Kalpana GV, Goff SP, Yaniv M, Workman JL and Crabtree GR.


book

Diversity and specialization of mammalian SWI/SNF complexes
Genes Dev. 10 (17), 2117-2130 (1996)
Wang W, Xue Y, Zhou S, Kuo A, Cairns BR and Crabtree GR.


book

Coffin-Siris Syndrome
(in) Pagon RA, Adam MP, Ardinger HH, Bird TD, Dolan CR, Fong CT, Smith RJH and Stephens K (Eds.); GENEREVIEWS(R); (1993)
Schrier Vergano,S., Santen,G., Wieczorek,D., Wollnik,B., Matsumoto,N. and Deardorff,M.A.


 
*
*
*
*