ARID2 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ARID2
Entrez Gene ID	196528
Full Name	AT-rich interaction domain 2
Synonyms	BAF200,CSS6,p200
General protein information	Preferred Names AT-rich interaction domain 2 Names AT-rich interactive domain-containing protein 2 ARID domain-containing protein 2 AT rich interactive domain 2 (ARID, RFX-like) BRG1-associated factor 200 zinc finger protein with activation potential zipzap/p200
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 12 Map Location: 12q12
Summary	This gene encodes a member of the AT-rich interactive domain (ARID)-containing family of DNA-binding proteins. Members of the ARID family have roles in embryonic patterning, cell lineage gene regulation, cell cycle control, transcriptional regulation and chromatin structure modification. This protein functions as a subunit of the polybromo- and BRG1-associated factor or PBAF (SWI/SNF-B) chromatin remodeling complex which facilitates ligand-dependent transcriptional activation by nuclear receptors. Mutations in this gene are associated with hepatocellular carcinomas. A pseudogene of this gene is found on chromosome1. [provided by RefSeq, Dec 2016].
Disorder MIM:	609539
Disorder Html:	Coffis-Siris syndrome 6, 617808 (3)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006719272.3	XP_006719335.1	AT-rich interactive domain-containing protein 2 isoform X1
NM_001347839.1	NP_001334768.1	AT-rich interactive domain-containing protein 2 isoform 2
XM_006719272.4	XP_006719335.1	AT-rich interactive domain-containing protein 2 isoform X1
NM_152641.4	NP_689854.2	AT-rich interactive domain-containing protein 2 isoform 1
XM_011538025.1	XP_011536327.1	AT-rich interactive domain-containing protein 2 isoform X2
NM_152641.3	NP_689854.2	AT-rich interactive domain-containing protein 2 isoform 1

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	ARID2	XP_003433601.2
Rattus norvegicus (Norway rat)	Arid2	XP_345868.4
Pan troglodytes (chimpanzee)	ARID2	XP_003313802.2
Bos taurus (cattle)	ARID2	XP_002687369.1
Mus musculus (house mouse)	Arid2	NP_780460.3
Xenopus tropicalis (tropical clawed frog)	arid2	XP_004913025.1
Homo sapiens (human)	ARID2	NP_689854.2
	ARID2	XP_001092151.1
Danio rerio (zebrafish)	arid2	NP_001071231.1
Gallus gallus (chicken)	ARID2	XP_004937609.1

Gene Ontology
Bibliography

Related articles in PubMed

Confirmation of an ARID2 defect in SWI/SNF-related intellectual disability.
Van Paemel R, De Bruyne P, van der Straaten S, D'hondt M, Fr?nkel U, Dheedene A, Menten B, Callewaert B
American journal of medical genetics. Part A173(11)3104-3108(2017 Nov)

The chromatin-remodeling subunit Baf200 promotes homology-directed DNA repair and regulates distinct chromatin-remodeling complexes.
de Castro RO, Previato L, Goitea V, Felberg A, Guiraldelli MF, Filiberti A, Pezza RJ
The Journal of biological chemistry292(20)8459-8471(2017 05)

ARID2 modulates DNA damage response in human hepatocellular carcinoma cells.
Oba A, Shimada S, Akiyama Y, Nishikawaji T, Mogushi K, Ito H, Matsumura S, Aihara A, Mitsunori Y, Ban D, Ochiai T, Kudo A, Asahara H, Kaida A, Miura M, Tanabe M, Tanaka S
Journal of hepatology66(5)942-951(2017 05)

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

Baf200 and Rad51 are present in the same complex and that this interaction is mediated by C-terminal sequences in both proteins.
Title: The chromatin-remodeling subunit Baf200 promotes homology-directed DNA repair and regulates distinct chromatin-remodeling complexes.

ARID2 knockout could contribute to disruption of DNA repair process.
Title: ARID2 modulates DNA damage response in human hepatocellular carcinoma cells.

study identifies mutations in the ARID2 gene as a novel and rare cause for a CSS-like phenotype and enlarges the list of CSS-like genes
Title: Heterozygosity for ARID2 loss-of-function mutations in individuals with a Coffin-Siris syndrome-like phenotype.

These findings highlight the potential role of ARID2 as a tumor growth suppressor in hepatocellular carcinoma
Title: Chromatin remodeling gene ARID2 targets cyclin D1 and cyclin E1 to suppress hepatoma cell progression.

Results show that ARID2 is a direct target of miR155 in human hepatocellular carcinoma (HCC). Alterations of ARID2 expression abrogated the effects of miR155 on HCC cell proliferation, cell cycle and apoptosis.
Title: MicroRNA-155 promotes tumor growth of human hepatocellular carcinoma by targeting ARID2.

The following ARID2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARID2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu77513	XM_011538025.1 Latest version!	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
OHu101432	NM_001347839.1 Latest version!	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
OHu06869	NM_152641.4 Latest version!	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
OHu46374	XM_006719272.4 Latest version!	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
View Old Accession Versions >>
OHu46374	XM_006719272.3	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
OHu06869	NM_152641.3	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$951.30 $1359.00
Hide Old Accession Versions >>

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** 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)

ARID2 ( XM_011538025.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011536327.1 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu77513
Clone ID Related Accession (Same CDS sequence)	XM_011538025.1
Accession Version	XM_011538025.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3876bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTATTCTG AATACCTCTC GACTTGCAGT AAATTAGCTC GTGGTGGAAT CCTAACATCA 
ACTGGATTTT ATAAATGTCT TAGAACGGTC TTTCCAAATC ATACAGTGAA GAGAGTGGAG 
GATTCCAGTA GCAATGGGCA GGCACATATT CATGTGGTAG GAGTAAAACG GAGGGCTATA 
CCACTTCCCA TTCAGATGTA CTATCAGCAG CAACCAGTTT CTACTTCTGT TGTTCGTGTT 
GATTCTGTTC CTGATGTATC TCCTGCTCCT TCACCTGCAG GAATCCCTCA TGGATCACAA 
ACCATAGGAA ACCATTTTCA GAGGACTCCT GTTGCCAACC AATCTTCAAA TCTGACTGCA 
ACACAAATGT CTTTTCCTGT ACAAGGTGTT CATACTGTGG CACAAACTGT TTCAAGAATT 
CCACAAAATC CTTCACCTCA TACCCACCAG CAACAAAATG CTCCAGTGAC TGTCATTCAA 
AGTAAAGCTC CAATTCCTTG TGAAGTTGTT AAGGCTACAG TTATCCAGAA TTCCATACCC 
CAGACAGGAG TTCCTGTTAG TATTGCTGTT GGAGGAGGAC CTCCACAGAG TTCTGTTGTT 
CAGAATCATA GTACAGGGCC ACAACCTGTT ACAGTTGTGA ATTCTCAGAC ATTGCTTCAC 
CATCCATCTG TAATTCCACA GCAGTCTCCA TTACACACAG TGGTACCAGG ACAGATCCCT 
TCAGGCACTC CTGTTACAGT AATTCAACAA GCTGTCCCAC AGAGTCATAT GTTTGGCAGA 
GTACAGAACA TACCAGCATG TACTTCTACA GTTTCACAGG GTCAACAGTT AATCACCACA 
TCACCCCAAC CTGTGCAAAC TTCATCTCAA CAGACATCAG CTGGTAGCCA GTCACAAGAT 
ACTGTTATCA TAGCACCCCC ACAGTATGTA ACAACTTCTG CATCCAATAT TGTCTCAGCA 
ACTTCAGTAC AGAATTTTCA GGTAGCTACA GGACAAATGG TTACTATTGC TGGTGTCCCA 
AGTCCACAAG CCTCAAGGGT AGGGTTTCAG AACATTGCAC CAAAACCTCT CCCTTCTCAG 
CAAGTTTCAT CTACAGTGGT ACAGCAGCCT ATTCAACAAC CACAGCAGCC AACCCAACAA 
AGCGTAGTGA TTGTAAGCCA GCCAGCTCAA CAAGGTCAAA CTTATGCACC AGCCATTCAC 
CAAATTGTTC TTGCTAATCC AGCAGCTCTT CCAGCTGGTC AGACAGTTCA GCTAACTGGA 
CAACCTAACA TAACTCCATC TTCTTCACCA TCACCTGTCC CAGCTACTAA TAACCAAGTC 
CCTACTGCCA TGTCGTCGTC CTCTACCCCT CAATCACAGG GACCACCTCC TACTGTCAGT 
CAAATGTTAT CTGTGAAAAG GCAGCAACAG CAGCAACATT CACCAGCACC CCCACCACAG 
CAGGTACAAG TACAAGTTCA GCAGCCCCAA CAAGTACAGA TGCAAGTTCA ACCTCAACAG 
TCGAATGCAG GAGTTGGTCA GCCTGCCTCT GGTGAGTCGA GTCTGATTAA ACAGCTTCTG 
CTTCCGAAAC GTGGTCCTTC AACACCAGGT GGTAAGCTTA TTCTCCCAGC TCCACAGATT 
CCTCCCCCTA ATAATGCAAG AGCTCCTAGC CCTCAGGTGG TCTATCAGGT GGCCAGTAAC 
CAAGCCGCAG GTTTTGGAGT GCAGGGGCAA ACTCCAGCTC AGCAGCTATT GGTTGGGCAG 
CAAAATGTTC AGTTGGTCCC AAGTGCAATG CCACCCTCAG GGGGAGTACA AACTGTGCCC 
ATTTCGAACT TACAAATATT GCCAGGTCCA CTGATCTCAA ATAGCCCAGC AACCATTTTC 
CAAGGGACTT CTGGCAACCA GGTAACCATA ACAGTTGTGC CAAATACGAG TTTTGCACCT 
GCAACTGTGA GTCAGGGAAA TGCAACTCAG CTCATTGCTC CAGCAGGAAT TACCATGAGC 
GGAACGCAGA CAGGAGTTGG ACTTCCAGTA CAAACGCTTC CAGCCACTCA AGCATCTCCT 
GCTGGACAAT CATCATGTAC TACTGCTACT CCCCCATTCA AAGGTGATAA AATAATTTGC 
CAAAAGGAGG AGGAAGCAAA GGAAGCAACA GGTTTACATG TTCATGAACG TAAAATTGAA 
GTCATGGAGA ACCCGTCCTG CCGACGAGGA GCCACAAACA CCAGCAATGG GGATACAAAG 
GAAAATGAAA TGCATGTGGG AAGTCTTTTA AATGGGAGAA AGTACAGTGA CTCAAGTCTA 
CCTCCTTCAA ACTCAGGGAA AATTCAAAGT GAGACTAATC AGTGCTCACT AATCAGTAAT 
GGGCCATCAT TGGAATTAGG TGAGAATGGA GCATCTGGGA AACAGAACTC AGAACAAATA 
GACATGCAAG ATATCAAAAG TGATTTGAGA AAACCGCTAG TTAATGGAAT CTGTGATTTT 
GATAAAGGAG ATGGTTCTCA TTTAAGCAAA AACATTCCAA ATCATAAAAC TTCCAATCAT 
GTAGGAAATG GTGAGATATC TCCAATGGAA CCACAAGGGA CTTTAGATAT CACTCAGCAA 
GATACTGCCA AAGGTGATCA ACTAGAAAGA ATTTCTAATG GACCTGTATT AACTTTGGGT 
GGTTCATCTG TGAGCAGTAT ACAGGAGGCT TCAAATGCGG CAACACAGCA ATTTAGTGGT 
ACTGATTTGC TTAATGGACC TCTAGCTTCA AGTTTGAATT CAGATGTGCC TCAGCAACGC 
CCAAGTGTAG TTGTCTCACC ACATTCTACA ACCTCTGTTA TACAGGGACA TCAAATCATA 
GCAGTTCCCG ACTCAGGATC AAAAGTATCC CATTCTCCTG CCCTATCATC TGACGTTCGG 
TCTACAAATG GCACAGCAGA ATGCAAAACT GTAAAGAGGC CAGCAGAGGA TACTGATAGG 
GAAACAGTCG CAGGAATTCC AAATAAAGTA GGAGTTAGAA TTGTTACAAT CAGTGACCCC 
AACAATGCTG GCTGCAGCGC AACAATGGTT GCTGTGCCAG CAGGAGCAGA TCCAAGCACT 
GTAGCTAAAG TAGCAATAGA AAGTGCTGTT CAGCAAAAGC AACAGCATCC ACCAACATAT 
GTACAGAATG TGGTCCCGCA GAACACTCCT ATGCCACCTT CACCAGCTGT ACAAGTGCAG 
GGCCAGCCTA ACAGTTCTCA GCCTTCTCCA TTCAGTGGAT CCAGTCAGCC TGGAGATCCA 
ATGAGAAAAC CTGGACAGAA CTTCATGTGT CTGTGGCAGT CTTGTAAAAA GTGGTTTCAG 
ACACCCTCAC AGGTTTTCTA CCATGCAGCA ACTGAACATG GAGGAAAAGA TGTATATCCA 
GGGCAGTGTC TTTGGGAAGG TTGTGAGCCT TTTCAGCGAC AGCGGTTTTC TTTTATTACC 
CACTTGCAGG ATAAGCACTG TTCAAAGGAT GCCCTACTTG CAGGATTAAA ACAAGATGAA 
CCAGGACAAG CAGGAAGTCA GAAGTCTTCT ACCAAGCAGC CAACTGTAGG GGGCACAAGC 
TCAACTCCTA GAGCACAAAA GGCCATTGTG AATCATCCCA GTGCTGCACT TATGGCTCTG 
AGGAGAGGAT CAAGAAACCT TGTCTTTCGA GATTTTACAG ATGAAAAAGA GGGACCAATA 
ACTAAACACA TCCGACTAAC AGCTGCCTTA ATATTAAAAA ATATTGGTAA ATATTCAGAA 
TGTGGTCGCA GATTGTTAAA GAGACATGAA AATAACTTAT CAGTGCTAGC CATTAGTAAC 
ATGGAAGCTT CCTCCACCCT TGCCAAATGC CTTTATGAAC TTAATTTTAC AGTTCAGAGT 
AAGGAACAAG AAAAAGACTC AGAAATGCTG CAGTGA

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

RefSeq	XP_011536327.1
CDS	740..4615
Translation	MYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRRLLKRHENNLSVLAISNMEASSTLAKCLYELNFTVQSKEQEKDSEMLQ

Target ORF information:

RefSeq Version	XM_011538025.1
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X3, mRNA.

Target ORF information:

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

XM_011538025.1

ORF Insert Sequence:

ATGTATTCTG AATACCTCTC GACTTGCAGT AAATTAGCTC GTGGTGGAAT CCTAACATCA 
ACTGGATTTT ATAAATGTCT TAGAACGGTC TTTCCAAATC ATACAGTGAA GAGAGTGGAG 
GATTCCAGTA GCAATGGGCA GGCACATATT CATGTGGTAG GAGTAAAACG GAGGGCTATA 
CCACTTCCCA TTCAGATGTA CTATCAGCAG CAACCAGTTT CTACTTCTGT TGTTCGTGTT 
GATTCTGTTC CTGATGTATC TCCTGCTCCT TCACCTGCAG GAATCCCTCA TGGATCACAA 
ACCATAGGAA ACCATTTTCA GAGGACTCCT GTTGCCAACC AATCTTCAAA TCTGACTGCA 
ACACAAATGT CTTTTCCTGT ACAAGGTGTT CATACTGTGG CACAAACTGT TTCAAGAATT 
CCACAAAATC CTTCACCTCA TACCCACCAG CAACAAAATG CTCCAGTGAC TGTCATTCAA 
AGTAAAGCTC CAATTCCTTG TGAAGTTGTT AAGGCTACAG TTATCCAGAA TTCCATACCC 
CAGACAGGAG TTCCTGTTAG TATTGCTGTT GGAGGAGGAC CTCCACAGAG TTCTGTTGTT 
CAGAATCATA GTACAGGGCC ACAACCTGTT ACAGTTGTGA ATTCTCAGAC ATTGCTTCAC 
CATCCATCTG TAATTCCACA GCAGTCTCCA TTACACACAG TGGTACCAGG ACAGATCCCT 
TCAGGCACTC CTGTTACAGT AATTCAACAA GCTGTCCCAC AGAGTCATAT GTTTGGCAGA 
GTACAGAACA TACCAGCATG TACTTCTACA GTTTCACAGG GTCAACAGTT AATCACCACA 
TCACCCCAAC CTGTGCAAAC TTCATCTCAA CAGACATCAG CTGGTAGCCA GTCACAAGAT 
ACTGTTATCA TAGCACCCCC ACAGTATGTA ACAACTTCTG CATCCAATAT TGTCTCAGCA 
ACTTCAGTAC AGAATTTTCA GGTAGCTACA GGACAAATGG TTACTATTGC TGGTGTCCCA 
AGTCCACAAG CCTCAAGGGT AGGGTTTCAG AACATTGCAC CAAAACCTCT CCCTTCTCAG 
CAAGTTTCAT CTACAGTGGT ACAGCAGCCT ATTCAACAAC CACAGCAGCC AACCCAACAA 
AGCGTAGTGA TTGTAAGCCA GCCAGCTCAA CAAGGTCAAA CTTATGCACC AGCCATTCAC 
CAAATTGTTC TTGCTAATCC AGCAGCTCTT CCAGCTGGTC AGACAGTTCA GCTAACTGGA 
CAACCTAACA TAACTCCATC TTCTTCACCA TCACCTGTCC CAGCTACTAA TAACCAAGTC 
CCTACTGCCA TGTCGTCGTC CTCTACCCCT CAATCACAGG GACCACCTCC TACTGTCAGT 
CAAATGTTAT CTGTGAAAAG GCAGCAACAG CAGCAACATT CACCAGCACC CCCACCACAG 
CAGGTACAAG TACAAGTTCA GCAGCCCCAA CAAGTACAGA TGCAAGTTCA ACCTCAACAG 
TCGAATGCAG GAGTTGGTCA GCCTGCCTCT GGTGAGTCGA GTCTGATTAA ACAGCTTCTG 
CTTCCGAAAC GTGGTCCTTC AACACCAGGT GGTAAGCTTA TTCTCCCAGC TCCACAGATT 
CCTCCCCCTA ATAATGCAAG AGCTCCTAGC CCTCAGGTGG TCTATCAGGT GGCCAGTAAC 
CAAGCCGCAG GTTTTGGAGT GCAGGGGCAA ACTCCAGCTC AGCAGCTATT GGTTGGGCAG 
CAAAATGTTC AGTTGGTCCC AAGTGCAATG CCACCCTCAG GGGGAGTACA AACTGTGCCC 
ATTTCGAACT TACAAATATT GCCAGGTCCA CTGATCTCAA ATAGCCCAGC AACCATTTTC 
CAAGGGACTT CTGGCAACCA GGTAACCATA ACAGTTGTGC CAAATACGAG TTTTGCACCT 
GCAACTGTGA GTCAGGGAAA TGCAACTCAG CTCATTGCTC CAGCAGGAAT TACCATGAGC 
GGAACGCAGA CAGGAGTTGG ACTTCCAGTA CAAACGCTTC CAGCCACTCA AGCATCTCCT 
GCTGGACAAT CATCATGTAC TACTGCTACT CCCCCATTCA AAGGTGATAA AATAATTTGC 
CAAAAGGAGG AGGAAGCAAA GGAAGCAACA GGTTTACATG TTCATGAACG TAAAATTGAA 
GTCATGGAGA ACCCGTCCTG CCGACGAGGA GCCACAAACA CCAGCAATGG GGATACAAAG 
GAAAATGAAA TGCATGTGGG AAGTCTTTTA AATGGGAGAA AGTACAGTGA CTCAAGTCTA 
CCTCCTTCAA ACTCAGGGAA AATTCAAAGT GAGACTAATC AGTGCTCACT AATCAGTAAT 
GGGCCATCAT TGGAATTAGG TGAGAATGGA GCATCTGGGA AACAGAACTC AGAACAAATA 
GACATGCAAG ATATCAAAAG TGATTTGAGA AAACCGCTAG TTAATGGAAT CTGTGATTTT 
GATAAAGGAG ATGGTTCTCA TTTAAGCAAA AACATTCCAA ATCATAAAAC TTCCAATCAT 
GTAGGAAATG GTGAGATATC TCCAATGGAA CCACAAGGGA CTTTAGATAT CACTCAGCAA 
GATACTGCCA AAGGTGATCA ACTAGAAAGA ATTTCTAATG GACCTGTATT AACTTTGGGT 
GGTTCATCTG TGAGCAGTAT ACAGGAGGCT TCAAATGCGG CAACACAGCA ATTTAGTGGT 
ACTGATTTGC TTAATGGACC TCTAGCTTCA AGTTTGAATT CAGATGTGCC TCAGCAACGC 
CCAAGTGTAG TTGTCTCACC ACATTCTACA ACCTCTGTTA TACAGGGACA TCAAATCATA 
GCAGTTCCCG ACTCAGGATC AAAAGTATCC CATTCTCCTG CCCTATCATC TGACGTTCGG 
TCTACAAATG GCACAGCAGA ATGCAAAACT GTAAAGAGGC CAGCAGAGGA TACTGATAGG 
GAAACAGTCG CAGGAATTCC AAATAAAGTA GGAGTTAGAA TTGTTACAAT CAGTGACCCC 
AACAATGCTG GCTGCAGCGC AACAATGGTT GCTGTGCCAG CAGGAGCAGA TCCAAGCACT 
GTAGCTAAAG TAGCAATAGA AAGTGCTGTT CAGCAAAAGC AACAGCATCC ACCAACATAT 
GTACAGAATG TGGTCCCGCA GAACACTCCT ATGCCACCTT CACCAGCTGT ACAAGTGCAG 
GGCCAGCCTA ACAGTTCTCA GCCTTCTCCA TTCAGTGGAT CCAGTCAGCC TGGAGATCCA 
ATGAGAAAAC CTGGACAGAA CTTCATGTGT CTGTGGCAGT CTTGTAAAAA GTGGTTTCAG 
ACACCCTCAC AGGTTTTCTA CCATGCAGCA ACTGAACATG GAGGAAAAGA TGTATATCCA 
GGGCAGTGTC TTTGGGAAGG TTGTGAGCCT TTTCAGCGAC AGCGGTTTTC TTTTATTACC 
CACTTGCAGG ATAAGCACTG TTCAAAGGAT GCCCTACTTG CAGGATTAAA ACAAGATGAA 
CCAGGACAAG CAGGAAGTCA GAAGTCTTCT ACCAAGCAGC CAACTGTAGG GGGCACAAGC 
TCAACTCCTA GAGCACAAAA GGCCATTGTG AATCATCCCA GTGCTGCACT TATGGCTCTG 
AGGAGAGGAT CAAGAAACCT TGTCTTTCGA GATTTTACAG ATGAAAAAGA GGGACCAATA 
ACTAAACACA TCCGACTAAC AGCTGCCTTA ATATTAAAAA ATATTGGTAA ATATTCAGAA 
TGTGGTCGCA GATTGTTAAA GAGACATGAA AATAACTTAT CAGTGCTAGC CATTAGTAAC 
ATGGAAGCTT CCTCCACCCT TGCCAAATGC CTTTATGAAC TTAATTTTAC AGTTCAGAGT 
AAGGAACAAG AAAAAGACTC AGAAATGCTG CAGTGA

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

ARID2 ( NM_001347839.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001334768.1 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu101432
Clone ID Related Accession (Same CDS sequence)	NM_001347839.1
Accession Version	NM_001347839.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5367bp) 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	2019-09-24
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC008124.8, CR749833.1 and AC009464.8. Transcript Variant: This variant (2) differs in the 3' UTR and 3' coding region compared to isoform 1. The encoded isoform (2) has a shorter C-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: CR749833.1, SRR1803613.174316.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGGTGA

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

RefSeq	NP_001334768.1
CDS	129..5495
Translation	MANSTGKAPPDERRKGLAFLDELRQFHHSRGSPFKKIPAVGGKELDLHGLYTRVTTLGGFAKVSEKNQWGEIVEEFNFPRSCSNAAFALKQYYLRYLEKYEKVHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLRQSYGLSMDFNSPNDYNKLVLSLLSGLPNEVDFAINVCTLLSNESKHVMQLEKDPKIITLLLANAGVFDDTLGSFSTVFGEEWKEKTDRDFVKFWKDIVDDNEVRDLISDRNKSHEGTSGEWIWESLFHPPRKLGINDIEGQRVLQIAVILRNLSFEEGNVKLLAANRTCLRFLLLSAHSHFISLRQLGLDTLGNIAAELLLDPVDFKTTHLMFHTVTKCLMSRDRFLKMRGMEILGNLCKAEDNGVLICEYVDQDSYREIICHLTLPDVLLVISTLEVLYMLTEMGDVACTKIAKVEKSIDMLVCLVSMDIQMFGPDALAAVKLIEHPSSSHQMLSEIRPQAIEQVQTQTHVASAPASRAVVAQHVAPPPGIVEIDSEKFACQWLNAHFEVNPDCSVSRAEMYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRR

Target ORF information:

RefSeq Version	NM_001347839.1
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 2, mRNA.

Target ORF information:

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

NM_001347839.1

ORF Insert Sequence:

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGGTGA

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

ARID2 ( NM_152641.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_689854.2 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.

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CloneID	OHu06869
Clone ID Related Accession (Same CDS sequence)	NM_152641.4 , NM_152641.3
Accession Version	NM_152641.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5508bp) 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	2019-09-27
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC008124.8, DQ096628.1, AC009464.8 and BX537879.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_152641.3. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.110706.1, SRR1803613.117100.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000334344.11/ ENSP00000335044.6 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGATTGTTA AAGAGACATG AAAATAACTT ATCAGTGCTA 
GCCATTAGTA ACATGGAAGC TTCCTCCACC CTTGCCAAAT GCCTTTATGA ACTTAATTTT 
ACAGTTCAGA GTAAGGAACA AGAAAAAGAC TCAGAAATGC TGCAGTGA

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

RefSeq	NP_689854.2
CDS	132..5639
Translation	MANSTGKAPPDERRKGLAFLDELRQFHHSRGSPFKKIPAVGGKELDLHGLYTRVTTLGGFAKVSEKNQWGEIVEEFNFPRSCSNAAFALKQYYLRYLEKYEKVHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLRQSYGLSMDFNSPNDYNKLVLSLLSGLPNEVDFAINVCTLLSNESKHVMQLEKDPKIITLLLANAGVFDDTLGSFSTVFGEEWKEKTDRDFVKFWKDIVDDNEVRDLISDRNKSHEGTSGEWIWESLFHPPRKLGINDIEGQRVLQIAVILRNLSFEEGNVKLLAANRTCLRFLLLSAHSHFISLRQLGLDTLGNIAAELLLDPVDFKTTHLMFHTVTKCLMSRDRFLKMRGMEILGNLCKAEDNGVLICEYVDQDSYREIICHLTLPDVLLVISTLEVLYMLTEMGDVACTKIAKVEKSIDMLVCLVSMDIQMFGPDALAAVKLIEHPSSSHQMLSEIRPQAIEQVQTQTHVASAPASRAVVAQHVAPPPGIVEIDSEKFACQWLNAHFEVNPDCSVSRAEMYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRRLLKRHENNLSVLAISNMEASSTLAKCLYELNFTVQSKEQEKDSEMLQ

Target ORF information:

RefSeq Version	NM_152641.4
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.

Target ORF information:

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

NM_152641.4

ORF Insert Sequence:

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGATTGTTA AAGAGACATG AAAATAACTT ATCAGTGCTA 
GCCATTAGTA ACATGGAAGC TTCCTCCACC CTTGCCAAAT GCCTTTATGA ACTTAATTTT 
ACAGTTCAGA GTAAGGAACA AGAAAAAGAC TCAGAAATGC TGCAGTGA

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

ARID2 ( NM_152641.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_689854.2 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.

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CloneID	OHu06869
Clone ID Related Accession (Same CDS sequence)	NM_152641.4 , NM_152641.3
Accession Version	NM_152641.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5508bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2017-12-17
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC008124.8, DQ096628.1, AC009464.8 and BX537879.1. This sequence is a reference standard in the RefSeqGene project. On Dec 15, 2016 this sequence version replaced NM_152641.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.110706.1, SRR1803613.117100.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGATTGTTA AAGAGACATG AAAATAACTT ATCAGTGCTA 
GCCATTAGTA ACATGGAAGC TTCCTCCACC CTTGCCAAAT GCCTTTATGA ACTTAATTTT 
ACAGTTCAGA GTAAGGAACA AGAAAAAGAC TCAGAAATGC TGCAGTGA

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

RefSeq	NP_689854.2
CDS	129..5636
Translation	MANSTGKAPPDERRKGLAFLDELRQFHHSRGSPFKKIPAVGGKELDLHGLYTRVTTLGGFAKVSEKNQWGEIVEEFNFPRSCSNAAFALKQYYLRYLEKYEKVHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLRQSYGLSMDFNSPNDYNKLVLSLLSGLPNEVDFAINVCTLLSNESKHVMQLEKDPKIITLLLANAGVFDDTLGSFSTVFGEEWKEKTDRDFVKFWKDIVDDNEVRDLISDRNKSHEGTSGEWIWESLFHPPRKLGINDIEGQRVLQIAVILRNLSFEEGNVKLLAANRTCLRFLLLSAHSHFISLRQLGLDTLGNIAAELLLDPVDFKTTHLMFHTVTKCLMSRDRFLKMRGMEILGNLCKAEDNGVLICEYVDQDSYREIICHLTLPDVLLVISTLEVLYMLTEMGDVACTKIAKVEKSIDMLVCLVSMDIQMFGPDALAAVKLIEHPSSSHQMLSEIRPQAIEQVQTQTHVASAPASRAVVAQHVAPPPGIVEIDSEKFACQWLNAHFEVNPDCSVSRAEMYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRRLLKRHENNLSVLAISNMEASSTLAKCLYELNFTVQSKEQEKDSEMLQ

Target ORF information:

RefSeq Version	NM_152641.3
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant 1, mRNA.

Target ORF information:

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

NM_152641.3

ORF Insert Sequence:

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGATTGTTA AAGAGACATG AAAATAACTT ATCAGTGCTA 
GCCATTAGTA ACATGGAAGC TTCCTCCACC CTTGCCAAAT GCCTTTATGA ACTTAATTTT 
ACAGTTCAGA GTAAGGAACA AGAAAAAGAC TCAGAAATGC TGCAGTGA

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

ARID2 ( XM_006719272.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006719335.1 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.

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CloneID	OHu46374
Clone ID Related Accession (Same CDS sequence)	XM_006719272.3 , XM_006719272.4
Accession Version	XM_006719272.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5382bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006719272.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGAAACATG AATGAAGATT GA

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

RefSeq	XP_006719335.1
CDS	155..5536
Translation	MANSTGKAPPDERRKGLAFLDELRQFHHSRGSPFKKIPAVGGKELDLHGLYTRVTTLGGFAKVSEKNQWGEIVEEFNFPRSCSNAAFALKQYYLRYLEKYEKVHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLRQSYGLSMDFNSPNDYNKLVLSLLSGLPNEVDFAINVCTLLSNESKHVMQLEKDPKIITLLLANAGVFDDTLGSFSTVFGEEWKEKTDRDFVKFWKDIVDDNEVRDLISDRNKSHEGTSGEWIWESLFHPPRKLGINDIEGQRVLQIAVILRNLSFEEGNVKLLAANRTCLRFLLLSAHSHFISLRQLGLDTLGNIAAELLLDPVDFKTTHLMFHTVTKCLMSRDRFLKMRGMEILGNLCKAEDNGVLICEYVDQDSYREIICHLTLPDVLLVISTLEVLYMLTEMGDVACTKIAKVEKSIDMLVCLVSMDIQMFGPDALAAVKLIEHPSSSHQMLSEIRPQAIEQVQTQTHVASAPASRAVVAQHVAPPPGIVEIDSEKFACQWLNAHFEVNPDCSVSRAEMYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRRNMNED

Target ORF information:

RefSeq Version	XM_006719272.3
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.

Target ORF information:

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

XM_006719272.3

ORF Insert Sequence:

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGAAACATG AATGAAGATT GA

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

ARID2 ( XM_006719272.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_006719335.1 Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.

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CloneID	OHu46374
Clone ID Related Accession (Same CDS sequence)	XM_006719272.3 , XM_006719272.4
Accession Version	XM_006719272.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5382bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	AT-rich interactive domain-containing protein 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006719272.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGAAACATG AATGAAGATT GA

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

RefSeq	XP_006719335.1
CDS	132..5513
Translation	MANSTGKAPPDERRKGLAFLDELRQFHHSRGSPFKKIPAVGGKELDLHGLYTRVTTLGGFAKVSEKNQWGEIVEEFNFPRSCSNAAFALKQYYLRYLEKYEKVHHFGEDDDEVPPGNPKPQLPIGAIPSSYNYQQHSVSDYLRQSYGLSMDFNSPNDYNKLVLSLLSGLPNEVDFAINVCTLLSNESKHVMQLEKDPKIITLLLANAGVFDDTLGSFSTVFGEEWKEKTDRDFVKFWKDIVDDNEVRDLISDRNKSHEGTSGEWIWESLFHPPRKLGINDIEGQRVLQIAVILRNLSFEEGNVKLLAANRTCLRFLLLSAHSHFISLRQLGLDTLGNIAAELLLDPVDFKTTHLMFHTVTKCLMSRDRFLKMRGMEILGNLCKAEDNGVLICEYVDQDSYREIICHLTLPDVLLVISTLEVLYMLTEMGDVACTKIAKVEKSIDMLVCLVSMDIQMFGPDALAAVKLIEHPSSSHQMLSEIRPQAIEQVQTQTHVASAPASRAVVAQHVAPPPGIVEIDSEKFACQWLNAHFEVNPDCSVSRAEMYSEYLSTCSKLARGGILTSTGFYKCLRTVFPNHTVKRVEDSSSNGQAHIHVVGVKRRAIPLPIQMYYQQQPVSTSVVRVDSVPDVSPAPSPAGIPHGSQTIGNHFQRTPVANQSSNLTATQMSFPVQGVHTVAQTVSRIPQNPSPHTHQQQNAPVTVIQSKAPIPCEVVKATVIQNSIPQTGVPVSIAVGGGPPQSSVVQNHSTGPQPVTVVNSQTLLHHPSVIPQQSPLHTVVPGQIPSGTPVTVIQQAVPQSHMFGRVQNIPACTSTVSQGQQLITTSPQPVQTSSQQTSAGSQSQDTVIIAPPQYVTTSASNIVSATSVQNFQVATGQMVTIAGVPSPQASRVGFQNIAPKPLPSQQVSSTVVQQPIQQPQQPTQQSVVIVSQPAQQGQTYAPAIHQIVLANPAALPAGQTVQLTGQPNITPSSSPSPVPATNNQVPTAMSSSSTPQSQGPPPTVSQMLSVKRQQQQQHSPAPPPQQVQVQVQQPQQVQMQVQPQQSNAGVGQPASGESSLIKQLLLPKRGPSTPGGKLILPAPQIPPPNNARAPSPQVVYQVASNQAAGFGVQGQTPAQQLLVGQQNVQLVPSAMPPSGGVQTVPISNLQILPGPLISNSPATIFQGTSGNQVTITVVPNTSFAPATVSQGNATQLIAPAGITMSGTQTGVGLPVQTLPATQASPAGQSSCTTATPPFKGDKIICQKEEEAKEATGLHVHERKIEVMENPSCRRGATNTSNGDTKENEMHVGSLLNGRKYSDSSLPPSNSGKIQSETNQCSLISNGPSLELGENGASGKQNSEQIDMQDIKSDLRKPLVNGICDFDKGDGSHLSKNIPNHKTSNHVGNGEISPMEPQGTLDITQQDTAKGDQLERISNGPVLTLGGSSVSSIQEASNAATQQFSGTDLLNGPLASSLNSDVPQQRPSVVVSPHSTTSVIQGHQIIAVPDSGSKVSHSPALSSDVRSTNGTAECKTVKRPAEDTDRETVAGIPNKVGVRIVTISDPNNAGCSATMVAVPAGADPSTVAKVAIESAVQQKQQHPPTYVQNVVPQNTPMPPSPAVQVQGQPNSSQPSPFSGSSQPGDPMRKPGQNFMCLWQSCKKWFQTPSQVFYHAATEHGGKDVYPGQCLWEGCEPFQRQRFSFITHLQDKHCSKDALLAGLKQDEPGQAGSQKSSTKQPTVGGTSSTPRAQKAIVNHPSAALMALRRGSRNLVFRDFTDEKEGPITKHIRLTAALILKNIGKYSECGRRNMNED

Target ORF information:

RefSeq Version	XM_006719272.4
Organism	Homo sapiens(human)
Definition	Homo sapiens AT-rich interaction domain 2 (ARID2), transcript variant X1, mRNA.

Target ORF information:

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

XM_006719272.4

ORF Insert Sequence:

ATGGCAAACT CGACGGGGAA GGCGCCTCCG GACGAGCGGA GAAAGGGACT CGCTTTCCTG 
GACGAGCTGC GGCAGTTCCA CCACAGCAGA GGGTCGCCTT TTAAAAAAAT CCCTGCGGTG 
GGTGGGAAGG AGCTGGATCT TCACGGTCTC TACACCAGAG TCACTACTTT AGGCGGATTC 
GCGAAGGTTT CTGAGAAGAA TCAGTGGGGA GAAATTGTTG AAGAGTTCAA CTTTCCCAGA 
AGTTGTTCTA ACGCTGCCTT TGCTTTAAAA CAGTATTACT TGCGTTACCT AGAAAAGTAC 
GAGAAAGTTC ATCATTTTGG GGAGGATGAT GATGAGGTAC CACCAGGCAA TCCAAAGCCA 
CAGCTTCCTA TTGGTGCAAT TCCATCTTCC TACAATTACC AGCAACACAG TGTGTCGGAT 
TATCTGCGTC AAAGTTATGG GCTGTCCATG GACTTTAATT CGCCAAATGA TTATAATAAA 
TTGGTGCTTT CACTGTTATC TGGACTCCCA AATGAAGTGG ACTTTGCTAT TAACGTATGC 
ACTCTCCTAT CAAATGAAAG CAAGCACGTC ATGCAACTTG AAAAAGATCC TAAAATCATC 
ACTTTACTAC TTGCTAATGC CGGGGTGTTT GACGACACTT TAGGATCCTT TTCCACTGTA 
TTTGGAGAAG AATGGAAAGA GAAGACTGAT AGAGACTTCG TTAAGTTTTG GAAAGACATC 
GTTGATGATA ATGAAGTTCG TGACCTCATT TCTGACAGAA ACAAGTCTCA TGAAGGTACA 
TCAGGAGAAT GGATTTGGGA GTCTTTATTT CATCCACCTC GAAAGCTGGG CATTAACGAT 
ATTGAAGGAC AGCGGGTACT TCAGATTGCA GTGATTTTGA GAAATCTTTC CTTTGAGGAG 
GGCAATGTTA AGCTCTTGGC AGCTAATCGT ACCTGTCTTC GTTTCCTATT ACTTTCTGCA 
CATAGTCATT TTATTTCTTT AAGGCAATTA GGCCTTGACA CATTAGGAAA TATTGCAGCT 
GAGCTTTTAC TGGACCCTGT TGATTTCAAA ACTACTCATC TGATGTTTCA TACTGTTACA 
AAATGTCTAA TGTCAAGGGA TAGATTTTTA AAGATGAGAG GCATGGAAAT TTTGGGAAAT 
CTTTGCAAAG CAGAAGATAA TGGTGTTTTA ATTTGTGAAT ATGTGGATCA GGATTCCTAC 
AGAGAGATCA TTTGTCATCT CACTTTACCT GATGTGCTGC TTGTAATCTC AACACTCGAG 
GTGCTATACA TGCTCACGGA AATGGGAGAT GTTGCTTGCA CAAAAATTGC AAAAGTAGAA 
AAGAGCATAG ACATGTTAGT GTGTCTGGTT TCTATGGATA TTCAGATGTT TGGCCCTGAT 
GCACTAGCTG CGGTAAAACT CATTGAACAC CCAAGTTCCA GTCATCAAAT GTTATCTGAA 
ATTAGGCCAC AAGCTATAGA GCAAGTCCAA ACCCAGACTC ATGTAGCATC TGCCCCAGCT 
TCCAGAGCAG TTGTAGCGCA GCATGTTGCT CCACCTCCAG GAATAGTGGA AATAGATAGT 
GAGAAGTTTG CTTGTCAGTG GCTAAATGCT CATTTTGAAG TAAATCCAGA TTGTTCTGTT 
TCTCGAGCAG AAATGTATTC TGAATACCTC TCGACTTGCA GTAAATTAGC TCGTGGTGGA 
ATCCTAACAT CAACTGGATT TTATAAATGT CTTAGAACGG TCTTTCCAAA TCATACAGTG 
AAGAGAGTGG AGGATTCCAG TAGCAATGGG CAGGCACATA TTCATGTGGT AGGAGTAAAA 
CGGAGGGCTA TACCACTTCC CATTCAGATG TACTATCAGC AGCAACCAGT TTCTACTTCT 
GTTGTTCGTG TTGATTCTGT TCCTGATGTA TCTCCTGCTC CTTCACCTGC AGGAATCCCT 
CATGGATCAC AAACCATAGG AAACCATTTT CAGAGGACTC CTGTTGCCAA CCAATCTTCA 
AATCTGACTG CAACACAAAT GTCTTTTCCT GTACAAGGTG TTCATACTGT GGCACAAACT 
GTTTCAAGAA TTCCACAAAA TCCTTCACCT CATACCCACC AGCAACAAAA TGCTCCAGTG 
ACTGTCATTC AAAGTAAAGC TCCAATTCCT TGTGAAGTTG TTAAGGCTAC AGTTATCCAG 
AATTCCATAC CCCAGACAGG AGTTCCTGTT AGTATTGCTG TTGGAGGAGG ACCTCCACAG 
AGTTCTGTTG TTCAGAATCA TAGTACAGGG CCACAACCTG TTACAGTTGT GAATTCTCAG 
ACATTGCTTC ACCATCCATC TGTAATTCCA CAGCAGTCTC CATTACACAC AGTGGTACCA 
GGACAGATCC CTTCAGGCAC TCCTGTTACA GTAATTCAAC AAGCTGTCCC ACAGAGTCAT 
ATGTTTGGCA GAGTACAGAA CATACCAGCA TGTACTTCTA CAGTTTCACA GGGTCAACAG 
TTAATCACCA CATCACCCCA ACCTGTGCAA ACTTCATCTC AACAGACATC AGCTGGTAGC 
CAGTCACAAG ATACTGTTAT CATAGCACCC CCACAGTATG TAACAACTTC TGCATCCAAT 
ATTGTCTCAG CAACTTCAGT ACAGAATTTT CAGGTAGCTA CAGGACAAAT GGTTACTATT 
GCTGGTGTCC CAAGTCCACA AGCCTCAAGG GTAGGGTTTC AGAACATTGC ACCAAAACCT 
CTCCCTTCTC AGCAAGTTTC ATCTACAGTG GTACAGCAGC CTATTCAACA ACCACAGCAG 
CCAACCCAAC AAAGCGTAGT GATTGTAAGC CAGCCAGCTC AACAAGGTCA AACTTATGCA 
CCAGCCATTC ACCAAATTGT TCTTGCTAAT CCAGCAGCTC TTCCAGCTGG TCAGACAGTT 
CAGCTAACTG GACAACCTAA CATAACTCCA TCTTCTTCAC CATCACCTGT CCCAGCTACT 
AATAACCAAG TCCCTACTGC CATGTCGTCG TCCTCTACCC CTCAATCACA GGGACCACCT 
CCTACTGTCA GTCAAATGTT ATCTGTGAAA AGGCAGCAAC AGCAGCAACA TTCACCAGCA 
CCCCCACCAC AGCAGGTACA AGTACAAGTT CAGCAGCCCC AACAAGTACA GATGCAAGTT 
CAACCTCAAC AGTCGAATGC AGGAGTTGGT CAGCCTGCCT CTGGTGAGTC GAGTCTGATT 
AAACAGCTTC TGCTTCCGAA ACGTGGTCCT TCAACACCAG GTGGTAAGCT TATTCTCCCA 
GCTCCACAGA TTCCTCCCCC TAATAATGCA AGAGCTCCTA GCCCTCAGGT GGTCTATCAG 
GTGGCCAGTA ACCAAGCCGC AGGTTTTGGA GTGCAGGGGC AAACTCCAGC TCAGCAGCTA 
TTGGTTGGGC AGCAAAATGT TCAGTTGGTC CCAAGTGCAA TGCCACCCTC AGGGGGAGTA 
CAAACTGTGC CCATTTCGAA CTTACAAATA TTGCCAGGTC CACTGATCTC AAATAGCCCA 
GCAACCATTT TCCAAGGGAC TTCTGGCAAC CAGGTAACCA TAACAGTTGT GCCAAATACG 
AGTTTTGCAC CTGCAACTGT GAGTCAGGGA AATGCAACTC AGCTCATTGC TCCAGCAGGA 
ATTACCATGA GCGGAACGCA GACAGGAGTT GGACTTCCAG TACAAACGCT TCCAGCCACT 
CAAGCATCTC CTGCTGGACA ATCATCATGT ACTACTGCTA CTCCCCCATT CAAAGGTGAT 
AAAATAATTT GCCAAAAGGA GGAGGAAGCA AAGGAAGCAA CAGGTTTACA TGTTCATGAA 
CGTAAAATTG AAGTCATGGA GAACCCGTCC TGCCGACGAG GAGCCACAAA CACCAGCAAT 
GGGGATACAA AGGAAAATGA AATGCATGTG GGAAGTCTTT TAAATGGGAG AAAGTACAGT 
GACTCAAGTC TACCTCCTTC AAACTCAGGG AAAATTCAAA GTGAGACTAA TCAGTGCTCA 
CTAATCAGTA ATGGGCCATC ATTGGAATTA GGTGAGAATG GAGCATCTGG GAAACAGAAC 
TCAGAACAAA TAGACATGCA AGATATCAAA AGTGATTTGA GAAAACCGCT AGTTAATGGA 
ATCTGTGATT TTGATAAAGG AGATGGTTCT CATTTAAGCA AAAACATTCC AAATCATAAA 
ACTTCCAATC ATGTAGGAAA TGGTGAGATA TCTCCAATGG AACCACAAGG GACTTTAGAT 
ATCACTCAGC AAGATACTGC CAAAGGTGAT CAACTAGAAA GAATTTCTAA TGGACCTGTA 
TTAACTTTGG GTGGTTCATC TGTGAGCAGT ATACAGGAGG CTTCAAATGC GGCAACACAG 
CAATTTAGTG GTACTGATTT GCTTAATGGA CCTCTAGCTT CAAGTTTGAA TTCAGATGTG 
CCTCAGCAAC GCCCAAGTGT AGTTGTCTCA CCACATTCTA CAACCTCTGT TATACAGGGA 
CATCAAATCA TAGCAGTTCC CGACTCAGGA TCAAAAGTAT CCCATTCTCC TGCCCTATCA 
TCTGACGTTC GGTCTACAAA TGGCACAGCA GAATGCAAAA CTGTAAAGAG GCCAGCAGAG 
GATACTGATA GGGAAACAGT CGCAGGAATT CCAAATAAAG TAGGAGTTAG AATTGTTACA 
ATCAGTGACC CCAACAATGC TGGCTGCAGC GCAACAATGG TTGCTGTGCC AGCAGGAGCA 
GATCCAAGCA CTGTAGCTAA AGTAGCAATA GAAAGTGCTG TTCAGCAAAA GCAACAGCAT 
CCACCAACAT ATGTACAGAA TGTGGTCCCG CAGAACACTC CTATGCCACC TTCACCAGCT 
GTACAAGTGC AGGGCCAGCC TAACAGTTCT CAGCCTTCTC CATTCAGTGG ATCCAGTCAG 
CCTGGAGATC CAATGAGAAA ACCTGGACAG AACTTCATGT GTCTGTGGCA GTCTTGTAAA 
AAGTGGTTTC AGACACCCTC ACAGGTTTTC TACCATGCAG CAACTGAACA TGGAGGAAAA 
GATGTATATC CAGGGCAGTG TCTTTGGGAA GGTTGTGAGC CTTTTCAGCG ACAGCGGTTT 
TCTTTTATTA CCCACTTGCA GGATAAGCAC TGTTCAAAGG ATGCCCTACT TGCAGGATTA 
AAACAAGATG AACCAGGACA AGCAGGAAGT CAGAAGTCTT CTACCAAGCA GCCAACTGTA 
GGGGGCACAA GCTCAACTCC TAGAGCACAA AAGGCCATTG TGAATCATCC CAGTGCTGCA 
CTTATGGCTC TGAGGAGAGG ATCAAGAAAC CTTGTCTTTC GAGATTTTAC AGATGAAAAA 
GAGGGACCAA TAACTAAACA CATCCGACTA ACAGCTGCCT TAATATTAAA AAATATTGGT 
AAATATTCAG AATGTGGTCG CAGAAACATG AATGAAGATT GA

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

PubMed

Confirmation of an ARID2 defect in SWI/SNF-related intellectual disability.
American journal of medical genetics. Part A173(11)3104-3108(2017 Nov)
Van Paemel R,De Bruyne P,van der Straaten S,D'hondt M,Fr?nkel U,Dheedene A,Menten B,Callewaert B

The chromatin-remodeling subunit Baf200 promotes homology-directed DNA repair and regulates distinct chromatin-remodeling complexes.
The Journal of biological chemistry292(20)8459-8471(2017 05)
de Castro RO,Previato L,Goitea V,Felberg A,Guiraldelli MF,Filiberti A,Pezza RJ

ARID2 modulates DNA damage response in human hepatocellular carcinoma cells.
Journal of hepatology66(5)942-951(2017 05)
Oba A,Shimada S,Akiyama Y,Nishikawaji T,Mogushi K,Ito H,Matsumura S,Aihara A,Mitsunori Y,Ban D,Ochiai T,Kudo A,Asahara H,Kaida A,Miura M,Tanabe M,Tanaka S

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ARID2 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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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