ARHGAP42 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ARHGAP42
Entrez Gene ID	143872
Full Name	Rho GTPase activating protein 42
Synonyms	AD031,GRAF3,TMEM133
General protein information	Preferred Names Rho GTPase activating protein 42 Names rho GTPase-activating protein 42 rho-type GTPase-activating protein 42 transmembrane protein 133
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 11 Map Location: 11q22.1
Summary	This gene encodes a Rho GTPase-activating protein (RhoGAP), and member of the GRAF or BAR-PH family of proteins. Expression of this gene is enriched in vascular smooth muscle cells and the encoded protein inhibits RhoA activity to regulate vascular tone and control blood pressure. A mutation in the first intron of this gene modulates its expression and is associated with reduced blood pressure in human patients with borderline hypertension. [provided by RefSeq, Jul 2017].
Disorder MIM:	615936

mRNA and Protein(s)

mRNA	Protein	Name
NM_152432.3	NP_689645.2	rho GTPase-activating protein 42
NM_152432.2	NP_689645.2	rho GTPase-activating protein 42
XM_011542615.2	XP_011540917.1	rho GTPase-activating protein 42 isoform X1
XM_017017238.1	XP_016872727.1	rho GTPase-activating protein 42 isoform X3
XM_011542617.2	XP_011540919.1	rho GTPase-activating protein 42 isoform X2
XM_017017237.1	XP_016872726.1	rho GTPase-activating protein 42 isoform X1
NM_001367945.1	NP_001354874.1	rho GTPase-activating protein 42 isoform 2
XM_011542616.2	XP_011540918.1	rho GTPase-activating protein 42 isoform X1
NM_152432.4	NP_689645.2	rho GTPase-activating protein 42 isoform 1

Pathways from BioSystems

Homologies

Rattus norvegicus (Norway rat)	Arhgap42	XP_576354.3
Homo sapiens (human)	ARHGAP42	NP_689645.2
Canis lupus familiaris (dog)	ARHGAP42	XP_533968.4
Danio rerio (zebrafish)	arhgap42	XP_698022.5
	ARHGAP42	XP_002799830.1
Mus musculus (house mouse)	Arhgap42	NP_082099.1
Xenopus tropicalis (tropical clawed frog)	arhgap42	XP_002935619.1
Pan troglodytes (chimpanzee)	ARHGAP42	XP_001148638.2
Bos taurus (cattle)	ARHGAP42	XP_003586980.1
Gallus gallus (chicken)	ARHGAP42	XP_417185.3

Gene Ontology
Bibliography

Related articles in PubMed

Hypertension: Role of ARHGAP42 in hypertension.
Carney EF
Nature reviews. Nephrology13(3)134(2017 Mar)

Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding.
Bai X, Mangum KD, Dee RA, Stouffer GA, Lee CR, Oni-Orisan A, Patterson C, Schisler JC, Viera AJ, Taylor JM, Mack CP
The Journal of clinical investigation127(2)670-680(2017 Feb)

The smooth muscle-selective RhoGAP GRAF3 is a critical regulator of vascular tone and hypertension.
Bai X, Lenhart KC, Bird KE, Suen AA, Rojas M, Kakoki M, Li F, Smithies O, Mack CP, Taylor JM
Nature communications42910(2013)

Genome wide association study of age at menarche in the Japanese population.
Tanikawa C, Okada Y, Takahashi A, Oda K, Kamatani N, Kubo M, Nakamura Y, Matsuda K
PloS one8(5)e63821(2013)

Genetic variants in novel pathways influence blood pressure and cardiovascular disease risk.
, Ehret GB, Munroe PB, Rice KM, Bochud M, Johnson AD, Chasman DI, Smith AV, Tobin MD, Verwoert GC, Hwang SJ, Pihur V, Vollenweider P, O'Reilly PF, Amin N, Bragg-Gresham JL, Teumer A, Glazer NL, Launer L, Zhao JH, Aulchenko Y, Heath S, S?ber S, Parsa A, Luan J, Arora P, Dehghan A, Zhang F, Lucas G, Hicks AA, Jackson AU, Peden JF, Tanaka T, Wild SH, Rudan I, Igl W, Milaneschi Y, Parker AN, Fava C, Chambers JC, Fox ER, Kumari M, Go MJ, van der Harst P, Kao WH, Sj?gren M, Vinay DG, Alexander M, Tabara Y, Shaw-Hawkins S, Whincup PH, Liu Y, Shi G, Kuusisto J, Tayo B, Seielstad M, Sim X, Nguyen KD, Lehtim?ki T, Matullo G, Wu Y, Gaunt TR, Onland-Moret NC, Cooper MN, Platou CG, Org E, Hardy R, Dahgam S, Palmen J, Vitart V, Braund PS, Kuznetsova T, Uiterwaal CS, Adeyemo A, Palmas W, Campbell H, Ludwig B, Tomaszewski M, Tzoulaki I, Palmer ND, , , , , , Aspelund T, Garcia M, Chang YP, O'Connell JR, Steinle NI, Grobbee DE, Arking DE, Kardia SL, Morrison AC, Hernandez D, Najjar S, McArdle WL, Hadley D, Brown MJ, Connell JM, Hingorani AD, Day IN, Lawlor DA, Beilby JP, Lawrence RW, Clarke R, Hopewell JC, Ongen H, Dreisbach AW, Li Y, Young JH, Bis JC, K?h?nen M, Viikari J, Adair LS, Lee NR, Chen MH, Olden M, Pattaro C, Bolton JA, K?ttgen A, Bergmann S, Mooser V, Chaturvedi N, Frayling TM, Islam M, Jafar TH, Erdmann J, Kulkarni SR, Bornstein SR, Gr?ssler J, Groop L, Voight BF, Kettunen J, Howard P, Taylor A, Guarrera S, Ricceri F, Emilsson V, Plump A, Barroso I, Khaw KT, Weder AB, Hunt SC, Sun YV, Bergman RN, Collins FS, Bonnycastle LL, Scott LJ, Stringham HM, Peltonen L, Perola M, Vartiainen E, Brand SM, Staessen JA, Wang TJ, Burton PR, Soler Artigas M, Dong Y, Snieder H, Wang X, Zhu H, Lohman KK, Rudock ME, Heckbert SR, Smith NL, Wiggins KL, Doumatey A, Shriner D, Veldre G, Viigimaa M, Kinra S, Prabhakaran D, Tripathy V, Langefeld CD, Rosengren A, Thelle DS, Corsi AM, Singleton A, Forrester T, Hilton G, McKenzie CA, Salako T, Iwai N, Kita Y, Ogihara T, Ohkubo T, Okamura T, Ueshima H, Umemura S, Eyheramendy S, Meitinger T, Wichmann HE, Cho YS, Kim HL, Lee JY, Scott J, Sehmi JS, Zhang W, Hedblad B, Nilsson P, Smith GD, Wong A, Narisu N, Stan??kov? A, Raffel LJ, Yao J, Kathiresan S, O'Donnell CJ, Schwartz SM, Ikram MA, Longstreth WT Jr, Mosley TH, Seshadri S, Shrine NR, Wain LV, Morken MA, Swift AJ, Laitinen J, Prokopenko I, Zitting P, Cooper JA, Humphries SE, Danesh J, Rasheed A, Goel A, Hamsten A, Watkins H, Bakker SJ, van Gilst WH, Janipalli CS, Mani KR, Yajnik CS, Hofman A, Mattace-Raso FU, Oostra BA, Demirkan A, Isaacs A, Rivadeneira F, Lakatta EG, Orru M, Scuteri A, Ala-Korpela M, Kangas AJ, Lyytik?inen LP, Soininen P, Tukiainen T, W?rtz P, Ong RT, D?rr M, Kroemer HK, V?lker U, V?lzke H, Galan P, Hercberg S, Lathrop M, Zelenika D, Deloukas P, Mangino M, Spector TD, Zhai G, Meschia JF, Nalls MA, Sharma P, Terzic J, Kumar MV, Denniff M, Zukowska-Szczechowska E, Wagenknecht LE, Fowkes FG, Charchar FJ, Schwarz PE, Hayward C, Guo X, Rotimi C, Bots ML, Brand E, Samani NJ, Polasek O, Talmud PJ, Nyberg F, Kuh D, Laan M, Hveem K, Palmer LJ, van der Schouw YT, Casas JP, Mohlke KL, Vineis P, Raitakari O, Ganesh SK, Wong TY, Tai ES, Cooper RS, Laakso M, Rao DC, Harris TB, Morris RW, Dominiczak AF, Kivimaki M, Marmot MG, Miki T, Saleheen D, Chandak GR, Coresh J, Navis G, Salomaa V, Han BG, Zhu X, Kooner JS, Melander O, Ridker PM, Bandinelli S, Gyllensten UB, Wright AF, Wilson JF, Ferrucci L, Farrall M, Tuomilehto J, Pramstaller PP, Elosua R, Soranzo N, Sijbrands EJ, Altshuler D, Loos RJ, Shuldiner AR, Gieger C, Meneton P, Uitterlinden AG, Wareham NJ, Gudnason V, Rotter JI, Rettig R, Uda M, Strachan DP, Witteman JC, Hartikainen AL, Beckmann JS, Boerwinkle E, Vasan RS, Boehnke M, Larson MG, J?rvelin MR, Psaty BM, Abecasis GR, Chakravarti A, Elliott P, van Duijn CM, Newton-Cheh C, Levy D, Caulfield MJ, Johnson T
Nature478(7367)103-9(2011 Sep)

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

Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding
Title: Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding.

The smooth muscle-selective GRAF3 is a critical regulator of vascular tone and hypertension.
Title: The smooth muscle-selective RhoGAP GRAF3 is a critical regulator of vascular tone and hypertension.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

The following ARHGAP42 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP42 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)
OHu00122	NM_152432.4 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu76056	NM_001367945.1 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu76055	XM_011542616.2 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu76055	XM_017017237.1 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu76055	XM_011542615.2 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu76056	XM_011542617.2 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu91961	XM_017017238.1 Latest version!	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
View Old Accession Versions >>
OHu00122	NM_152432.2	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
OHu00122	NM_152432.3	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
Hide Old Accession Versions >>

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

Reference Sequences (Refseq)

ARHGAP42 ( NM_152432.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_689645.2 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.

Price & Availability↑

CloneID	OHu00122
Clone ID Related Accession (Same CDS sequence)	NM_152432.3 , NM_152432.2 , NM_152432.4
Accession Version	NM_152432.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2625bp) 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	2017-12-09
Organism	Homo sapiens(human)
Product	rho GTPase-activating protein 42
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP001351.5, HY036401.1, AI672473.1, AI677857.1, DA800121.1, AP000872.5, EG328683.1, AK057372.1, BU146672.1, BM014001.1, CK824101.1 and AV690946.1. On Jul 6, 2017 this sequence version replaced NM_152432.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. There are no human full-length transcripts representing this gene; the RefSeq is predicted based on tiled partial transcript alignments, but it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.138267.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

RefSeq	NP_689645.2
CDS	440..3064
Translation	MGLPTLEFSDSYLDSPDFRERLQCHEIELERTNKFIKELIKDGSLLIGALRNLSMAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	NM_152432.3
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.

Target ORF information:

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

NM_152432.3

ORF Insert Sequence:

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

ARHGAP42 ( NM_152432.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_689645.2 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.

Price & Availability↑

CloneID	OHu00122
Clone ID Related Accession (Same CDS sequence)	NM_152432.3 , NM_152432.2 , NM_152432.4
Accession Version	NM_152432.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2625bp) 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	2017-04-16
Organism	Homo sapiens(Human)
Product	rho GTPase-activating protein 42
Comment	PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AI672473.1, AI677857.1, DA800121.1, AP000872.5, EG328683.1, AK057372.1, BU146672.1 and BM014001.1. On or before Jan 25, 2009 this sequence version replaced XM_001725431.1, XM_001725432.1, XM_001127597.2, XM_001725369.1, XM_001726124.1, XM_001726122.1, NM_152432.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. There are no human full-length transcripts representing this gene; the RefSeq is predicted based on tiled partial transcript alignments, but it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END##

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

RefSeq	NP_689645.2
CDS	4..2628
Translation	MGLPTLEFSDSYLDSPDFRERLQCHEIELERTNKFIKELIKDGSLLIGALRNLSMAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	NM_152432.2
Organism	Homo sapiens(Human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), mRNA.

Target ORF information:

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

NM_152432.2

ORF Insert Sequence:

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

ARHGAP42 ( NM_152432.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_689645.2 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 1, mRNA.

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CloneID	OHu00122
Clone ID Related Accession (Same CDS sequence)	NM_152432.3 , NM_152432.2 , NM_152432.4
Accession Version	NM_152432.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2625bp) 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	2019-12-30
Organism	Homo sapiens(human)
Product	rho GTPase-activating protein 42 isoform 1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP001351.5, HY036401.1, AI672473.1, AI677857.1, DA800121.1, AP000872.5, EG328683.1, AK057372.1, BU146672.1, BM014001.1, CK824101.1 and AV690946.1. On Nov 23, 2018 this sequence version replaced NM_152432.3. Transcript Variant: This variant (1) 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. There are no human full-length transcripts representing this gene; the RefSeq is predicted based on tiled partial transcript alignments, but it is unclear if this exon combination exists in vivo. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.138267.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000298815.13/ ENSP00000298815.7 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

RefSeq	NP_689645.2
CDS	392..3016
Translation	MGLPTLEFSDSYLDSPDFRERLQCHEIELERTNKFIKELIKDGSLLIGALRNLSMAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	NM_152432.4
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 1, mRNA.

Target ORF information:

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

NM_152432.4

ORF Insert Sequence:

ATGGGGCTGC CCACTCTGGA GTTCAGCGAT TCCTACTTGG ACAGCCCAGA TTTCAGGGAG 
CGCTTGCAGT GTCACGAGAT TGAGCTGGAG CGAACCAACA AGTTCATCAA GGAGCTCATT 
AAGGACGGCT CTCTGCTCAT TGGGGCGTTG AGGAATCTGT CTATGGCAGT GCAGAAATTT 
TCCCAGTCAT TGCAAGATTT CCAGTTTGAA TGTATTGGTG ATGCTGAAAC AGATGATGAA 
ATTAGTATTG CTCAGTCACT AAAAGAATTT GCAAGACTAC TCATTGCAGT AGAAGAAGAA 
AGGCGAAGAC TGATCCAAAA CGCTAACGAT GTATTAATTG CACCACTTGA GAAATTTCGA 
AAAGAACAGA TAGGTGCAGC AAAAGATGGA AAGAAGAAGT TTGACAAAGA GAGTGAAAAA 
TATTACTCTA TCCTTGAAAA GCATTTAAAT TTGTCCGCAA AGAAAAAGGA GTCTCATTTA 
CAAGAGGCAG ATACACAAAT TGACCGAGAA CATCAGAACT TCTATGAAGC ATCATTAGAA 
TATGTCTTTA AAATTCAAGA GGTCCAAGAA AAAAAGAAGT TTGAATTTGT TGAACCGCTT 
TTGTCATTTC TTCAGGGCTT ATTTACTTTT TACCATGAGG GATATGAACT TGCCCAGGAA 
TTTGCACCGT ATAAGCAACA GCTGCAGTTC AACTTGCAGA ATACAAGGAA TAATTTTGAA 
AGTACTCGAC AAGAGGTAGA GCGGTTGATG CAAAGGATGA AATCTGCTAA CCAGGACTAC 
AGACCACCCA GCCAGTGGAC GATGGAAGGC TATCTGTATG TCCAGGAGAA ACGACCGCTT 
GGTTTTACAT GGATTAAACA TTATTGTACA TATGATAAGG GAAGTAAAAC ATTTACAATG 
AGTGTTTCAG AAATGAAATC CAGTGGGAAA ATGAATGGCC TTGTTACTAG CTCACCGGAA 
ATGTTTAAAT TAAAATCTTG TATCCGACGA AAGACAGATT CAATTGACAA ACGATTCTGC 
TTTGACATAG AAGTAGTTGA AAGGCATGGG ATCATCACGT TACAGGCCTT CTCAGAAGCT 
AATAGGAAAC TCTGGCTTGA AGCCATGGAT GGGAAGGAAC CGATTTATAC TCTGCCTGCC 
ATTATAAGCA AGAAAGAAGA AATGTATTTG AATGAAGCAG GGTTCAACTT TGTGAGAAAA 
TGCATTCAAG CTGTGGAAAC AAGAGGTATC ACCATTTTAG GACTCTACCG AATAGGAGGA 
GTGAACTCCA AAGTTCAAAA ACTCATGAAT ACCACATTTT CTCCTAAATC CCCTCCTGAT 
ATTGATATTG ATATTGAACT GTGGGACAAT AAGACGATAA CAAGTGGGCT GAAAAACTAC 
CTCAGGTGCC TTGCAGAACC ACTGATGACT TACAAGTTGC ACAAAGATTT TATCATTGCT 
GTTAAATCTG ATGATCAAAA CTACAGGGTG GAGGCTGTAC ATGCATTGGT GCACAAATTG 
CCGGAGAAAA ACAGAGAGAT GCTGGACATC TTAATAAAGC ATCTGGTCAA AGTATCACTA 
CACAGCCAAC AAAATCTCAT GACTGTCTCA AATCTTGGTG TCATATTTGG CCCAACTCTA 
ATGAGAGCAC AGGAAGAAAC TGTGGCTGCT ATGATGAATA TTAAATTTCA GAATATTGTG 
GTAGAAATTC TGATAGAGCA CTATGAAAAG ATTTTTCATA CTGCTCCAGA CCCAAGCATT 
CCTCTTCCTC AGCCTCAGTC TCGATCTGGA TCCCGAAGGA CACGAGCAAT CTGCCTCTCT 
ACAGGGTCTA GGAAGCCCAG AGGGAGGTAT ACTCCATGCC TGGCCGAACC TGATAGTGAC 
TCCTATAGCA GCAGCCCAGA CAGCACACCT ATGGGGAGCA TTGAGTCACT CTCTTCTCAT 
TCCTCTGAAC AAAATAGCAC TACAAAGTCA GCTTCCTGCC AGCCCAGGGA GAAATCTGGA 
GGGATTCCTT GGATTGCAAC CCCATCATCT TCCAATGGAC AGAAAAGCCT TGGTCTGTGG 
ACAACTAGTC CTGAATCAAG TTCCAGAGAA GATGCAACCA AGACAGATGC AGAATCAGAC 
TGCCAGAGTG TTGCTTCAGT CACTAGCCCA GGAGACGTTT CCCCACCCAT AGACCTAGTC 
AAGAAAGAGC CTTATGGGCT TTCAGGACTG AAAAGAGCTT CTGCTTCTTC TCTCAGATCC 
ATCTCTGCAG CTGAAGGAAA CAAGAGCTAC AGTGGATCTA TTCAAAGCTT AACTTCTGTA 
GGTTCCAAGG AGACACCCAA AGCTTCACCA AACCCAGACC TGCCTCCGAA AATGTGCAGG 
AGATTAAGAC TAGACACTGC CTCAAGCAAT GGCTATCAGC GGCCTGGCTC AGTAGTGGCA 
GCAAAAGCTC AACTGTTTGA AAATGTTGGT TCACCTAAAC CAGTTTCTTC TGGGCGCCAA 
GCCAAAGCCA TGTACTCCTG TAAAGCAGAG CACAGTCATG AGCTTTCCTT CCCACAAGGA 
GCAATATTTT CTAATGTGTA CCCATCAGTG GAACCAGGAT GGTTAAAGGC AACTTATGAA 
GGCAAAACAG GACTAGTTCC AGAAAATTAT GTTGTCTTCC TCTAA

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

ARHGAP42 ( NM_001367945.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354874.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu76056
Clone ID Related Accession (Same CDS sequence)	XM_011542617.2 , NM_001367945.1
Accession Version	NM_001367945.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2343bp) 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	2019-08-02
Organism	Homo sapiens(human)
Product	rho GTPase-activating protein 42 isoform 2
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP001351.5, AC015600.8 and AP000872.5. On Jan 1, 2019 this sequence version replaced XM_011542617.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## CDS exon combination :: SRR1660809.159280.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length.

ATGGCCTGGT TGAATTGTGA TGAGCTCCCT ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

RefSeq	NP_001354874.1
CDS	974..3316
Translation	MAWLNCDELPIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	NM_001367945.1
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant 2, mRNA.

Target ORF information:

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

NM_001367945.1

ORF Insert Sequence:

ATGGCCTGGT TGAATTGTGA TGAGCTCCCT ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

ARHGAP42 ( XM_011542615.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540917.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu76055
Clone ID Related Accession (Same CDS sequence)	XM_011542615.2 , XM_017017237.1 , XM_011542616.2
Accession Version	XM_011542615.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) 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	rho GTPase-activating protein 42 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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_011542615.1. ##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##

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

RefSeq	XP_011540917.1
CDS	2654..5116
Translation	MAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	XM_011542615.2
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X1, mRNA.

Target ORF information:

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

XM_011542615.2

ORF Insert Sequence:

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

ARHGAP42 ( XM_017017237.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016872726.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu76055
Clone ID Related Accession (Same CDS sequence)	XM_011542615.2 , XM_017017237.1 , XM_011542616.2
Accession Version	XM_017017237.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) 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	rho GTPase-activating protein 42 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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##

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

RefSeq	XP_016872726.1
CDS	612..3074
Translation	MAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	XM_017017237.1
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X2, mRNA.

Target ORF information:

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

XM_017017237.1

ORF Insert Sequence:

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

ARHGAP42 ( XM_011542616.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540918.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu76055
Clone ID Related Accession (Same CDS sequence)	XM_011542615.2 , XM_017017237.1 , XM_011542616.2
Accession Version	XM_011542616.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) 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	rho GTPase-activating protein 42 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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_011542616.1. ##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##

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

RefSeq	XP_011540918.1
CDS	423..2885
Translation	MAVQKFSQSLQDFQFECIGDAETDDEISIAQSLKEFARLLIAVEEERRRLIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	XM_011542616.2
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X3, mRNA.

Target ORF information:

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

XM_011542616.2

ORF Insert Sequence:

ATGGCAGTGC AGAAATTTTC CCAGTCATTG CAAGATTTCC AGTTTGAATG TATTGGTGAT 
GCTGAAACAG ATGATGAAAT TAGTATTGCT CAGTCACTAA AAGAATTTGC AAGACTACTC 
ATTGCAGTAG AAGAAGAAAG GCGAAGACTG ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

ARHGAP42 ( XM_011542617.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011540919.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu76056
Clone ID Related Accession (Same CDS sequence)	XM_011542617.2 , NM_001367945.1
Accession Version	XM_011542617.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2343bp) 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	rho GTPase-activating protein 42 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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_011542617.1. ##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##

ATGGCCTGGT TGAATTGTGA TGAGCTCCCT ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

RefSeq	XP_011540919.1
CDS	429..2771
Translation	MAWLNCDELPIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	XM_011542617.2
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X4, mRNA.

Target ORF information:

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

XM_011542617.2

ORF Insert Sequence:

ATGGCCTGGT TGAATTGTGA TGAGCTCCCT ATCCAAAACG CTAACGATGT ATTAATTGCA 
CCACTTGAGA AATTTCGAAA AGAACAGATA GGTGCAGCAA AAGATGGAAA GAAGAAGTTT 
GACAAAGAGA GTGAAAAATA TTACTCTATC CTTGAAAAGC ATTTAAATTT GTCCGCAAAG 
AAAAAGGAGT CTCATTTACA AGAGGCAGAT ACACAAATTG ACCGAGAACA TCAGAACTTC 
TATGAAGCAT CATTAGAATA TGTCTTTAAA ATTCAAGAGG TCCAAGAAAA AAAGAAGTTT 
GAATTTGTTG AACCGCTTTT GTCATTTCTT CAGGGCTTAT TTACTTTTTA CCATGAGGGA 
TATGAACTTG CCCAGGAATT TGCACCGTAT AAGCAACAGC TGCAGTTCAA CTTGCAGAAT 
ACAAGGAATA ATTTTGAAAG TACTCGACAA GAGGTAGAGC GGTTGATGCA AAGGATGAAA 
TCTGCTAACC AGGACTACAG ACCACCCAGC CAGTGGACGA TGGAAGGCTA TCTGTATGTC 
CAGGAGAAAC GACCGCTTGG TTTTACATGG ATTAAACATT ATTGTACATA TGATAAGGGA 
AGTAAAACAT TTACAATGAG TGTTTCAGAA ATGAAATCCA GTGGGAAAAT GAATGGCCTT 
GTTACTAGCT CACCGGAAAT GTTTAAATTA AAATCTTGTA TCCGACGAAA GACAGATTCA 
ATTGACAAAC GATTCTGCTT TGACATAGAA GTAGTTGAAA GGCATGGGAT CATCACGTTA 
CAGGCCTTCT CAGAAGCTAA TAGGAAACTC TGGCTTGAAG CCATGGATGG GAAGGAACCG 
ATTTATACTC TGCCTGCCAT TATAAGCAAG AAAGAAGAAA TGTATTTGAA TGAAGCAGGG 
TTCAACTTTG TGAGAAAATG CATTCAAGCT GTGGAAACAA GAGGTATCAC CATTTTAGGA 
CTCTACCGAA TAGGAGGAGT GAACTCCAAA GTTCAAAAAC TCATGAATAC CACATTTTCT 
CCTAAATCCC CTCCTGATAT TGATATTGAT ATTGAACTGT GGGACAATAA GACGATAACA 
AGTGGGCTGA AAAACTACCT CAGGTGCCTT GCAGAACCAC TGATGACTTA CAAGTTGCAC 
AAAGATTTTA TCATTGCTGT TAAATCTGAT GATCAAAACT ACAGGGTGGA GGCTGTACAT 
GCATTGGTGC ACAAATTGCC GGAGAAAAAC AGAGAGATGC TGGACATCTT AATAAAGCAT 
CTGGTCAAAG TATCACTACA CAGCCAACAA AATCTCATGA CTGTCTCAAA TCTTGGTGTC 
ATATTTGGCC CAACTCTAAT GAGAGCACAG GAAGAAACTG TGGCTGCTAT GATGAATATT 
AAATTTCAGA ATATTGTGGT AGAAATTCTG ATAGAGCACT ATGAAAAGAT TTTTCATACT 
GCTCCAGACC CAAGCATTCC TCTTCCTCAG CCTCAGTCTC GATCTGGATC CCGAAGGACA 
CGAGCAATCT GCCTCTCTAC AGGGTCTAGG AAGCCCAGAG GGAGGTATAC TCCATGCCTG 
GCCGAACCTG ATAGTGACTC CTATAGCAGC AGCCCAGACA GCACACCTAT GGGGAGCATT 
GAGTCACTCT CTTCTCATTC CTCTGAACAA AATAGCACTA CAAAGTCAGC TTCCTGCCAG 
CCCAGGGAGA AATCTGGAGG GATTCCTTGG ATTGCAACCC CATCATCTTC CAATGGACAG 
AAAAGCCTTG GTCTGTGGAC AACTAGTCCT GAATCAAGTT CCAGAGAAGA TGCAACCAAG 
ACAGATGCAG AATCAGACTG CCAGAGTGTT GCTTCAGTCA CTAGCCCAGG AGACGTTTCC 
CCACCCATAG ACCTAGTCAA GAAAGAGCCT TATGGGCTTT CAGGACTGAA AAGAGCTTCT 
GCTTCTTCTC TCAGATCCAT CTCTGCAGCT GAAGGAAACA AGAGCTACAG TGGATCTATT 
CAAAGCTTAA CTTCTGTAGG TTCCAAGGAG ACACCCAAAG CTTCACCAAA CCCAGACCTG 
CCTCCGAAAA TGTGCAGGAG ATTAAGACTA GACACTGCCT CAAGCAATGG CTATCAGCGG 
CCTGGCTCAG TAGTGGCAGC AAAAGCTCAA CTGTTTGAAA ATGTTGGTTC ACCTAAACCA 
GTTTCTTCTG GGCGCCAAGC CAAAGCCATG TACTCCTGTA AAGCAGAGCA CAGTCATGAG 
CTTTCCTTCC CACAAGGAGC AATATTTTCT AATGTGTACC CATCAGTGGA ACCAGGATGG 
TTAAAGGCAA CTTATGAAGG CAAAACAGGA CTAGTTCCAG AAAATTATGT TGTCTTCCTC 
TAA

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

ARHGAP42 ( XM_017017238.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016872727.1 Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X5, mRNA.

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CloneID	OHu91961
Clone ID Related Accession (Same CDS sequence)	XM_017017238.1
Accession Version	XM_017017238.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2316bp) 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	rho GTPase-activating protein 42 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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##

ATGATCCAAA ACGCTAACGA TGTATTAATT GCACCACTTG AGAAATTTCG AAAAGAACAG 
ATAGGTGCAG CAAAAGATGG AAAGAAGAAG TTTGACAAAG AGAGTGAAAA ATATTACTCT 
ATCCTTGAAA AGCATTTAAA TTTGTCCGCA AAGAAAAAGG AGTCTCATTT ACAAGAGGCA 
GATACACAAA TTGACCGAGA ACATCAGAAC TTCTATGAAG CATCATTAGA ATATGTCTTT 
AAAATTCAAG AGGTCCAAGA AAAAAAGAAG TTTGAATTTG TTGAACCGCT TTTGTCATTT 
CTTCAGGGCT TATTTACTTT TTACCATGAG GGATATGAAC TTGCCCAGGA ATTTGCACCG 
TATAAGCAAC AGCTGCAGTT CAACTTGCAG AATACAAGGA ATAATTTTGA AAGTACTCGA 
CAAGAGGTAG AGCGGTTGAT GCAAAGGATG AAATCTGCTA ACCAGGACTA CAGACCACCC 
AGCCAGTGGA CGATGGAAGG CTATCTGTAT GTCCAGGAGA AACGACCGCT TGGTTTTACA 
TGGATTAAAC ATTATTGTAC ATATGATAAG GGAAGTAAAA CATTTACAAT GAGTGTTTCA 
GAAATGAAAT CCAGTGGGAA AATGAATGGC CTTGTTACTA GCTCACCGGA AATGTTTAAA 
TTAAAATCTT GTATCCGACG AAAGACAGAT TCAATTGACA AACGATTCTG CTTTGACATA 
GAAGTAGTTG AAAGGCATGG GATCATCACG TTACAGGCCT TCTCAGAAGC TAATAGGAAA 
CTCTGGCTTG AAGCCATGGA TGGGAAGGAA CCGATTTATA CTCTGCCTGC CATTATAAGC 
AAGAAAGAAG AAATGTATTT GAATGAAGCA GGGTTCAACT TTGTGAGAAA ATGCATTCAA 
GCTGTGGAAA CAAGAGGTAT CACCATTTTA GGACTCTACC GAATAGGAGG AGTGAACTCC 
AAAGTTCAAA AACTCATGAA TACCACATTT TCTCCTAAAT CCCCTCCTGA TATTGATATT 
GATATTGAAC TGTGGGACAA TAAGACGATA ACAAGTGGGC TGAAAAACTA CCTCAGGTGC 
CTTGCAGAAC CACTGATGAC TTACAAGTTG CACAAAGATT TTATCATTGC TGTTAAATCT 
GATGATCAAA ACTACAGGGT GGAGGCTGTA CATGCATTGG TGCACAAATT GCCGGAGAAA 
AACAGAGAGA TGCTGGACAT CTTAATAAAG CATCTGGTCA AAGTATCACT ACACAGCCAA 
CAAAATCTCA TGACTGTCTC AAATCTTGGT GTCATATTTG GCCCAACTCT AATGAGAGCA 
CAGGAAGAAA CTGTGGCTGC TATGATGAAT ATTAAATTTC AGAATATTGT GGTAGAAATT 
CTGATAGAGC ACTATGAAAA GATTTTTCAT ACTGCTCCAG ACCCAAGCAT TCCTCTTCCT 
CAGCCTCAGT CTCGATCTGG ATCCCGAAGG ACACGAGCAA TCTGCCTCTC TACAGGGTCT 
AGGAAGCCCA GAGGGAGGTA TACTCCATGC CTGGCCGAAC CTGATAGTGA CTCCTATAGC 
AGCAGCCCAG ACAGCACACC TATGGGGAGC ATTGAGTCAC TCTCTTCTCA TTCCTCTGAA 
CAAAATAGCA CTACAAAGTC AGCTTCCTGC CAGCCCAGGG AGAAATCTGG AGGGATTCCT 
TGGATTGCAA CCCCATCATC TTCCAATGGA CAGAAAAGCC TTGGTCTGTG GACAACTAGT 
CCTGAATCAA GTTCCAGAGA AGATGCAACC AAGACAGATG CAGAATCAGA CTGCCAGAGT 
GTTGCTTCAG TCACTAGCCC AGGAGACGTT TCCCCACCCA TAGACCTAGT CAAGAAAGAG 
CCTTATGGGC TTTCAGGACT GAAAAGAGCT TCTGCTTCTT CTCTCAGATC CATCTCTGCA 
GCTGAAGGAA ACAAGAGCTA CAGTGGATCT ATTCAAAGCT TAACTTCTGT AGGTTCCAAG 
GAGACACCCA AAGCTTCACC AAACCCAGAC CTGCCTCCGA AAATGTGCAG GAGATTAAGA 
CTAGACACTG CCTCAAGCAA TGGCTATCAG CGGCCTGGCT CAGTAGTGGC AGCAAAAGCT 
CAACTGTTTG AAAATGTTGG TTCACCTAAA CCAGTTTCTT CTGGGCGCCA AGCCAAAGCC 
ATGTACTCCT GTAAAGCAGA GCACAGTCAT GAGCTTTCCT TCCCACAAGG AGCAATATTT 
TCTAATGTGT ACCCATCAGT GGAACCAGGA TGGTTAAAGG CAACTTATGA AGGCAAAACA 
GGACTAGTTC CAGAAAATTA TGTTGTCTTC CTCTAA

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

RefSeq	XP_016872727.1
CDS	2942..5257
Translation	MIQNANDVLIAPLEKFRKEQIGAAKDGKKKFDKESEKYYSILEKHLNLSAKKKESHLQEADTQIDREHQNFYEASLEYVFKIQEVQEKKKFEFVEPLLSFLQGLFTFYHEGYELAQEFAPYKQQLQFNLQNTRNNFESTRQEVERLMQRMKSANQDYRPPSQWTMEGYLYVQEKRPLGFTWIKHYCTYDKGSKTFTMSVSEMKSSGKMNGLVTSSPEMFKLKSCIRRKTDSIDKRFCFDIEVVERHGIITLQAFSEANRKLWLEAMDGKEPIYTLPAIISKKEEMYLNEAGFNFVRKCIQAVETRGITILGLYRIGGVNSKVQKLMNTTFSPKSPPDIDIDIELWDNKTITSGLKNYLRCLAEPLMTYKLHKDFIIAVKSDDQNYRVEAVHALVHKLPEKNREMLDILIKHLVKVSLHSQQNLMTVSNLGVIFGPTLMRAQEETVAAMMNIKFQNIVVEILIEHYEKIFHTAPDPSIPLPQPQSRSGSRRTRAICLSTGSRKPRGRYTPCLAEPDSDSYSSSPDSTPMGSIESLSSHSSEQNSTTKSASCQPREKSGGIPWIATPSSSNGQKSLGLWTTSPESSSREDATKTDAESDCQSVASVTSPGDVSPPIDLVKKEPYGLSGLKRASASSLRSISAAEGNKSYSGSIQSLTSVGSKETPKASPNPDLPPKMCRRLRLDTASSNGYQRPGSVVAAKAQLFENVGSPKPVSSGRQAKAMYSCKAEHSHELSFPQGAIFSNVYPSVEPGWLKATYEGKTGLVPENYVVFL

Target ORF information:

RefSeq Version	XM_017017238.1
Organism	Homo sapiens(human)
Definition	Homo sapiens Rho GTPase activating protein 42 (ARHGAP42), transcript variant X5, mRNA.

Target ORF information:

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

XM_017017238.1

ORF Insert Sequence:

ATGATCCAAA ACGCTAACGA TGTATTAATT GCACCACTTG AGAAATTTCG AAAAGAACAG 
ATAGGTGCAG CAAAAGATGG AAAGAAGAAG TTTGACAAAG AGAGTGAAAA ATATTACTCT 
ATCCTTGAAA AGCATTTAAA TTTGTCCGCA AAGAAAAAGG AGTCTCATTT ACAAGAGGCA 
GATACACAAA TTGACCGAGA ACATCAGAAC TTCTATGAAG CATCATTAGA ATATGTCTTT 
AAAATTCAAG AGGTCCAAGA AAAAAAGAAG TTTGAATTTG TTGAACCGCT TTTGTCATTT 
CTTCAGGGCT TATTTACTTT TTACCATGAG GGATATGAAC TTGCCCAGGA ATTTGCACCG 
TATAAGCAAC AGCTGCAGTT CAACTTGCAG AATACAAGGA ATAATTTTGA AAGTACTCGA 
CAAGAGGTAG AGCGGTTGAT GCAAAGGATG AAATCTGCTA ACCAGGACTA CAGACCACCC 
AGCCAGTGGA CGATGGAAGG CTATCTGTAT GTCCAGGAGA AACGACCGCT TGGTTTTACA 
TGGATTAAAC ATTATTGTAC ATATGATAAG GGAAGTAAAA CATTTACAAT GAGTGTTTCA 
GAAATGAAAT CCAGTGGGAA AATGAATGGC CTTGTTACTA GCTCACCGGA AATGTTTAAA 
TTAAAATCTT GTATCCGACG AAAGACAGAT TCAATTGACA AACGATTCTG CTTTGACATA 
GAAGTAGTTG AAAGGCATGG GATCATCACG TTACAGGCCT TCTCAGAAGC TAATAGGAAA 
CTCTGGCTTG AAGCCATGGA TGGGAAGGAA CCGATTTATA CTCTGCCTGC CATTATAAGC 
AAGAAAGAAG AAATGTATTT GAATGAAGCA GGGTTCAACT TTGTGAGAAA ATGCATTCAA 
GCTGTGGAAA CAAGAGGTAT CACCATTTTA GGACTCTACC GAATAGGAGG AGTGAACTCC 
AAAGTTCAAA AACTCATGAA TACCACATTT TCTCCTAAAT CCCCTCCTGA TATTGATATT 
GATATTGAAC TGTGGGACAA TAAGACGATA ACAAGTGGGC TGAAAAACTA CCTCAGGTGC 
CTTGCAGAAC CACTGATGAC TTACAAGTTG CACAAAGATT TTATCATTGC TGTTAAATCT 
GATGATCAAA ACTACAGGGT GGAGGCTGTA CATGCATTGG TGCACAAATT GCCGGAGAAA 
AACAGAGAGA TGCTGGACAT CTTAATAAAG CATCTGGTCA AAGTATCACT ACACAGCCAA 
CAAAATCTCA TGACTGTCTC AAATCTTGGT GTCATATTTG GCCCAACTCT AATGAGAGCA 
CAGGAAGAAA CTGTGGCTGC TATGATGAAT ATTAAATTTC AGAATATTGT GGTAGAAATT 
CTGATAGAGC ACTATGAAAA GATTTTTCAT ACTGCTCCAG ACCCAAGCAT TCCTCTTCCT 
CAGCCTCAGT CTCGATCTGG ATCCCGAAGG ACACGAGCAA TCTGCCTCTC TACAGGGTCT 
AGGAAGCCCA GAGGGAGGTA TACTCCATGC CTGGCCGAAC CTGATAGTGA CTCCTATAGC 
AGCAGCCCAG ACAGCACACC TATGGGGAGC ATTGAGTCAC TCTCTTCTCA TTCCTCTGAA 
CAAAATAGCA CTACAAAGTC AGCTTCCTGC CAGCCCAGGG AGAAATCTGG AGGGATTCCT 
TGGATTGCAA CCCCATCATC TTCCAATGGA CAGAAAAGCC TTGGTCTGTG GACAACTAGT 
CCTGAATCAA GTTCCAGAGA AGATGCAACC AAGACAGATG CAGAATCAGA CTGCCAGAGT 
GTTGCTTCAG TCACTAGCCC AGGAGACGTT TCCCCACCCA TAGACCTAGT CAAGAAAGAG 
CCTTATGGGC TTTCAGGACT GAAAAGAGCT TCTGCTTCTT CTCTCAGATC CATCTCTGCA 
GCTGAAGGAA ACAAGAGCTA CAGTGGATCT ATTCAAAGCT TAACTTCTGT AGGTTCCAAG 
GAGACACCCA AAGCTTCACC AAACCCAGAC CTGCCTCCGA AAATGTGCAG GAGATTAAGA 
CTAGACACTG CCTCAAGCAA TGGCTATCAG CGGCCTGGCT CAGTAGTGGC AGCAAAAGCT 
CAACTGTTTG AAAATGTTGG TTCACCTAAA CCAGTTTCTT CTGGGCGCCA AGCCAAAGCC 
ATGTACTCCT GTAAAGCAGA GCACAGTCAT GAGCTTTCCT TCCCACAAGG AGCAATATTT 
TCTAATGTGT ACCCATCAGT GGAACCAGGA TGGTTAAAGG CAACTTATGA AGGCAAAACA 
GGACTAGTTC CAGAAAATTA TGTTGTCTTC CTCTAA

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

PubMed

Hypertension: Role of ARHGAP42 in hypertension.
Nature reviews. Nephrology13(3)134(2017 Mar)
Carney EF

Blood pressure-associated polymorphism controls ARHGAP42 expression via serum response factor DNA binding.
The Journal of clinical investigation127(2)670-680(2017 Feb)
Bai X,Mangum KD,Dee RA,Stouffer GA,Lee CR,Oni-Orisan A,Patterson C,Schisler JC,Viera AJ,Taylor JM,Mack CP

The smooth muscle-selective RhoGAP GRAF3 is a critical regulator of vascular tone and hypertension.
Nature communications42910(2013)
Bai X,Lenhart KC,Bird KE,Suen AA,Rojas M,Kakoki M,Li F,Smithies O,Mack CP,Taylor JM

Genome wide association study of age at menarche in the Japanese population.
PloS one8(5)e63821(2013)
Tanikawa C,Okada Y,Takahashi A,Oda K,Kamatani N,Kubo M,Nakamura Y,Matsuda K

Genetic variants in novel pathways influence blood pressure and cardiovascular disease risk.
Nature478(7367)103-9(2011 Sep)
,Ehret GB,Munroe PB,Rice KM,Bochud M,Johnson AD,Chasman DI,Smith AV,Tobin MD,Verwoert GC,Hwang SJ,Pihur V,Vollenweider P,O'Reilly PF,Amin N,Bragg-Gresham JL,Teumer A,Glazer NL,Launer L,Zhao JH,Aulchenko Y,Heath S,S?ber S,Parsa A,Luan J,Arora P,Dehghan A,Zhang F,Lucas G,Hicks AA,Jackson AU,Peden JF,Tanaka T,Wild SH,Rudan I,Igl W,Milaneschi Y,Parker AN,Fava C,Chambers JC,Fox ER,Kumari M,Go MJ,van der Harst P,Kao WH,Sj?gren M,Vinay DG,Alexander M,Tabara Y,Shaw-Hawkins S,Whincup PH,Liu Y,Shi G,Kuusisto J,Tayo B,Seielstad M,Sim X,Nguyen KD,Lehtim?ki T,Matullo G,Wu Y,Gaunt TR,Onland-Moret NC,Cooper MN,Platou CG,Org E,Hardy R,Dahgam S,Palmen J,Vitart V,Braund PS,Kuznetsova T,Uiterwaal CS,Adeyemo A,Palmas W,Campbell H,Ludwig B,Tomaszewski M,Tzoulaki I,Palmer ND,,,,,,Aspelund T,Garcia M,Chang YP,O'Connell JR,Steinle NI,Grobbee DE,Arking DE,Kardia SL,Morrison AC,Hernandez D,Najjar S,McArdle WL,Hadley D,Brown MJ,Connell JM,Hingorani AD,Day IN,Lawlor DA,Beilby JP,Lawrence RW,Clarke R,Hopewell JC,Ongen H,Dreisbach AW,Li Y,Young JH,Bis JC,K?h?nen M,Viikari J,Adair LS,Lee NR,Chen MH,Olden M,Pattaro C,Bolton JA,K?ttgen A,Bergmann S,Mooser V,Chaturvedi N,Frayling TM,Islam M,Jafar TH,Erdmann J,Kulkarni SR,Bornstein SR,Gr?ssler J,Groop L,Voight BF,Kettunen J,Howard P,Taylor A,Guarrera S,Ricceri F,Emilsson V,Plump A,Barroso I,Khaw KT,Weder AB,Hunt SC,Sun YV,Bergman RN,Collins FS,Bonnycastle LL,Scott LJ,Stringham HM,Peltonen L,Perola M,Vartiainen E,Brand SM,Staessen JA,Wang TJ,Burton PR,Soler Artigas M,Dong Y,Snieder H,Wang X,Zhu H,Lohman KK,Rudock ME,Heckbert SR,Smith NL,Wiggins KL,Doumatey A,Shriner D,Veldre G,Viigimaa M,Kinra S,Prabhakaran D,Tripathy V,Langefeld CD,Rosengren A,Thelle DS,Corsi AM,Singleton A,Forrester T,Hilton G,McKenzie CA,Salako T,Iwai N,Kita Y,Ogihara T,Ohkubo T,Okamura T,Ueshima H,Umemura S,Eyheramendy S,Meitinger T,Wichmann HE,Cho YS,Kim HL,Lee JY,Scott J,Sehmi JS,Zhang W,Hedblad B,Nilsson P,Smith GD,Wong A,Narisu N,Stan??kov? A,Raffel LJ,Yao J,Kathiresan S,O'Donnell CJ,Schwartz SM,Ikram MA,Longstreth WT Jr,Mosley TH,Seshadri S,Shrine NR,Wain LV,Morken MA,Swift AJ,Laitinen J,Prokopenko I,Zitting P,Cooper JA,Humphries SE,Danesh J,Rasheed A,Goel A,Hamsten A,Watkins H,Bakker SJ,van Gilst WH,Janipalli CS,Mani KR,Yajnik CS,Hofman A,Mattace-Raso FU,Oostra BA,Demirkan A,Isaacs A,Rivadeneira F,Lakatta EG,Orru M,Scuteri A,Ala-Korpela M,Kangas AJ,Lyytik?inen LP,Soininen P,Tukiainen T,W?rtz P,Ong RT,D?rr M,Kroemer HK,V?lker U,V?lzke H,Galan P,Hercberg S,Lathrop M,Zelenika D,Deloukas P,Mangino M,Spector TD,Zhai G,Meschia JF,Nalls MA,Sharma P,Terzic J,Kumar MV,Denniff M,Zukowska-Szczechowska E,Wagenknecht LE,Fowkes FG,Charchar FJ,Schwarz PE,Hayward C,Guo X,Rotimi C,Bots ML,Brand E,Samani NJ,Polasek O,Talmud PJ,Nyberg F,Kuh D,Laan M,Hveem K,Palmer LJ,van der Schouw YT,Casas JP,Mohlke KL,Vineis P,Raitakari O,Ganesh SK,Wong TY,Tai ES,Cooper RS,Laakso M,Rao DC,Harris TB,Morris RW,Dominiczak AF,Kivimaki M,Marmot MG,Miki T,Saleheen D,Chandak GR,Coresh J,Navis G,Salomaa V,Han BG,Zhu X,Kooner JS,Melander O,Ridker PM,Bandinelli S,Gyllensten UB,Wright AF,Wilson JF,Ferrucci L,Farrall M,Tuomilehto J,Pramstaller PP,Elosua R,Soranzo N,Sijbrands EJ,Altshuler D,Loos RJ,Shuldiner AR,Gieger C,Meneton P,Uitterlinden AG,Wareham NJ,Gudnason V,Rotter JI,Rettig R,Uda M,Strachan DP,Witteman JC,Hartikainen AL,Beckmann JS,Boerwinkle E,Vasan RS,Boehnke M,Larson MG,J?rvelin MR,Psaty BM,Abecasis GR,Chakravarti A,Elliott P,van Duijn CM,Newton-Cheh C,Levy D,Caulfield MJ,Johnson T

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ARHGAP42 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:

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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Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム