ORF cDNA Clones and Custom Clones » Species Summary » Homo sapiens » ITGA11 cDNA ORF clone

ITGA11 cDNA ORF clone, Homo sapiens(human)

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Summary

Gene Symbol	ITGA11
Entrez Gene ID	22801
Full Name	integrin subunit alpha 11
Synonyms	HsT18964
General protein information	Preferred Names integrin subunit alpha 11 Names integrin alpha-11
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 15 Map Location: 15q23
Summary	This gene encodes an alpha integrin. Integrins are heterodimeric integral membrane proteins composed of an alpha chain and a beta chain. This protein contains an I domain, is expressed in muscle tissue, dimerizes with beta 1 integrin in vitro, and appears to bind collagen in this form. Therefore, the protein may be involved in attaching muscle tissue to the extracellular matrix. Alternative transcriptional splice variants have been found for this gene, but their biological validity is not determined. [provided by RefSeq, Jul 2008].
Disorder MIM:	604789

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005254228.3	XP_005254285.1	integrin alpha-11 isoform X2
NM_001004439.1	NP_001004439.1	integrin alpha-11 precursor
NM_001004439.2	NP_001004439.1	integrin alpha-11 precursor
XM_011521363.2	XP_011519665.1	integrin alpha-11 isoform X1

Homologies

Homo sapiens (human)	ITGA11	NP_001004439.1
Rattus norvegicus (Norway rat)	Itga11	NP_001101626.1
Gallus gallus (chicken)	ITGA11	XP_004943980.1
Danio rerio (zebrafish)	itga11a	NP_001166098.1
Pan troglodytes (chimpanzee)	ITGA11	XP_510503.3
	ITGA11	XP_001083531.2
Canis lupus familiaris (dog)	ITGA11	XP_005638763.1
Mus musculus (house mouse)	Itga11	NP_795896.4
Danio rerio (zebrafish)	itga11b	XP_695559.5
Xenopus tropicalis (tropical clawed frog)	itga11	XP_002932992.1
Bos taurus (cattle)	ITGA11	XP_002690571.2

Bibliography

Related articles in PubMed

The role of Protein Disulfide Isomerase and thiol bonds modifications in activation of integrin subunit alpha11.
Popielarski M, Ponamarczuk H, Stasiak M, Michalec L, Bednarek R, Studzian M, Pulaski L, Swiatkowska M
Biochemical and biophysical research communications495(2)1635-1641(2018 Jan)

Integrin alpha 11 in the regulation of the myofibroblast phenotype: implications for fibrotic diseases.
Bansal R, Nakagawa S, Yazdani S, van Baarlen J, Venkatesh A, Koh AP, Song WM, Goossens N, Watanabe H, Beasley MB, Powell CA, Storm G, Kaminski N, van Goor H, Friedman SL, Hoshida Y, Prakash J
Experimental & molecular medicine49(11)e396(2017 Nov)

Incorporating epistasis interaction of genetic susceptibility single nucleotide polymorphisms in a lung cancer risk prediction model.
Marcus MW, Raji OY, Duffy SW, Young RP, Hopkins RJ, Field JK
International journal of oncology49(1)361-70(2016 Jul)

FGF2 Overrides TGF?1-Driven Integrin ITGA11 Expression in Human Dermal Fibroblasts.
Grella A, Kole D, Holmes W, Dominko T
Journal of cellular biochemistry117(4)1000-8(2016 Apr)

Glycated Collagen Induces ?11 Integrin Expression Through TGF-?2 and Smad3.
Talior-Volodarsky I, Arora PD, Wang Y, Zeltz C, Connelly KA, Gullberg D, McCulloch CA
Journal of cellular physiology230(2)327-36(2015 Feb)

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

Using MDR and RF, the overall best classifier of lung cancer status were SNPs rs1799732 (DRD2), rs5744256 (IL-18), rs2306022 (ITGA11) with training accuracy of 0.6592 and a testing accuracy of 0.6572 and a cross-validation consistency of 10/10 with permutation testing P<0.0001
Title: Incorporating epistasis interaction of genetic susceptibility single nucleotide polymorphisms in a lung cancer risk prediction model.

FGF2 may be redirecting fibroblasts towards an anti-fibrotic phenotype during wound healing by overriding TGFb1 mediated ITGA11 expression.
Title: FGF2 Overrides TGF?1-Driven Integrin ITGA11 Expression in Human Dermal Fibroblasts.

glycated collagen in the cardiac interstitium triggers an autocrine TGF-beta2 signaling pathway that stimulates alpha11 integrin expression through Smad2/3 binding elements in the alpha11 integrin promoter
Title: Glycated Collagen Induces ?11 Integrin Expression Through TGF-?2 and Smad3.

Myometrium and uterine fibroids express ITGA11.
Title: Collagen-binding ?11 integrin expression in human myometrium and fibroids utilizing a novel RNA in situ probe.

Interactions between alpha11 integrins and the Smad-dependent TGF-beta2 signalling may contribute to the formation of pro-fibrotic myofibroblasts and the development of a fibrotic interstitium in diabetic cardiomyopathy.
Title: ?11 integrin stimulates myofibroblast differentiation in diabetic cardiomyopathy.

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The following ITGA11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ITGA11 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu13046	NM_001004439.2 Latest version!	Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$839.30 $1199.00
OHu48169	XM_005254228.3 Latest version!	Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X2, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$559.30 $799.00
OHu64945	XM_011521363.2 Latest version!	Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X1, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$559.30 $799.00
View Old Accession Versions >>
OHu13046	NM_001004439.1	Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	20	$839.30 $1199.00
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)

ITGA11 ( NM_001004439.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001004439.1 Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.

Price & Availability↑

CloneID	OHu13046
Clone ID Related Accession (Same CDS sequence)	NM_001004439.1 , NM_001004439.2
Accession Version	NM_001004439.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3567bp) 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	2017-09-30
Organism	Homo sapiens(human)
Product	integrin alpha-11 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF137378.2, AK095863.1, AF109681.1, BX496541.1, CN358985.1 and AL359064.1. This sequence is a reference standard in the RefSeqGene project. 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 :: SRR1803613.163839.1, SRR1660809.197352.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGAAGG GTCACCCTGT CCAACGTGTC CGAGCGGAAA 
GACAACATGC GCCTCGGCCT TAGTCTCGCC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCCC TCTGGTCTCA TGAGTGTGGG AGCTCCTACT ACACCACAGG GATGTGTTCA 
AGAGTCAACT CCAACTTCAG GTTCTCCAAG ACCGTGGCCC CAGCTCTCCA AAGGTGCCAG 
ACCTACATGG ACATCGTCAT TGTCCTGGAT GGCTCCAACA GCATCTACCC CTGGGTGGAG 
GTTCAGCACT TCCTCATCAA CATCCTGAAA AAGTTTTACA TTGGCCCAGG GCAGATCCAG 
GTTGGAGTTG TGCAGTATGG CGAAGATGTG GTGCATGAGT TTCACCTCAA CGACTACAGG 
TCTGTAAAAG ATGTGGTGGA AGCTGCCAGC CACATTGAGC AGAGAGGAGG AACAGAGACC 
CGGACGGCAT TTGGCATTGA ATTTGCACGC TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGAGCCAAGA AGGTGATGAT TGTCATCACA GATGGGGAGT CCCACGACAG CCCAGACCTG 
GAGAAGGTGA TCCAGCAAAG CGAAAGAGAC AACGTAACAA GATATGCGGT GGCCGTCCTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCCAGTGACC CTGATGACAA GCACTTCTTC AATGTCACTG ATGAGGCTGC CTTGAAGGAC 
ATTGTCGATG CCCTGGGGGA CAGAATCTTC AGCCTGGAAG GCACCAACAA GAACGAGACC 
TCCTTTGGGC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ACGTGGTGGA GGATGGGGTT 
CTGCTGGGAG CCGTCGGTGC CTATGACTGG AATGGAGCTG TGCTAAAGGA GACGAGTGCC 
GGGAAGGTCA TTCCTCTCCG CGAGTCCTAC CTGAAAGAGT TCCCCGAGGA GCTCAAGAAC 
CATGGTGCAT ACCTGGGGTA CACAGTCACA TCGGTCGTGT CCTCCAGGCA GGGGCGGGTG 
TACGTGGCCG GAGCCCCCCG GTTCAACCAC ACGGGCAAGG TCATCCTGTT CACCATGCAC 
AACAACCGGA GCCTCACCAT CCACCAGGCT ATGCGGGGCC AGCAGATAGG CTCTTACTTT 
GGGAGTGAAA TCACCTCGGT GGACATCGAC GGCGACGGCG TGACTGATGT CCTGCTGGTG 
GGCGCACCCA TGTACTTCAA CGAGGGCCGT GAGCGAGGCA AGGTGTACGT CTATGAGCTG 
AGACAGAACC TGTTTGTTTA TAACGGAACG CTAAAGGATT CACACAGTTA CCAGAATGCC 
CGATTTGGGT CCTCCATTGC CTCAGTTCGA GACCTCAACC AGGATTCCTA CAATGACGTG 
GTGGTGGGAG CCCCCCTGGA GGACAACCAC GCAGGAGCCA TCTACATCTT CCACGGCTTC 
CGAGGCAGCA TCCTGAAGAC ACCTAAGCAG AGAATCACAG CCTCAGAGCT GGCTACCGGC 
CTCCAGTATT TTGGCTGCAG CATCCACGGG CAATTGGACC TCAATGAGGA TGGGCTCATC 
GACCTGGCAG TGGGAGCCCT TGGCAACGCT GTGATTCTGT GGTCCCGCCC AGTGGTTCAG 
ATCAATGCCA GCCTCCACTT TGAGCCATCC AAGATCAACA TCTTCCACAG AGACTGCAAG 
CGCAGTGGCA GGGATGCCAC CTGCCTGGCC GCCTTCCTCT GCTTCACGCC CATCTTCCTG 
GCACCCCATT TCCAAACAAC AACTGTTGGC ATCAGATACA ACGCCACCAT GGATGAGAGG 
CGGTATACAC CGAGGGCCCA CCTGGACGAG GGCGGGGACC GATTCACCAA CAGAGCCGTA 
CTGCTCTCCT CCGGCCAGGA GCTCTGTGAG CGGATCAACT TCCATGTCCT GGACACTGCT 
GACTACGTGA AGCCAGTGAC CTTCTCAGTC GAGTATTCCC TGGAGGACCC TGACCATGGC 
CCCATGCTGG ACGACGGCTG GCCCACCACT CTCAGAGTCT CGGTGCCCTT CTGGAACGGC 
TGCAATGAGG ATGAGCACTG TGTCCCTGAC CTTGTGTTGG ATGCCCGGAG TGACCTGCCC 
ACGGCCATGG AGTACTGCCA GAGGGTGCTG AGGAAGCCTG CGCAGGACTG CTCCGCATAC 
ACGCTGTCCT TCGACACCAC AGTCTTCATC ATAGAGAGCA CACGCCAGCG AGTGGCGGTG 
GAGGCCACAC TGGAGAACAG GGGCGAGAAC GCCTACAGCA CGGTCCTAAA TATCTCGCAG 
TCAGCAAACC TGCAGTTTGC CAGCTTGATC CAGAAGGAGG ACTCAGACGG TAGCATTGAG 
TGTGTGAACG AGGAGAGGAG GCTCCAGAAG CAAGTCTGCA ACGTCAGCTA TCCCTTCTTC 
CGGGCCAAGG CCAAGGTGGC TTTCCGTCTT GATTTTGAGT TCAGCAAATC CATCTTCCTA 
CACCACCTGG AGATCGAGCT CGCTGCAGGC AGTGACAGTA ATGAGCGGGA CAGCACCAAG 
GAAGACAACG TGGCCCCCTT ACGCTTCCAC CTCAAATACG AGGCTGACGT CCTCTTCACC 
AGGAGCAGCA GCCTGAGCCA CTACGAGGTC AAGCCCAACA GCTCGCTGGA GAGATACGAT 
GGTATCGGGC CTCCCTTCAG CTGCATCTTC AGGATCCAGA ACTTGGGCTT GTTCCCCATC 
CACGGGATGA TGATGAAGAT CACCATTCCC ATCGCCACCA GGAGCGGCAA CCGCCTACTG 
AAGCTGAGGG ACTTCCTCAC GGACGAGGCG AACACGTCCT GTAACATCTG GGGCAATAGC 
ACTGAGTACC GGCCCACCCC AGTGGAGGAA GACTTGCGTC GTGCTCCACA GCTGAATCAC 
AGCAACTCTG ATGTCGTCTC CATCAACTGC AATATACGGC TGGTCCCCAA CCAGGAAATC 
AATTTCCATC TACTGGGGAA CCTGTGGTTG AGGTCCCTAA AAGCACTCAA GTACAAATCC 
ATGAAAATCA TGGTCAACGC AGCCTTGCAG AGGCAGTTCC ACAGCCCCTT CATCTTCCGT 
GAGGAGGATC CCAGCCGCCA GATCGTGTTT GAGATCTCCA AGCAAGAGGA CTGGCAGGTC 
CCCATCTGGA TCATTGTAGG CAGCACCCTG GGGGGCCTCC TACTGCTGGC CCTGCTGGTC 
CTGGCACTGT GGAAGCTCGG CTTCTTTAGA AGTGCCAGGC GCAGGAGGGA GCCTGGTCTG 
GACCCCACCC CCAAAGTGCT GGAGTGA

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

RefSeq	NP_001004439.1
CDS	88..3654
Translation	MDLPRGLVVAWALSLWPGFTDTFNMDTRKPRVIPGSRTAFFGYTVQQHDISGNKWLVVGAPLETNGYQKTGDVYKCPVIHGNCTKLNLGRVTLSNVSERKDNMRLGLSLATNPKDNSFLACSPLWSHECGSSYYTTGMCSRVNSNFRFSKTVAPALQRCQTYMDIVIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGVVQYGEDVVHEFHLNDYRSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIQQSERDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGVLLGAVGAYDWNGAVLKETSAGKVIPLRESYLKEFPEELKNHGAYLGYTVTSVVSSRQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQAMRGQQIGSYFGSEITSVDIDGDGVTDVLLVGAPMYFNEGRERGKVYVYELRQNLFVYNGTLKDSHSYQNARFGSSIASVRDLNQDSYNDVVVGAPLEDNHAGAIYIFHGFRGSILKTPKQRITASELATGLQYFGCSIHGQLDLNEDGLIDLAVGALGNAVILWSRPVVQINASLHFEPSKINIFHRDCKRSGRDATCLAAFLCFTPIFLAPHFQTTTVGIRYNATMDERRYTPRAHLDEGGDRFTNRAVLLSSGQELCERINFHVLDTADYVKPVTFSVEYSLEDPDHGPMLDDGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTAMEYCQRVLRKPAQDCSAYTLSFDTTVFIIESTRQRVAVEATLENRGENAYSTVLNISQSANLQFASLIQKEDSDGSIECVNEERRLQKQVCNVSYPFFRAKAKVAFRLDFEFSKSIFLHHLEIELAAGSDSNERDSTKEDNVAPLRFHLKYEADVLFTRSSSLSHYEVKPNSSLERYDGIGPPFSCIFRIQNLGLFPIHGMMMKITIPIATRSGNRLLKLRDFLTDEANTSCNIWGNSTEYRPTPVEEDLRRAPQLNHSNSDVVSINCNIRLVPNQEINFHLLGNLWLRSLKALKYKSMKIMVNAALQRQFHSPFIFREEDPSRQIVFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWKLGFFRSARRRREPGLDPTPKVLE

Target ORF information:

RefSeq Version	NM_001004439.1
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.

Target ORF information:

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

NM_001004439.1

ORF Insert Sequence:

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGAAGG GTCACCCTGT CCAACGTGTC CGAGCGGAAA 
GACAACATGC GCCTCGGCCT TAGTCTCGCC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCCC TCTGGTCTCA TGAGTGTGGG AGCTCCTACT ACACCACAGG GATGTGTTCA 
AGAGTCAACT CCAACTTCAG GTTCTCCAAG ACCGTGGCCC CAGCTCTCCA AAGGTGCCAG 
ACCTACATGG ACATCGTCAT TGTCCTGGAT GGCTCCAACA GCATCTACCC CTGGGTGGAG 
GTTCAGCACT TCCTCATCAA CATCCTGAAA AAGTTTTACA TTGGCCCAGG GCAGATCCAG 
GTTGGAGTTG TGCAGTATGG CGAAGATGTG GTGCATGAGT TTCACCTCAA CGACTACAGG 
TCTGTAAAAG ATGTGGTGGA AGCTGCCAGC CACATTGAGC AGAGAGGAGG AACAGAGACC 
CGGACGGCAT TTGGCATTGA ATTTGCACGC TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGAGCCAAGA AGGTGATGAT TGTCATCACA GATGGGGAGT CCCACGACAG CCCAGACCTG 
GAGAAGGTGA TCCAGCAAAG CGAAAGAGAC AACGTAACAA GATATGCGGT GGCCGTCCTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCCAGTGACC CTGATGACAA GCACTTCTTC AATGTCACTG ATGAGGCTGC CTTGAAGGAC 
ATTGTCGATG CCCTGGGGGA CAGAATCTTC AGCCTGGAAG GCACCAACAA GAACGAGACC 
TCCTTTGGGC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ACGTGGTGGA GGATGGGGTT 
CTGCTGGGAG CCGTCGGTGC CTATGACTGG AATGGAGCTG TGCTAAAGGA GACGAGTGCC 
GGGAAGGTCA TTCCTCTCCG CGAGTCCTAC CTGAAAGAGT TCCCCGAGGA GCTCAAGAAC 
CATGGTGCAT ACCTGGGGTA CACAGTCACA TCGGTCGTGT CCTCCAGGCA GGGGCGGGTG 
TACGTGGCCG GAGCCCCCCG GTTCAACCAC ACGGGCAAGG TCATCCTGTT CACCATGCAC 
AACAACCGGA GCCTCACCAT CCACCAGGCT ATGCGGGGCC AGCAGATAGG CTCTTACTTT 
GGGAGTGAAA TCACCTCGGT GGACATCGAC GGCGACGGCG TGACTGATGT CCTGCTGGTG 
GGCGCACCCA TGTACTTCAA CGAGGGCCGT GAGCGAGGCA AGGTGTACGT CTATGAGCTG 
AGACAGAACC TGTTTGTTTA TAACGGAACG CTAAAGGATT CACACAGTTA CCAGAATGCC 
CGATTTGGGT CCTCCATTGC CTCAGTTCGA GACCTCAACC AGGATTCCTA CAATGACGTG 
GTGGTGGGAG CCCCCCTGGA GGACAACCAC GCAGGAGCCA TCTACATCTT CCACGGCTTC 
CGAGGCAGCA TCCTGAAGAC ACCTAAGCAG AGAATCACAG CCTCAGAGCT GGCTACCGGC 
CTCCAGTATT TTGGCTGCAG CATCCACGGG CAATTGGACC TCAATGAGGA TGGGCTCATC 
GACCTGGCAG TGGGAGCCCT TGGCAACGCT GTGATTCTGT GGTCCCGCCC AGTGGTTCAG 
ATCAATGCCA GCCTCCACTT TGAGCCATCC AAGATCAACA TCTTCCACAG AGACTGCAAG 
CGCAGTGGCA GGGATGCCAC CTGCCTGGCC GCCTTCCTCT GCTTCACGCC CATCTTCCTG 
GCACCCCATT TCCAAACAAC AACTGTTGGC ATCAGATACA ACGCCACCAT GGATGAGAGG 
CGGTATACAC CGAGGGCCCA CCTGGACGAG GGCGGGGACC GATTCACCAA CAGAGCCGTA 
CTGCTCTCCT CCGGCCAGGA GCTCTGTGAG CGGATCAACT TCCATGTCCT GGACACTGCT 
GACTACGTGA AGCCAGTGAC CTTCTCAGTC GAGTATTCCC TGGAGGACCC TGACCATGGC 
CCCATGCTGG ACGACGGCTG GCCCACCACT CTCAGAGTCT CGGTGCCCTT CTGGAACGGC 
TGCAATGAGG ATGAGCACTG TGTCCCTGAC CTTGTGTTGG ATGCCCGGAG TGACCTGCCC 
ACGGCCATGG AGTACTGCCA GAGGGTGCTG AGGAAGCCTG CGCAGGACTG CTCCGCATAC 
ACGCTGTCCT TCGACACCAC AGTCTTCATC ATAGAGAGCA CACGCCAGCG AGTGGCGGTG 
GAGGCCACAC TGGAGAACAG GGGCGAGAAC GCCTACAGCA CGGTCCTAAA TATCTCGCAG 
TCAGCAAACC TGCAGTTTGC CAGCTTGATC CAGAAGGAGG ACTCAGACGG TAGCATTGAG 
TGTGTGAACG AGGAGAGGAG GCTCCAGAAG CAAGTCTGCA ACGTCAGCTA TCCCTTCTTC 
CGGGCCAAGG CCAAGGTGGC TTTCCGTCTT GATTTTGAGT TCAGCAAATC CATCTTCCTA 
CACCACCTGG AGATCGAGCT CGCTGCAGGC AGTGACAGTA ATGAGCGGGA CAGCACCAAG 
GAAGACAACG TGGCCCCCTT ACGCTTCCAC CTCAAATACG AGGCTGACGT CCTCTTCACC 
AGGAGCAGCA GCCTGAGCCA CTACGAGGTC AAGCCCAACA GCTCGCTGGA GAGATACGAT 
GGTATCGGGC CTCCCTTCAG CTGCATCTTC AGGATCCAGA ACTTGGGCTT GTTCCCCATC 
CACGGGATGA TGATGAAGAT CACCATTCCC ATCGCCACCA GGAGCGGCAA CCGCCTACTG 
AAGCTGAGGG ACTTCCTCAC GGACGAGGCG AACACGTCCT GTAACATCTG GGGCAATAGC 
ACTGAGTACC GGCCCACCCC AGTGGAGGAA GACTTGCGTC GTGCTCCACA GCTGAATCAC 
AGCAACTCTG ATGTCGTCTC CATCAACTGC AATATACGGC TGGTCCCCAA CCAGGAAATC 
AATTTCCATC TACTGGGGAA CCTGTGGTTG AGGTCCCTAA AAGCACTCAA GTACAAATCC 
ATGAAAATCA TGGTCAACGC AGCCTTGCAG AGGCAGTTCC ACAGCCCCTT CATCTTCCGT 
GAGGAGGATC CCAGCCGCCA GATCGTGTTT GAGATCTCCA AGCAAGAGGA CTGGCAGGTC 
CCCATCTGGA TCATTGTAGG CAGCACCCTG GGGGGCCTCC TACTGCTGGC CCTGCTGGTC 
CTGGCACTGT GGAAGCTCGG CTTCTTTAGA AGTGCCAGGC GCAGGAGGGA GCCTGGTCTG 
GACCCCACCC CCAAAGTGCT GGAGTGA

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

ITGA11 ( NM_001004439.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001004439.1 Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.

Price & Availability↑

CloneID	OHu13046
Clone ID Related Accession (Same CDS sequence)	NM_001004439.1 , NM_001004439.2
Accession Version	NM_001004439.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3567bp) 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	2019-05-03
Organism	Homo sapiens(human)
Product	integrin alpha-11 precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC100825.2, AF137378.2, AK095863.1, AF109681.1, BX496541.1, CN358985.1, AL359064.1 and AC021553.14. On Nov 22, 2018 this sequence version replaced NM_001004439.1. 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 :: SRR1660809.197352.1, SRR1803613.163839.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000315757.9/ ENSP00000327290.7 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGAAGG GTCACCCTGT CCAACGTGTC CGAGCGGAAA 
GACAACATGC GCCTCGGCCT TAGTCTCGCC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCCC TCTGGTCTCA TGAGTGTGGG AGCTCCTACT ACACCACAGG GATGTGTTCA 
AGAGTCAACT CCAACTTCAG GTTCTCCAAG ACCGTGGCCC CAGCTCTCCA AAGGTGCCAG 
ACCTACATGG ACATCGTCAT TGTCCTGGAT GGCTCCAACA GCATCTACCC CTGGGTGGAG 
GTTCAGCACT TCCTCATCAA CATCCTGAAA AAGTTTTACA TTGGCCCAGG GCAGATCCAG 
GTTGGAGTTG TGCAGTATGG CGAAGATGTG GTGCATGAGT TTCACCTCAA CGACTACAGG 
TCTGTAAAAG ATGTGGTGGA AGCTGCCAGC CACATTGAGC AGAGAGGAGG AACAGAGACC 
CGGACGGCAT TTGGCATTGA ATTTGCACGC TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGAGCCAAGA AGGTGATGAT TGTCATCACA GATGGGGAGT CCCACGACAG CCCAGACCTG 
GAGAAGGTGA TCCAGCAAAG CGAAAGAGAC AACGTAACAA GATATGCGGT GGCCGTCCTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCCAGTGACC CTGATGACAA GCACTTCTTC AATGTCACTG ATGAGGCTGC CTTGAAGGAC 
ATTGTCGATG CCCTGGGGGA CAGAATCTTC AGCCTGGAAG GCACCAACAA GAACGAGACC 
TCCTTTGGGC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ACGTGGTGGA GGATGGGGTT 
CTGCTGGGAG CCGTCGGTGC CTATGACTGG AATGGAGCTG TGCTAAAGGA GACGAGTGCC 
GGGAAGGTCA TTCCTCTCCG CGAGTCCTAC CTGAAAGAGT TCCCCGAGGA GCTCAAGAAC 
CATGGTGCAT ACCTGGGGTA CACAGTCACA TCGGTCGTGT CCTCCAGGCA GGGGCGGGTG 
TACGTGGCCG GAGCCCCCCG GTTCAACCAC ACGGGCAAGG TCATCCTGTT CACCATGCAC 
AACAACCGGA GCCTCACCAT CCACCAGGCT ATGCGGGGCC AGCAGATAGG CTCTTACTTT 
GGGAGTGAAA TCACCTCGGT GGACATCGAC GGCGACGGCG TGACTGATGT CCTGCTGGTG 
GGCGCACCCA TGTACTTCAA CGAGGGCCGT GAGCGAGGCA AGGTGTACGT CTATGAGCTG 
AGACAGAACC TGTTTGTTTA TAACGGAACG CTAAAGGATT CACACAGTTA CCAGAATGCC 
CGATTTGGGT CCTCCATTGC CTCAGTTCGA GACCTCAACC AGGATTCCTA CAATGACGTG 
GTGGTGGGAG CCCCCCTGGA GGACAACCAC GCAGGAGCCA TCTACATCTT CCACGGCTTC 
CGAGGCAGCA TCCTGAAGAC ACCTAAGCAG AGAATCACAG CCTCAGAGCT GGCTACCGGC 
CTCCAGTATT TTGGCTGCAG CATCCACGGG CAATTGGACC TCAATGAGGA TGGGCTCATC 
GACCTGGCAG TGGGAGCCCT TGGCAACGCT GTGATTCTGT GGTCCCGCCC AGTGGTTCAG 
ATCAATGCCA GCCTCCACTT TGAGCCATCC AAGATCAACA TCTTCCACAG AGACTGCAAG 
CGCAGTGGCA GGGATGCCAC CTGCCTGGCC GCCTTCCTCT GCTTCACGCC CATCTTCCTG 
GCACCCCATT TCCAAACAAC AACTGTTGGC ATCAGATACA ACGCCACCAT GGATGAGAGG 
CGGTATACAC CGAGGGCCCA CCTGGACGAG GGCGGGGACC GATTCACCAA CAGAGCCGTA 
CTGCTCTCCT CCGGCCAGGA GCTCTGTGAG CGGATCAACT TCCATGTCCT GGACACTGCT 
GACTACGTGA AGCCAGTGAC CTTCTCAGTC GAGTATTCCC TGGAGGACCC TGACCATGGC 
CCCATGCTGG ACGACGGCTG GCCCACCACT CTCAGAGTCT CGGTGCCCTT CTGGAACGGC 
TGCAATGAGG ATGAGCACTG TGTCCCTGAC CTTGTGTTGG ATGCCCGGAG TGACCTGCCC 
ACGGCCATGG AGTACTGCCA GAGGGTGCTG AGGAAGCCTG CGCAGGACTG CTCCGCATAC 
ACGCTGTCCT TCGACACCAC AGTCTTCATC ATAGAGAGCA CACGCCAGCG AGTGGCGGTG 
GAGGCCACAC TGGAGAACAG GGGCGAGAAC GCCTACAGCA CGGTCCTAAA TATCTCGCAG 
TCAGCAAACC TGCAGTTTGC CAGCTTGATC CAGAAGGAGG ACTCAGACGG TAGCATTGAG 
TGTGTGAACG AGGAGAGGAG GCTCCAGAAG CAAGTCTGCA ACGTCAGCTA TCCCTTCTTC 
CGGGCCAAGG CCAAGGTGGC TTTCCGTCTT GATTTTGAGT TCAGCAAATC CATCTTCCTA 
CACCACCTGG AGATCGAGCT CGCTGCAGGC AGTGACAGTA ATGAGCGGGA CAGCACCAAG 
GAAGACAACG TGGCCCCCTT ACGCTTCCAC CTCAAATACG AGGCTGACGT CCTCTTCACC 
AGGAGCAGCA GCCTGAGCCA CTACGAGGTC AAGCCCAACA GCTCGCTGGA GAGATACGAT 
GGTATCGGGC CTCCCTTCAG CTGCATCTTC AGGATCCAGA ACTTGGGCTT GTTCCCCATC 
CACGGGATGA TGATGAAGAT CACCATTCCC ATCGCCACCA GGAGCGGCAA CCGCCTACTG 
AAGCTGAGGG ACTTCCTCAC GGACGAGGCG AACACGTCCT GTAACATCTG GGGCAATAGC 
ACTGAGTACC GGCCCACCCC AGTGGAGGAA GACTTGCGTC GTGCTCCACA GCTGAATCAC 
AGCAACTCTG ATGTCGTCTC CATCAACTGC AATATACGGC TGGTCCCCAA CCAGGAAATC 
AATTTCCATC TACTGGGGAA CCTGTGGTTG AGGTCCCTAA AAGCACTCAA GTACAAATCC 
ATGAAAATCA TGGTCAACGC AGCCTTGCAG AGGCAGTTCC ACAGCCCCTT CATCTTCCGT 
GAGGAGGATC CCAGCCGCCA GATCGTGTTT GAGATCTCCA AGCAAGAGGA CTGGCAGGTC 
CCCATCTGGA TCATTGTAGG CAGCACCCTG GGGGGCCTCC TACTGCTGGC CCTGCTGGTC 
CTGGCACTGT GGAAGCTCGG CTTCTTTAGA AGTGCCAGGC GCAGGAGGGA GCCTGGTCTG 
GACCCCACCC CCAAAGTGCT GGAGTGA

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

RefSeq	NP_001004439.1
CDS	98..3664
Translation	MDLPRGLVVAWALSLWPGFTDTFNMDTRKPRVIPGSRTAFFGYTVQQHDISGNKWLVVGAPLETNGYQKTGDVYKCPVIHGNCTKLNLGRVTLSNVSERKDNMRLGLSLATNPKDNSFLACSPLWSHECGSSYYTTGMCSRVNSNFRFSKTVAPALQRCQTYMDIVIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGVVQYGEDVVHEFHLNDYRSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIQQSERDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGVLLGAVGAYDWNGAVLKETSAGKVIPLRESYLKEFPEELKNHGAYLGYTVTSVVSSRQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQAMRGQQIGSYFGSEITSVDIDGDGVTDVLLVGAPMYFNEGRERGKVYVYELRQNLFVYNGTLKDSHSYQNARFGSSIASVRDLNQDSYNDVVVGAPLEDNHAGAIYIFHGFRGSILKTPKQRITASELATGLQYFGCSIHGQLDLNEDGLIDLAVGALGNAVILWSRPVVQINASLHFEPSKINIFHRDCKRSGRDATCLAAFLCFTPIFLAPHFQTTTVGIRYNATMDERRYTPRAHLDEGGDRFTNRAVLLSSGQELCERINFHVLDTADYVKPVTFSVEYSLEDPDHGPMLDDGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTAMEYCQRVLRKPAQDCSAYTLSFDTTVFIIESTRQRVAVEATLENRGENAYSTVLNISQSANLQFASLIQKEDSDGSIECVNEERRLQKQVCNVSYPFFRAKAKVAFRLDFEFSKSIFLHHLEIELAAGSDSNERDSTKEDNVAPLRFHLKYEADVLFTRSSSLSHYEVKPNSSLERYDGIGPPFSCIFRIQNLGLFPIHGMMMKITIPIATRSGNRLLKLRDFLTDEANTSCNIWGNSTEYRPTPVEEDLRRAPQLNHSNSDVVSINCNIRLVPNQEINFHLLGNLWLRSLKALKYKSMKIMVNAALQRQFHSPFIFREEDPSRQIVFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWKLGFFRSARRRREPGLDPTPKVLE

Target ORF information:

RefSeq Version	NM_001004439.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha 11 (ITGA11), mRNA.

Target ORF information:

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

NM_001004439.2

ORF Insert Sequence:

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGAAGG GTCACCCTGT CCAACGTGTC CGAGCGGAAA 
GACAACATGC GCCTCGGCCT TAGTCTCGCC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCCC TCTGGTCTCA TGAGTGTGGG AGCTCCTACT ACACCACAGG GATGTGTTCA 
AGAGTCAACT CCAACTTCAG GTTCTCCAAG ACCGTGGCCC CAGCTCTCCA AAGGTGCCAG 
ACCTACATGG ACATCGTCAT TGTCCTGGAT GGCTCCAACA GCATCTACCC CTGGGTGGAG 
GTTCAGCACT TCCTCATCAA CATCCTGAAA AAGTTTTACA TTGGCCCAGG GCAGATCCAG 
GTTGGAGTTG TGCAGTATGG CGAAGATGTG GTGCATGAGT TTCACCTCAA CGACTACAGG 
TCTGTAAAAG ATGTGGTGGA AGCTGCCAGC CACATTGAGC AGAGAGGAGG AACAGAGACC 
CGGACGGCAT TTGGCATTGA ATTTGCACGC TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGAGCCAAGA AGGTGATGAT TGTCATCACA GATGGGGAGT CCCACGACAG CCCAGACCTG 
GAGAAGGTGA TCCAGCAAAG CGAAAGAGAC AACGTAACAA GATATGCGGT GGCCGTCCTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCCAGTGACC CTGATGACAA GCACTTCTTC AATGTCACTG ATGAGGCTGC CTTGAAGGAC 
ATTGTCGATG CCCTGGGGGA CAGAATCTTC AGCCTGGAAG GCACCAACAA GAACGAGACC 
TCCTTTGGGC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ACGTGGTGGA GGATGGGGTT 
CTGCTGGGAG CCGTCGGTGC CTATGACTGG AATGGAGCTG TGCTAAAGGA GACGAGTGCC 
GGGAAGGTCA TTCCTCTCCG CGAGTCCTAC CTGAAAGAGT TCCCCGAGGA GCTCAAGAAC 
CATGGTGCAT ACCTGGGGTA CACAGTCACA TCGGTCGTGT CCTCCAGGCA GGGGCGGGTG 
TACGTGGCCG GAGCCCCCCG GTTCAACCAC ACGGGCAAGG TCATCCTGTT CACCATGCAC 
AACAACCGGA GCCTCACCAT CCACCAGGCT ATGCGGGGCC AGCAGATAGG CTCTTACTTT 
GGGAGTGAAA TCACCTCGGT GGACATCGAC GGCGACGGCG TGACTGATGT CCTGCTGGTG 
GGCGCACCCA TGTACTTCAA CGAGGGCCGT GAGCGAGGCA AGGTGTACGT CTATGAGCTG 
AGACAGAACC TGTTTGTTTA TAACGGAACG CTAAAGGATT CACACAGTTA CCAGAATGCC 
CGATTTGGGT CCTCCATTGC CTCAGTTCGA GACCTCAACC AGGATTCCTA CAATGACGTG 
GTGGTGGGAG CCCCCCTGGA GGACAACCAC GCAGGAGCCA TCTACATCTT CCACGGCTTC 
CGAGGCAGCA TCCTGAAGAC ACCTAAGCAG AGAATCACAG CCTCAGAGCT GGCTACCGGC 
CTCCAGTATT TTGGCTGCAG CATCCACGGG CAATTGGACC TCAATGAGGA TGGGCTCATC 
GACCTGGCAG TGGGAGCCCT TGGCAACGCT GTGATTCTGT GGTCCCGCCC AGTGGTTCAG 
ATCAATGCCA GCCTCCACTT TGAGCCATCC AAGATCAACA TCTTCCACAG AGACTGCAAG 
CGCAGTGGCA GGGATGCCAC CTGCCTGGCC GCCTTCCTCT GCTTCACGCC CATCTTCCTG 
GCACCCCATT TCCAAACAAC AACTGTTGGC ATCAGATACA ACGCCACCAT GGATGAGAGG 
CGGTATACAC CGAGGGCCCA CCTGGACGAG GGCGGGGACC GATTCACCAA CAGAGCCGTA 
CTGCTCTCCT CCGGCCAGGA GCTCTGTGAG CGGATCAACT TCCATGTCCT GGACACTGCT 
GACTACGTGA AGCCAGTGAC CTTCTCAGTC GAGTATTCCC TGGAGGACCC TGACCATGGC 
CCCATGCTGG ACGACGGCTG GCCCACCACT CTCAGAGTCT CGGTGCCCTT CTGGAACGGC 
TGCAATGAGG ATGAGCACTG TGTCCCTGAC CTTGTGTTGG ATGCCCGGAG TGACCTGCCC 
ACGGCCATGG AGTACTGCCA GAGGGTGCTG AGGAAGCCTG CGCAGGACTG CTCCGCATAC 
ACGCTGTCCT TCGACACCAC AGTCTTCATC ATAGAGAGCA CACGCCAGCG AGTGGCGGTG 
GAGGCCACAC TGGAGAACAG GGGCGAGAAC GCCTACAGCA CGGTCCTAAA TATCTCGCAG 
TCAGCAAACC TGCAGTTTGC CAGCTTGATC CAGAAGGAGG ACTCAGACGG TAGCATTGAG 
TGTGTGAACG AGGAGAGGAG GCTCCAGAAG CAAGTCTGCA ACGTCAGCTA TCCCTTCTTC 
CGGGCCAAGG CCAAGGTGGC TTTCCGTCTT GATTTTGAGT TCAGCAAATC CATCTTCCTA 
CACCACCTGG AGATCGAGCT CGCTGCAGGC AGTGACAGTA ATGAGCGGGA CAGCACCAAG 
GAAGACAACG TGGCCCCCTT ACGCTTCCAC CTCAAATACG AGGCTGACGT CCTCTTCACC 
AGGAGCAGCA GCCTGAGCCA CTACGAGGTC AAGCCCAACA GCTCGCTGGA GAGATACGAT 
GGTATCGGGC CTCCCTTCAG CTGCATCTTC AGGATCCAGA ACTTGGGCTT GTTCCCCATC 
CACGGGATGA TGATGAAGAT CACCATTCCC ATCGCCACCA GGAGCGGCAA CCGCCTACTG 
AAGCTGAGGG ACTTCCTCAC GGACGAGGCG AACACGTCCT GTAACATCTG GGGCAATAGC 
ACTGAGTACC GGCCCACCCC AGTGGAGGAA GACTTGCGTC GTGCTCCACA GCTGAATCAC 
AGCAACTCTG ATGTCGTCTC CATCAACTGC AATATACGGC TGGTCCCCAA CCAGGAAATC 
AATTTCCATC TACTGGGGAA CCTGTGGTTG AGGTCCCTAA AAGCACTCAA GTACAAATCC 
ATGAAAATCA TGGTCAACGC AGCCTTGCAG AGGCAGTTCC ACAGCCCCTT CATCTTCCGT 
GAGGAGGATC CCAGCCGCCA GATCGTGTTT GAGATCTCCA AGCAAGAGGA CTGGCAGGTC 
CCCATCTGGA TCATTGTAGG CAGCACCCTG GGGGGCCTCC TACTGCTGGC CCTGCTGGTC 
CTGGCACTGT GGAAGCTCGG CTTCTTTAGA AGTGCCAGGC GCAGGAGGGA GCCTGGTCTG 
GACCCCACCC CCAAAGTGCT GGAGTGA

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

ITGA11 ( XM_005254228.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005254285.1 Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X2, mRNA.

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CloneID	OHu48169
Clone ID Related Accession (Same CDS sequence)	XM_005254228.3
Accession Version	XM_005254228.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	2019-06-12
Organism	Homo sapiens(human)
Product	integrin alpha-11 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) 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_005254228.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20190607 Annotation Version :: 109.20190607 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA Annotation Freeze :: 20190607 ##Genome-Annotation-Data-END##

ATGCGCCTCG GCCTTAGTCT CGCCACCAAC CCCAAGGACA ACAGCTTCCT GGCCTGCAGC 
CCCCTCTGGT CTCATGAGTG TGGGAGCTCC TACTACACCA CAGGGATGTG TTCAAGAGTC 
AACTCCAACT TCAGGTTCTC CAAGACCGTG GCCCCAGCTC TCCAAAGGTG CCAGACCTAC 
ATGGACATCG TCATTGTCCT GGATGGCTCC AACAGCATCT ACCCCTGGGT GGAGGTTCAG 
CACTTCCTCA TCAACATCCT GAAAAAGTTT TACATTGGCC CAGGGCAGAT CCAGGTTGGA 
GTTGTGCAGT ATGGCGAAGA TGTGGTGCAT GAGTTTCACC TCAACGACTA CAGGTCTGTA 
AAAGATGTGG TGGAAGCTGC CAGCCACATT GAGCAGAGAG GAGGAACAGA GACCCGGACG 
GCATTTGGCA TTGAATTTGC ACGCTCAGAG GCTTTCCAGA AGGGTGGAAG GAAAGGAGCC 
AAGAAGGTGA TGATTGTCAT CACAGATGGG GAGTCCCACG ACAGCCCAGA CCTGGAGAAG 
GTGATCCAGC AAAGCGAAAG AGACAACGTA ACAAGATATG CGGTGGCCGT CCTGGGCTAC 
TACAACCGCA GGGGGATCAA TCCAGAAACT TTTCTAAATG AAATCAAATA CATCGCCAGT 
GACCCTGATG ACAAGCACTT CTTCAATGTC ACTGATGAGG CTGCCTTGAA GGACATTGTC 
GATGCCCTGG GGGACAGAAT CTTCAGCCTG GAAGGCACCA ACAAGAACGA GACCTCCTTT 
GGGCTGGAGA TGTCACAGAC GGGCTTTTCC TCGCACGTGG TGGAGGATGG GGTTCTGCTG 
GGAGCCGTCG GTGCCTATGA CTGGAATGGA GCTGTGCTAA AGGAGACGAG TGCCGGGAAG 
GTCATTCCTC TCCGCGAGTC CTACCTGAAA GAGTTCCCCG AGGAGCTCAA GAACCATGGT 
GCATACCTGG GGTACACAGT CACATCGGTC GTGTCCTCCA GGCAGGGGCG GGTGTACGTG 
GCCGGAGCCC CCCGGTTCAA CCACACGGGC AAGGTCATCC TGTTCACCAT GCACAACAAC 
CGGAGCCTCA CCATCCACCA GGCTATGCGG GGCCAGCAGA TAGGCTCTTA CTTTGGGAGT 
GAAATCACCT CGGTGGACAT CGACGGCGAC GGCGTGACTG ATGTCCTGCT GGTGGGCGCA 
CCCATGTACT TCAACGAGGG CCGTGAGCGA GGCAAGGTGT ACGTCTATGA GCTGAGACAG 
AACCTGTTTG TTTATAACGG AACGCTAAAG GATTCACACA GTTACCAGAA TGCCCGATTT 
GGGTCCTCCA TTGCCTCAGT TCGAGACCTC AACCAGGATT CCTACAATGA CGTGGTGGTG 
GGAGCCCCCC TGGAGGACAA CCACGCAGGA GCCATCTACA TCTTCCACGG CTTCCGAGGC 
AGCATCCTGA AGACACCTAA GCAGAGAATC ACAGCCTCAG AGCTGGCTAC CGGCCTCCAG 
TATTTTGGCT GCAGCATCCA CGGGCAATTG GACCTCAATG AGGATGGGCT CATCGACCTG 
GCAGTGGGAG CCCTTGGCAA CGCTGTGATT CTGTGGTCCC GCCCAGTGGT TCAGATCAAT 
GCCAGCCTCC ACTTTGAGCC ATCCAAGATC AACATCTTCC ACAGAGACTG CAAGCGCAGT 
GGCAGGGATG CCACCTGCCT GGCCGCCTTC CTCTGCTTCA CGCCCATCTT CCTGGCACCC 
CATTTCCAAA CAACAACTGT TGGCATCAGA TACAACGCCA CCATGGATGA GAGGCGGTAT 
ACACCGAGGG CCCACCTGGA CGAGGGCGGG GACCGATTCA CCAACAGAGC CGTACTGCTC 
TCCTCCGGCC AGGAGCTCTG TGAGCGGATC AACTTCCATG TCCTGGACAC TGCTGACTAC 
GTGAAGCCAG TGACCTTCTC AGTCGAGTAT TCCCTGGAGG ACCCTGACCA TGGCCCCATG 
CTGGACGACG GCTGGCCCAC CACTCTCAGA GTCTCGGTGC CCTTCTGGAA CGGCTGCAAT 
GAGGATGAGC ACTGTGTCCC TGACCTTGTG TTGGATGCCC GGAGTGACCT GCCCACGGCC 
ATGGAGTACT GCCAGAGGGT GCTGAGGAAG CCTGCGCAGG ACTGCTCCGC ATACACGCTG 
TCCTTCGACA CCACAGTCTT CATCATAGAG AGCACACGCC AGCGAGTGGC GGTGGAGGCC 
ACACTGGAGA ACAGGGGCGA GAACGCCTAC AGCACGGTCC TAAATATCTC GCAGTCAGCA 
AACCTGCAGT TTGCCAGCTT GATCCAGAAG GAGGACTCAG ACGGTAGCAT TGAGTGTGTG 
AACGAGGAGA GGAGGCTCCA GAAGCAAGTC TGCAACGTCA GCTATCCCTT CTTCCGGGCC 
AAGGCCAAGG TGGCTTTCCG TCTTGATTTT GAGTTCAGCA AATCCATCTT CCTACACCAC 
CTGGAGATCG AGCTCGCTGC AGGCAGTGAC AGTAATGAGC GGGACAGCAC CAAGGAAGAC 
AACGTGGCCC CCTTACGCTT CCACCTCAAA TACGAGGCTG ACGTCCTCTT CACCAGGAGC 
AGCAGCCTGA GCCACTACGA GGTCAAGCCC AACAGCTCGC TGGAGAGATA CGATGGTATC 
GGGCCTCCCT TCAGCTGCAT CTTCAGGATC CAGAACTTGG GCTTGTTCCC CATCCACGGG 
ATGATGATGA AGATCACCAT TCCCATCGCC ACCAGGAGCG GCAACCGCCT ACTGAAGCTG 
AGGGACTTCC TCACGGACGA GGCGAACACG TCCTGTAACA TCTGGGGCAA TAGCACTGAG 
TACCGGCCCA CCCCAGTGGA GGAAGACTTG CGTCGTGCTC CACAGCTGAA TCACAGCAAC 
TCTGATGTCG TCTCCATCAA CTGCAATATA CGGCTGGTCC CCAACCAGGA AATCAATTTC 
CATCTACTGG GGAACCTGTG GTTGAGGTCC CTAAAAGCAC TCAAGTACAA ATCCATGAAA 
ATCATGGTCA ACGCAGCCTT GCAGAGGCAG TTCCACAGCC CCTTCATCTT CCGTGAGGAG 
GATCCCAGCC GCCAGATCGT GTTTGAGATC TCCAAGCAAG AGGACTGGCA GGTCCCCATC 
TGGATCATTG TAGGCAGCAC CCTGGGGGGC CTCCTACTGC TGGCCCTGCT GGTCCTGGCA 
CTGTGGAAGC TCGGCTTCTT TAGAAGTGCC AGGCGCAGGA GGGAGCCTGG TCTGGACCCC 
ACCCCCAAAG TGCTGGAGTG A

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

RefSeq	XP_005254285.1
CDS	616..3876
Translation	MRLGLSLATNPKDNSFLACSPLWSHECGSSYYTTGMCSRVNSNFRFSKTVAPALQRCQTYMDIVIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGVVQYGEDVVHEFHLNDYRSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIQQSERDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGVLLGAVGAYDWNGAVLKETSAGKVIPLRESYLKEFPEELKNHGAYLGYTVTSVVSSRQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQAMRGQQIGSYFGSEITSVDIDGDGVTDVLLVGAPMYFNEGRERGKVYVYELRQNLFVYNGTLKDSHSYQNARFGSSIASVRDLNQDSYNDVVVGAPLEDNHAGAIYIFHGFRGSILKTPKQRITASELATGLQYFGCSIHGQLDLNEDGLIDLAVGALGNAVILWSRPVVQINASLHFEPSKINIFHRDCKRSGRDATCLAAFLCFTPIFLAPHFQTTTVGIRYNATMDERRYTPRAHLDEGGDRFTNRAVLLSSGQELCERINFHVLDTADYVKPVTFSVEYSLEDPDHGPMLDDGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTAMEYCQRVLRKPAQDCSAYTLSFDTTVFIIESTRQRVAVEATLENRGENAYSTVLNISQSANLQFASLIQKEDSDGSIECVNEERRLQKQVCNVSYPFFRAKAKVAFRLDFEFSKSIFLHHLEIELAAGSDSNERDSTKEDNVAPLRFHLKYEADVLFTRSSSLSHYEVKPNSSLERYDGIGPPFSCIFRIQNLGLFPIHGMMMKITIPIATRSGNRLLKLRDFLTDEANTSCNIWGNSTEYRPTPVEEDLRRAPQLNHSNSDVVSINCNIRLVPNQEINFHLLGNLWLRSLKALKYKSMKIMVNAALQRQFHSPFIFREEDPSRQIVFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWKLGFFRSARRRREPGLDPTPKVLE

Target ORF information:

RefSeq Version	XM_005254228.3
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X2, mRNA.

Target ORF information:

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

XM_005254228.3

ORF Insert Sequence:

ATGCGCCTCG GCCTTAGTCT CGCCACCAAC CCCAAGGACA ACAGCTTCCT GGCCTGCAGC 
CCCCTCTGGT CTCATGAGTG TGGGAGCTCC TACTACACCA CAGGGATGTG TTCAAGAGTC 
AACTCCAACT TCAGGTTCTC CAAGACCGTG GCCCCAGCTC TCCAAAGGTG CCAGACCTAC 
ATGGACATCG TCATTGTCCT GGATGGCTCC AACAGCATCT ACCCCTGGGT GGAGGTTCAG 
CACTTCCTCA TCAACATCCT GAAAAAGTTT TACATTGGCC CAGGGCAGAT CCAGGTTGGA 
GTTGTGCAGT ATGGCGAAGA TGTGGTGCAT GAGTTTCACC TCAACGACTA CAGGTCTGTA 
AAAGATGTGG TGGAAGCTGC CAGCCACATT GAGCAGAGAG GAGGAACAGA GACCCGGACG 
GCATTTGGCA TTGAATTTGC ACGCTCAGAG GCTTTCCAGA AGGGTGGAAG GAAAGGAGCC 
AAGAAGGTGA TGATTGTCAT CACAGATGGG GAGTCCCACG ACAGCCCAGA CCTGGAGAAG 
GTGATCCAGC AAAGCGAAAG AGACAACGTA ACAAGATATG CGGTGGCCGT CCTGGGCTAC 
TACAACCGCA GGGGGATCAA TCCAGAAACT TTTCTAAATG AAATCAAATA CATCGCCAGT 
GACCCTGATG ACAAGCACTT CTTCAATGTC ACTGATGAGG CTGCCTTGAA GGACATTGTC 
GATGCCCTGG GGGACAGAAT CTTCAGCCTG GAAGGCACCA ACAAGAACGA GACCTCCTTT 
GGGCTGGAGA TGTCACAGAC GGGCTTTTCC TCGCACGTGG TGGAGGATGG GGTTCTGCTG 
GGAGCCGTCG GTGCCTATGA CTGGAATGGA GCTGTGCTAA AGGAGACGAG TGCCGGGAAG 
GTCATTCCTC TCCGCGAGTC CTACCTGAAA GAGTTCCCCG AGGAGCTCAA GAACCATGGT 
GCATACCTGG GGTACACAGT CACATCGGTC GTGTCCTCCA GGCAGGGGCG GGTGTACGTG 
GCCGGAGCCC CCCGGTTCAA CCACACGGGC AAGGTCATCC TGTTCACCAT GCACAACAAC 
CGGAGCCTCA CCATCCACCA GGCTATGCGG GGCCAGCAGA TAGGCTCTTA CTTTGGGAGT 
GAAATCACCT CGGTGGACAT CGACGGCGAC GGCGTGACTG ATGTCCTGCT GGTGGGCGCA 
CCCATGTACT TCAACGAGGG CCGTGAGCGA GGCAAGGTGT ACGTCTATGA GCTGAGACAG 
AACCTGTTTG TTTATAACGG AACGCTAAAG GATTCACACA GTTACCAGAA TGCCCGATTT 
GGGTCCTCCA TTGCCTCAGT TCGAGACCTC AACCAGGATT CCTACAATGA CGTGGTGGTG 
GGAGCCCCCC TGGAGGACAA CCACGCAGGA GCCATCTACA TCTTCCACGG CTTCCGAGGC 
AGCATCCTGA AGACACCTAA GCAGAGAATC ACAGCCTCAG AGCTGGCTAC CGGCCTCCAG 
TATTTTGGCT GCAGCATCCA CGGGCAATTG GACCTCAATG AGGATGGGCT CATCGACCTG 
GCAGTGGGAG CCCTTGGCAA CGCTGTGATT CTGTGGTCCC GCCCAGTGGT TCAGATCAAT 
GCCAGCCTCC ACTTTGAGCC ATCCAAGATC AACATCTTCC ACAGAGACTG CAAGCGCAGT 
GGCAGGGATG CCACCTGCCT GGCCGCCTTC CTCTGCTTCA CGCCCATCTT CCTGGCACCC 
CATTTCCAAA CAACAACTGT TGGCATCAGA TACAACGCCA CCATGGATGA GAGGCGGTAT 
ACACCGAGGG CCCACCTGGA CGAGGGCGGG GACCGATTCA CCAACAGAGC CGTACTGCTC 
TCCTCCGGCC AGGAGCTCTG TGAGCGGATC AACTTCCATG TCCTGGACAC TGCTGACTAC 
GTGAAGCCAG TGACCTTCTC AGTCGAGTAT TCCCTGGAGG ACCCTGACCA TGGCCCCATG 
CTGGACGACG GCTGGCCCAC CACTCTCAGA GTCTCGGTGC CCTTCTGGAA CGGCTGCAAT 
GAGGATGAGC ACTGTGTCCC TGACCTTGTG TTGGATGCCC GGAGTGACCT GCCCACGGCC 
ATGGAGTACT GCCAGAGGGT GCTGAGGAAG CCTGCGCAGG ACTGCTCCGC ATACACGCTG 
TCCTTCGACA CCACAGTCTT CATCATAGAG AGCACACGCC AGCGAGTGGC GGTGGAGGCC 
ACACTGGAGA ACAGGGGCGA GAACGCCTAC AGCACGGTCC TAAATATCTC GCAGTCAGCA 
AACCTGCAGT TTGCCAGCTT GATCCAGAAG GAGGACTCAG ACGGTAGCAT TGAGTGTGTG 
AACGAGGAGA GGAGGCTCCA GAAGCAAGTC TGCAACGTCA GCTATCCCTT CTTCCGGGCC 
AAGGCCAAGG TGGCTTTCCG TCTTGATTTT GAGTTCAGCA AATCCATCTT CCTACACCAC 
CTGGAGATCG AGCTCGCTGC AGGCAGTGAC AGTAATGAGC GGGACAGCAC CAAGGAAGAC 
AACGTGGCCC CCTTACGCTT CCACCTCAAA TACGAGGCTG ACGTCCTCTT CACCAGGAGC 
AGCAGCCTGA GCCACTACGA GGTCAAGCCC AACAGCTCGC TGGAGAGATA CGATGGTATC 
GGGCCTCCCT TCAGCTGCAT CTTCAGGATC CAGAACTTGG GCTTGTTCCC CATCCACGGG 
ATGATGATGA AGATCACCAT TCCCATCGCC ACCAGGAGCG GCAACCGCCT ACTGAAGCTG 
AGGGACTTCC TCACGGACGA GGCGAACACG TCCTGTAACA TCTGGGGCAA TAGCACTGAG 
TACCGGCCCA CCCCAGTGGA GGAAGACTTG CGTCGTGCTC CACAGCTGAA TCACAGCAAC 
TCTGATGTCG TCTCCATCAA CTGCAATATA CGGCTGGTCC CCAACCAGGA AATCAATTTC 
CATCTACTGG GGAACCTGTG GTTGAGGTCC CTAAAAGCAC TCAAGTACAA ATCCATGAAA 
ATCATGGTCA ACGCAGCCTT GCAGAGGCAG TTCCACAGCC CCTTCATCTT CCGTGAGGAG 
GATCCCAGCC GCCAGATCGT GTTTGAGATC TCCAAGCAAG AGGACTGGCA GGTCCCCATC 
TGGATCATTG TAGGCAGCAC CCTGGGGGGC CTCCTACTGC TGGCCCTGCT GGTCCTGGCA 
CTGTGGAAGC TCGGCTTCTT TAGAAGTGCC AGGCGCAGGA GGGAGCCTGG TCTGGACCCC 
ACCCCCAAAG TGCTGGAGTG A

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

ITGA11 ( XM_011521363.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011519665.1 Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X1, mRNA.

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CloneID	OHu64945
Clone ID Related Accession (Same CDS sequence)	XM_011521363.2
Accession Version	XM_011521363.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3360bp) 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	2019-06-12
Organism	Homo sapiens(human)
Product	integrin alpha-11 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000015.10) 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_011521363.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20190607 Annotation Version :: 109.20190607 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA Annotation Freeze :: 20190607 ##Genome-Annotation-Data-END##

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGGTGC CAGACCTACA TGGACATCGT CATTGTCCTG 
GATGGCTCCA ACAGCATCTA CCCCTGGGTG GAGGTTCAGC ACTTCCTCAT CAACATCCTG 
AAAAAGTTTT ACATTGGCCC AGGGCAGATC CAGGTTGGAG TTGTGCAGTA TGGCGAAGAT 
GTGGTGCATG AGTTTCACCT CAACGACTAC AGGTCTGTAA AAGATGTGGT GGAAGCTGCC 
AGCCACATTG AGCAGAGAGG AGGAACAGAG ACCCGGACGG CATTTGGCAT TGAATTTGCA 
CGCTCAGAGG CTTTCCAGAA GGGTGGAAGG AAAGGAGCCA AGAAGGTGAT GATTGTCATC 
ACAGATGGGG AGTCCCACGA CAGCCCAGAC CTGGAGAAGG TGATCCAGCA AAGCGAAAGA 
GACAACGTAA CAAGATATGC GGTGGCCGTC CTGGGCTACT ACAACCGCAG GGGGATCAAT 
CCAGAAACTT TTCTAAATGA AATCAAATAC ATCGCCAGTG ACCCTGATGA CAAGCACTTC 
TTCAATGTCA CTGATGAGGC TGCCTTGAAG GACATTGTCG ATGCCCTGGG GGACAGAATC 
TTCAGCCTGG AAGGCACCAA CAAGAACGAG ACCTCCTTTG GGCTGGAGAT GTCACAGACG 
GGCTTTTCCT CGCACGTGGT GGAGGATGGG GTTCTGCTGG GAGCCGTCGG TGCCTATGAC 
TGGAATGGAG CTGTGCTAAA GGAGACGAGT GCCGGGAAGG TCATTCCTCT CCGCGAGTCC 
TACCTGAAAG AGTTCCCCGA GGAGCTCAAG AACCATGGTG CATACCTGGG GTACACAGTC 
ACATCGGTCG TGTCCTCCAG GCAGGGGCGG GTGTACGTGG CCGGAGCCCC CCGGTTCAAC 
CACACGGGCA AGGTCATCCT GTTCACCATG CACAACAACC GGAGCCTCAC CATCCACCAG 
GCTATGCGGG GCCAGCAGAT AGGCTCTTAC TTTGGGAGTG AAATCACCTC GGTGGACATC 
GACGGCGACG GCGTGACTGA TGTCCTGCTG GTGGGCGCAC CCATGTACTT CAACGAGGGC 
CGTGAGCGAG GCAAGGTGTA CGTCTATGAG CTGAGACAGA ACCTGTTTGT TTATAACGGA 
ACGCTAAAGG ATTCACACAG TTACCAGAAT GCCCGATTTG GGTCCTCCAT TGCCTCAGTT 
CGAGACCTCA ACCAGGATTC CTACAATGAC GTGGTGGTGG GAGCCCCCCT GGAGGACAAC 
CACGCAGGAG CCATCTACAT CTTCCACGGC TTCCGAGGCA GCATCCTGAA GACACCTAAG 
CAGAGAATCA CAGCCTCAGA GCTGGCTACC GGCCTCCAGT ATTTTGGCTG CAGCATCCAC 
GGGCAATTGG ACCTCAATGA GGATGGGCTC ATCGACCTGG CAGTGGGAGC CCTTGGCAAC 
GCTGTGATTC TGTGGTCCCG CCCAGTGGTT CAGATCAATG CCAGCCTCCA CTTTGAGCCA 
TCCAAGATCA ACATCTTCCA CAGAGACTGC AAGCGCAGTG GCAGGGATGC CACCTGCCTG 
GCCGCCTTCC TCTGCTTCAC GCCCATCTTC CTGGCACCCC ATTTCCAAAC AACAACTGTT 
GGCATCAGAT ACAACGCCAC CATGGATGAG AGGCGGTATA CACCGAGGGC CCACCTGGAC 
GAGGGCGGGG ACCGATTCAC CAACAGAGCC GTACTGCTCT CCTCCGGCCA GGAGCTCTGT 
GAGCGGATCA ACTTCCATGT CCTGGACACT GCTGACTACG TGAAGCCAGT GACCTTCTCA 
GTCGAGTATT CCCTGGAGGA CCCTGACCAT GGCCCCATGC TGGACGACGG CTGGCCCACC 
ACTCTCAGAG TCTCGGTGCC CTTCTGGAAC GGCTGCAATG AGGATGAGCA CTGTGTCCCT 
GACCTTGTGT TGGATGCCCG GAGTGACCTG CCCACGGCCA TGGAGTACTG CCAGAGGGTG 
CTGAGGAAGC CTGCGCAGGA CTGCTCCGCA TACACGCTGT CCTTCGACAC CACAGTCTTC 
ATCATAGAGA GCACACGCCA GCGAGTGGCG GTGGAGGCCA CACTGGAGAA CAGGGGCGAG 
AACGCCTACA GCACGGTCCT AAATATCTCG CAGTCAGCAA ACCTGCAGTT TGCCAGCTTG 
ATCCAGAAGG AGGACTCAGA CGGTAGCATT GAGTGTGTGA ACGAGGAGAG GAGGCTCCAG 
AAGCAAGTCT GCAACGTCAG CTATCCCTTC TTCCGGGCCA AGGCCAAGGT GGCTTTCCGT 
CTTGATTTTG AGTTCAGCAA ATCCATCTTC CTACACCACC TGGAGATCGA GCTCGCTGCA 
GGCAGTGACA GTAATGAGCG GGACAGCACC AAGGAAGACA ACGTGGCCCC CTTACGCTTC 
CACCTCAAAT ACGAGGCTGA CGTCCTCTTC ACCAGGAGCA GCAGCCTGAG CCACTACGAG 
GTCAAGCCCA ACAGCTCGCT GGAGAGATAC GATGGTATCG GGCCTCCCTT CAGCTGCATC 
TTCAGGATCC AGAACTTGGG CTTGTTCCCC ATCCACGGGA TGATGATGAA GATCACCATT 
CCCATCGCCA CCAGGAGCGG CAACCGCCTA CTGAAGCTGA GGGACTTCCT CACGGACGAG 
GCGAACACGT CCTGTAACAT CTGGGGCAAT AGCACTGAGT ACCGGCCCAC CCCAGTGGAG 
GAAGACTTGC GTCGTGCTCC ACAGCTGAAT CACAGCAACT CTGATGTCGT CTCCATCAAC 
TGCAATATAC GGCTGGTCCC CAACCAGGAA ATCAATTTCC ATCTACTGGG GAACCTGTGG 
TTGAGGTCCC TAAAAGCACT CAAGTACAAA TCCATGAAAA TCATGGTCAA CGCAGCCTTG 
CAGAGGCAGT TCCACAGCCC CTTCATCTTC CGTGAGGAGG ATCCCAGCCG CCAGATCGTG 
TTTGAGATCT CCAAGCAAGA GGACTGGCAG GTCCCCATCT GGATCATTGT AGGCAGCACC 
CTGGGGGGCC TCCTACTGCT GGCCCTGCTG GTCCTGGCAC TGTGGAAGCT CGGCTTCTTT 
AGAAGTGCCA GGCGCAGGAG GGAGCCTGGT CTGGACCCCA CCCCCAAAGT GCTGGAGTGA

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

RefSeq	XP_011519665.1
CDS	247..3606
Translation	MDLPRGLVVAWALSLWPGFTDTFNMDTRKPRVIPGSRTAFFGYTVQQHDISGNKWLVVGAPLETNGYQKTGDVYKCPVIHGNCTKLNLGCQTYMDIVIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGVVQYGEDVVHEFHLNDYRSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIQQSERDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGVLLGAVGAYDWNGAVLKETSAGKVIPLRESYLKEFPEELKNHGAYLGYTVTSVVSSRQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQAMRGQQIGSYFGSEITSVDIDGDGVTDVLLVGAPMYFNEGRERGKVYVYELRQNLFVYNGTLKDSHSYQNARFGSSIASVRDLNQDSYNDVVVGAPLEDNHAGAIYIFHGFRGSILKTPKQRITASELATGLQYFGCSIHGQLDLNEDGLIDLAVGALGNAVILWSRPVVQINASLHFEPSKINIFHRDCKRSGRDATCLAAFLCFTPIFLAPHFQTTTVGIRYNATMDERRYTPRAHLDEGGDRFTNRAVLLSSGQELCERINFHVLDTADYVKPVTFSVEYSLEDPDHGPMLDDGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTAMEYCQRVLRKPAQDCSAYTLSFDTTVFIIESTRQRVAVEATLENRGENAYSTVLNISQSANLQFASLIQKEDSDGSIECVNEERRLQKQVCNVSYPFFRAKAKVAFRLDFEFSKSIFLHHLEIELAAGSDSNERDSTKEDNVAPLRFHLKYEADVLFTRSSSLSHYEVKPNSSLERYDGIGPPFSCIFRIQNLGLFPIHGMMMKITIPIATRSGNRLLKLRDFLTDEANTSCNIWGNSTEYRPTPVEEDLRRAPQLNHSNSDVVSINCNIRLVPNQEINFHLLGNLWLRSLKALKYKSMKIMVNAALQRQFHSPFIFREEDPSRQIVFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWKLGFFRSARRRREPGLDPTPKVLE

Target ORF information:

RefSeq Version	XM_011521363.2
Organism	Homo sapiens(human)
Definition	Homo sapiens integrin subunit alpha 11 (ITGA11), transcript variant X1, mRNA.

Target ORF information:

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

XM_011521363.2

ORF Insert Sequence:

ATGGACCTGC CCAGGGGCCT GGTGGTGGCC TGGGCGCTCA GCCTGTGGCC AGGGTTCACG 
GACACCTTCA ACATGGACAC CAGGAAGCCC CGGGTCATCC CTGGCTCCAG GACCGCCTTC 
TTTGGCTACA CAGTGCAGCA GCACGACATC AGTGGCAATA AGTGGCTGGT CGTGGGCGCC 
CCACTGGAAA CCAATGGCTA CCAGAAGACG GGAGACGTGT ACAAGTGTCC AGTGATCCAC 
GGGAACTGCA CCAAACTCAA CCTGGGGTGC CAGACCTACA TGGACATCGT CATTGTCCTG 
GATGGCTCCA ACAGCATCTA CCCCTGGGTG GAGGTTCAGC ACTTCCTCAT CAACATCCTG 
AAAAAGTTTT ACATTGGCCC AGGGCAGATC CAGGTTGGAG TTGTGCAGTA TGGCGAAGAT 
GTGGTGCATG AGTTTCACCT CAACGACTAC AGGTCTGTAA AAGATGTGGT GGAAGCTGCC 
AGCCACATTG AGCAGAGAGG AGGAACAGAG ACCCGGACGG CATTTGGCAT TGAATTTGCA 
CGCTCAGAGG CTTTCCAGAA GGGTGGAAGG AAAGGAGCCA AGAAGGTGAT GATTGTCATC 
ACAGATGGGG AGTCCCACGA CAGCCCAGAC CTGGAGAAGG TGATCCAGCA AAGCGAAAGA 
GACAACGTAA CAAGATATGC GGTGGCCGTC CTGGGCTACT ACAACCGCAG GGGGATCAAT 
CCAGAAACTT TTCTAAATGA AATCAAATAC ATCGCCAGTG ACCCTGATGA CAAGCACTTC 
TTCAATGTCA CTGATGAGGC TGCCTTGAAG GACATTGTCG ATGCCCTGGG GGACAGAATC 
TTCAGCCTGG AAGGCACCAA CAAGAACGAG ACCTCCTTTG GGCTGGAGAT GTCACAGACG 
GGCTTTTCCT CGCACGTGGT GGAGGATGGG GTTCTGCTGG GAGCCGTCGG TGCCTATGAC 
TGGAATGGAG CTGTGCTAAA GGAGACGAGT GCCGGGAAGG TCATTCCTCT CCGCGAGTCC 
TACCTGAAAG AGTTCCCCGA GGAGCTCAAG AACCATGGTG CATACCTGGG GTACACAGTC 
ACATCGGTCG TGTCCTCCAG GCAGGGGCGG GTGTACGTGG CCGGAGCCCC CCGGTTCAAC 
CACACGGGCA AGGTCATCCT GTTCACCATG CACAACAACC GGAGCCTCAC CATCCACCAG 
GCTATGCGGG GCCAGCAGAT AGGCTCTTAC TTTGGGAGTG AAATCACCTC GGTGGACATC 
GACGGCGACG GCGTGACTGA TGTCCTGCTG GTGGGCGCAC CCATGTACTT CAACGAGGGC 
CGTGAGCGAG GCAAGGTGTA CGTCTATGAG CTGAGACAGA ACCTGTTTGT TTATAACGGA 
ACGCTAAAGG ATTCACACAG TTACCAGAAT GCCCGATTTG GGTCCTCCAT TGCCTCAGTT 
CGAGACCTCA ACCAGGATTC CTACAATGAC GTGGTGGTGG GAGCCCCCCT GGAGGACAAC 
CACGCAGGAG CCATCTACAT CTTCCACGGC TTCCGAGGCA GCATCCTGAA GACACCTAAG 
CAGAGAATCA CAGCCTCAGA GCTGGCTACC GGCCTCCAGT ATTTTGGCTG CAGCATCCAC 
GGGCAATTGG ACCTCAATGA GGATGGGCTC ATCGACCTGG CAGTGGGAGC CCTTGGCAAC 
GCTGTGATTC TGTGGTCCCG CCCAGTGGTT CAGATCAATG CCAGCCTCCA CTTTGAGCCA 
TCCAAGATCA ACATCTTCCA CAGAGACTGC AAGCGCAGTG GCAGGGATGC CACCTGCCTG 
GCCGCCTTCC TCTGCTTCAC GCCCATCTTC CTGGCACCCC ATTTCCAAAC AACAACTGTT 
GGCATCAGAT ACAACGCCAC CATGGATGAG AGGCGGTATA CACCGAGGGC CCACCTGGAC 
GAGGGCGGGG ACCGATTCAC CAACAGAGCC GTACTGCTCT CCTCCGGCCA GGAGCTCTGT 
GAGCGGATCA ACTTCCATGT CCTGGACACT GCTGACTACG TGAAGCCAGT GACCTTCTCA 
GTCGAGTATT CCCTGGAGGA CCCTGACCAT GGCCCCATGC TGGACGACGG CTGGCCCACC 
ACTCTCAGAG TCTCGGTGCC CTTCTGGAAC GGCTGCAATG AGGATGAGCA CTGTGTCCCT 
GACCTTGTGT TGGATGCCCG GAGTGACCTG CCCACGGCCA TGGAGTACTG CCAGAGGGTG 
CTGAGGAAGC CTGCGCAGGA CTGCTCCGCA TACACGCTGT CCTTCGACAC CACAGTCTTC 
ATCATAGAGA GCACACGCCA GCGAGTGGCG GTGGAGGCCA CACTGGAGAA CAGGGGCGAG 
AACGCCTACA GCACGGTCCT AAATATCTCG CAGTCAGCAA ACCTGCAGTT TGCCAGCTTG 
ATCCAGAAGG AGGACTCAGA CGGTAGCATT GAGTGTGTGA ACGAGGAGAG GAGGCTCCAG 
AAGCAAGTCT GCAACGTCAG CTATCCCTTC TTCCGGGCCA AGGCCAAGGT GGCTTTCCGT 
CTTGATTTTG AGTTCAGCAA ATCCATCTTC CTACACCACC TGGAGATCGA GCTCGCTGCA 
GGCAGTGACA GTAATGAGCG GGACAGCACC AAGGAAGACA ACGTGGCCCC CTTACGCTTC 
CACCTCAAAT ACGAGGCTGA CGTCCTCTTC ACCAGGAGCA GCAGCCTGAG CCACTACGAG 
GTCAAGCCCA ACAGCTCGCT GGAGAGATAC GATGGTATCG GGCCTCCCTT CAGCTGCATC 
TTCAGGATCC AGAACTTGGG CTTGTTCCCC ATCCACGGGA TGATGATGAA GATCACCATT 
CCCATCGCCA CCAGGAGCGG CAACCGCCTA CTGAAGCTGA GGGACTTCCT CACGGACGAG 
GCGAACACGT CCTGTAACAT CTGGGGCAAT AGCACTGAGT ACCGGCCCAC CCCAGTGGAG 
GAAGACTTGC GTCGTGCTCC ACAGCTGAAT CACAGCAACT CTGATGTCGT CTCCATCAAC 
TGCAATATAC GGCTGGTCCC CAACCAGGAA ATCAATTTCC ATCTACTGGG GAACCTGTGG 
TTGAGGTCCC TAAAAGCACT CAAGTACAAA TCCATGAAAA TCATGGTCAA CGCAGCCTTG 
CAGAGGCAGT TCCACAGCCC CTTCATCTTC CGTGAGGAGG ATCCCAGCCG CCAGATCGTG 
TTTGAGATCT CCAAGCAAGA GGACTGGCAG GTCCCCATCT GGATCATTGT AGGCAGCACC 
CTGGGGGGCC TCCTACTGCT GGCCCTGCTG GTCCTGGCAC TGTGGAAGCT CGGCTTCTTT 
AGAAGTGCCA GGCGCAGGAG GGAGCCTGGT CTGGACCCCA CCCCCAAAGT GCTGGAGTGA

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

PubMed

The role of Protein Disulfide Isomerase and thiol bonds modifications in activation of integrin subunit alpha11.
Biochemical and biophysical research communications495(2)1635-1641(2018 Jan)
Popielarski M,Ponamarczuk H,Stasiak M,Michalec L,Bednarek R,Studzian M,Pulaski L,Swiatkowska M

Integrin alpha 11 in the regulation of the myofibroblast phenotype: implications for fibrotic diseases.
Experimental & molecular medicine49(11)e396(2017 Nov)
Bansal R,Nakagawa S,Yazdani S,van Baarlen J,Venkatesh A,Koh AP,Song WM,Goossens N,Watanabe H,Beasley MB,Powell CA,Storm G,Kaminski N,van Goor H,Friedman SL,Hoshida Y,Prakash J

Incorporating epistasis interaction of genetic susceptibility single nucleotide polymorphisms in a lung cancer risk prediction model.
International journal of oncology49(1)361-70(2016 Jul)
Marcus MW,Raji OY,Duffy SW,Young RP,Hopkins RJ,Field JK

FGF2 Overrides TGF?1-Driven Integrin ITGA11 Expression in Human Dermal Fibroblasts.
Journal of cellular biochemistry117(4)1000-8(2016 Apr)
Grella A,Kole D,Holmes W,Dominko T

Glycated Collagen Induces ?11 Integrin Expression Through TGF-?2 and Smad3.
Journal of cellular physiology230(2)327-36(2015 Feb)
Talior-Volodarsky I,Arora PD,Wang Y,Zeltz C,Connelly KA,Gullberg D,McCulloch CA

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ITGA11 cDNA ORF clone, Homo sapiens(human)

Summary

Reference Sequences (RefSeq)

Pathways from BioSystems

Homologies

Gene Ontology

Bibliography

Reference Sequences (Refseq)

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

PubMed

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