itgav cDNA ORF clone, Pundamilia nyererei

Gene
Clones
gRNAs

Summary

Gene Symbol	itgav
Entrez Gene ID	102193254
Full Name	integrin subunit alpha V
Gene Type	protein-coding
Organism	Pundamilia nyererei

mRNA and Protein(s)

mRNA	Protein	Name
XM_013915626.1	XP_013771080.1	integrin alpha-V

Pathways from BioSystems
Gene Ontology

The following itgav gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the itgav 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)	Select
OPu80868	XM_013915626.1 Latest version!	Pundamilia nyererei integrin, alpha V (itgav), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

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

Reference Sequences (Refseq)

itgav ( XM_013915626.1 ) cDNA ORF clone, Pundamilia nyererei -> XP_013771080.1 Pundamilia nyererei integrin, alpha V (itgav), mRNA.

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CloneID	OPu80868
Clone ID Related Accession (Same CDS sequence)	XM_013915626.1
Accession Version	XM_013915626.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3123bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	integrin alpha-V
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187735.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pundamilia nyererei Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGGGA CACGGACAGC TGCTCTGCTG GTCCTGGTGT GTTTACACTT CCATCGCTCC 
AGCTCTTTCA ACCTGGATGT GGATAATTCC TCCGTATATT CCGGACCCGA GGGGAGCTAC 
TTCGGCTTTT CGGTGGACTT CTTTAAGCCT TCAAACAACC TACAGTCAGA CGTTCTGATT 
GGAGCTCCTC GAGCTAACAT GTCTGCGGAC AGCATTGTGG AGAGAGGAGC AGTGTACAGC 
TGCCCCTGGG ACAGATCCAG CGCCTGTCAG CAGCTGGTGT TTGACAACAA AGACGAAAGG 
ACGCGTGATG GGGCTAAGAT GGAGTTTAAA TCCAAACAAT GGTTTGGAGC GTCAGTGCGA 
TCTGATGGAG AACACATTCT GGCGTGTGCT CCCCTTTACC AGTGGTCGAC CTTAGGTGTC 
TCTGAGCGTG AGCCTGTGGG AACTTGTTAC CTGAAGAAAG GAAACCAGGT GGTTGAATAC 
TCGCCCTGCA GAACAGATAA AAACTCACCA GAAGGGCAGG GCTTCTGCCA GGCTGGCTTC 
AGTGTCGATT TCCTTAAGAA TGACAAAAGG GTGGTGGTGG GAGGACCTGG CAGCTTCTAC 
TGGCAGGGTC AGCTGATCTC GGATGACGTC TCAGAGATTT TTACCCGCTT CACTAATGAT 
TACTTCACCC GTTATGGAAA CACGCTCTCC ACCAAGTCAG CCAATGCCCA GTATGACGAC 
AGTTATCTTG GATACTCTGT GACAGTTGCA GACTTCAATG GCGATGGAAA GGATGATTTT 
GTGACTGGAG TACCGAGGGG GGAGAAGGCG CTGGGTTATG TGAACATCTT TAACGGCGCA 
GTCATGGAGT CCATGATCAA CTTCACAGGG TCACAGATGG CCGCGTACTT TGGACATTCA 
GTTGCAGCTT TTGATGTCAA CAATGACGGT AATATGGATG TGTTCGTTGG AGCTCCTCTC 
TTCATGGACA GGGGCTTAGA TGGAAAACTG AGGGAGGTGG GACAGGTGTC TGTCTATCTT 
GGTCGGGGTG GATTTTCCTT CCAACCACCT CGGTTGCTCA CTGGGTCCGA AGTTTACGCC 
AGATATGGCT CTGCCATTGC AGCGCTAGGA GACCTGAACA TGGATGGCTA CAACGATGTG 
GCCATCTCTG CTCCTTACGG AGGCCCCAAC CATAATGGCT TGGTTTACAT CCATAATGGC 
AGCCCTCAGG GGCCCAAAGC ATCACCATCC CAGCGCCTGG AGGGCAAATG GGCATCCAGT 
TACATGCCCC CTAGCTTTGG GTACTCCATG TCTGGAAATA CTGACATAGA CCAGAATGGA 
TATCCAGATT TAATAGTTGG AGTGTTTGGA GCAGACAAAG CCGTTTTATA CAGAGCCCGT 
CCAGTGATCA GTGTAAATGC CACGTTGGAC ATCACACCCC TGATCATCAA CCCTGAGGAA 
AAGAACTGCA CACTGTCTAA TACTAGCACA CCTGTATCAT GTTTTAAGGT GAAGTACTGT 
CTGAAGGTCA ACGGCCATAG GGCTCCAAAC CTGCTCACTT TCCGAGTGCA CCTCATGTTG 
GACCGCTTGA AGCAGAAGGA GACGACTAAG CGTGTCTTCT TCCTGCACAG TGGCACCTTT 
CAGTACTCCA AAAACACGAC CGTGTCCAAC GGCAAAGGGC CGACCTGCGA GGAGCAGTGG 
GTCTACCTGG ATAATCGAGA GTTCCGGGAT AAGATCACTC CCATCTCAGT GTCGATGGAG 
TACAGTATGA ACTACCAGCA GGCTGCAGAC AAAACGGGAT TGCAGCCTAT TGTTGACATG 
TCATCTCCAT CTGAAATCAA CAAACAGGTT CATATCCTGT TGGACTGTGG GCCTGACAAC 
ATCTGCAAAC CTGACCTCAA GCTGTCGGTT AAAAGTGACC GTGACCAGAT TTACATTGGC 
GATGATAACG CTCTGACCCT GGAGATCACA GCTGAGAATC AAGGCGAGGG AGCCTACGAG 
GCCGAACTCC ACATCTACCC TCCGCAGCAG GCTGACTTCA GCGGTCGCAG TCAGGCCCTG 
TCTAGGCTGT CCTGCGCCTA CAAGAAAGAG AACCAGACTA AAATGGTGGT GTGTGACCTT 
GGAAACCCCA TGAAGGGAGG AACTAAGATG GTGGCTGAGT TGGGGTTCAG CGTGCAACAG 
CTATCAGAGG ACGACACATC TGTCCGCTTT GACCTGCAGA TAGTCAGCTC TAACCAGTTT 
GACAACACCA GTCCCAAAGT CACCAGCGTC ATCAAACTGG CTGTACTCGC TAAAGTCTCC 
ATCAGAGGGT CTTCATCTCC TGGTCAGGTG TTTATTCCTA TCGCCAACTG GAAACCGAGA 
GACCCTCCTG TATTTGGTGA CGACATCGGA CCACAAATAG TACACGTCTA CGAGCTCCTG 
AACAACGGTC CCAGTACGTT CAGTAAGGCA GCGCTGGAGG TCAAGTGGCC GTACCAGTTT 
AGAAACAGCT CTCTGCTCTA CATCACCAGC TACGACACAG AGGGACCCAT CAACTGTACC 
ACTGACATAC AGATAAACCC ACTCAATGTC TCTAACCCAG TGAGCACCTC AAAGAACACC 
AGCACTGTTA CGCCTGGAGG ACGAGAGTCG GAGGGACGGA ATCAAAACAG CGTCCGCCAG 
AGGAGAGATC TGGAGTCCAG AAATGCAGAG AATGACCTGC AGACACTGGA CTGCCACACA 
GCTAAGTGTC TGACACTGAA ATGTCAGGTC GGTCGTCTAG AAAGGAGGAA GAACGCCATC 
CTCTTCATCT ACTCCAGACT GGATGTCAAC AACTTCCTCA GGCCTGAGAA TCAGAATCGT 
TCCTATGTGA TACAATCAAC GGCTAGCTTC AGTGTGATCG AGATGCCCTA CAAGAACCTG 
GAGATGGAGC TACCATCCAA TAGCACCACA GTGAGTGTAT CAGTGGTTTG GGTGGCTGAG 
CCTCCTCCAC CAGTGCCAGG CTGGGTGGTG GCTCTGGCTG TGCTGGCAGG ACTGCTGCTG 
CTGGCGCTGC TTATCTTCAT CATGTACAAG TTGGGTTTCT TTAAGAGAGT CCGCCCCCCA 
CAGGAGGACT GCATTGAAAA GGAGCAGCTG CAGCCGGAGG AGAACGGAAA CACTGATGCC 
TAG

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

RefSeq	XP_013771080.1
CDS	420..3542
Translation	MAGTRTAALLVLVCLHFHRSSSFNLDVDNSSVYSGPEGSYFGFSVDFFKPSNNLQSDVLIGAPRANMSADSIVERGAVYSCPWDRSSACQQLVFDNKDERTRDGAKMEFKSKQWFGASVRSDGEHILACAPLYQWSTLGVSEREPVGTCYLKKGNQVVEYSPCRTDKNSPEGQGFCQAGFSVDFLKNDKRVVVGGPGSFYWQGQLISDDVSEIFTRFTNDYFTRYGNTLSTKSANAQYDDSYLGYSVTVADFNGDGKDDFVTGVPRGEKALGYVNIFNGAVMESMINFTGSQMAAYFGHSVAAFDVNNDGNMDVFVGAPLFMDRGLDGKLREVGQVSVYLGRGGFSFQPPRLLTGSEVYARYGSAIAALGDLNMDGYNDVAISAPYGGPNHNGLVYIHNGSPQGPKASPSQRLEGKWASSYMPPSFGYSMSGNTDIDQNGYPDLIVGVFGADKAVLYRARPVISVNATLDITPLIINPEEKNCTLSNTSTPVSCFKVKYCLKVNGHRAPNLLTFRVHLMLDRLKQKETTKRVFFLHSGTFQYSKNTTVSNGKGPTCEEQWVYLDNREFRDKITPISVSMEYSMNYQQAADKTGLQPIVDMSSPSEINKQVHILLDCGPDNICKPDLKLSVKSDRDQIYIGDDNALTLEITAENQGEGAYEAELHIYPPQQADFSGRSQALSRLSCAYKKENQTKMVVCDLGNPMKGGTKMVAELGFSVQQLSEDDTSVRFDLQIVSSNQFDNTSPKVTSVIKLAVLAKVSIRGSSSPGQVFIPIANWKPRDPPVFGDDIGPQIVHVYELLNNGPSTFSKAALEVKWPYQFRNSSLLYITSYDTEGPINCTTDIQINPLNVSNPVSTSKNTSTVTPGGRESEGRNQNSVRQRRDLESRNAENDLQTLDCHTAKCLTLKCQVGRLERRKNAILFIYSRLDVNNFLRPENQNRSYVIQSTASFSVIEMPYKNLEMELPSNSTTVSVSVVWVAEPPPPVPGWVVALAVLAGLLLLALLIFIMYKLGFFKRVRPPQEDCIEKEQLQPEENGNTDA

Target ORF information:

RefSeq Version	XM_013915626.1
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei integrin, alpha V (itgav), mRNA.

Target ORF information:

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

XM_013915626.1

ORF Insert Sequence:

ATGGCAGGGA CACGGACAGC TGCTCTGCTG GTCCTGGTGT GTTTACACTT CCATCGCTCC 
AGCTCTTTCA ACCTGGATGT GGATAATTCC TCCGTATATT CCGGACCCGA GGGGAGCTAC 
TTCGGCTTTT CGGTGGACTT CTTTAAGCCT TCAAACAACC TACAGTCAGA CGTTCTGATT 
GGAGCTCCTC GAGCTAACAT GTCTGCGGAC AGCATTGTGG AGAGAGGAGC AGTGTACAGC 
TGCCCCTGGG ACAGATCCAG CGCCTGTCAG CAGCTGGTGT TTGACAACAA AGACGAAAGG 
ACGCGTGATG GGGCTAAGAT GGAGTTTAAA TCCAAACAAT GGTTTGGAGC GTCAGTGCGA 
TCTGATGGAG AACACATTCT GGCGTGTGCT CCCCTTTACC AGTGGTCGAC CTTAGGTGTC 
TCTGAGCGTG AGCCTGTGGG AACTTGTTAC CTGAAGAAAG GAAACCAGGT GGTTGAATAC 
TCGCCCTGCA GAACAGATAA AAACTCACCA GAAGGGCAGG GCTTCTGCCA GGCTGGCTTC 
AGTGTCGATT TCCTTAAGAA TGACAAAAGG GTGGTGGTGG GAGGACCTGG CAGCTTCTAC 
TGGCAGGGTC AGCTGATCTC GGATGACGTC TCAGAGATTT TTACCCGCTT CACTAATGAT 
TACTTCACCC GTTATGGAAA CACGCTCTCC ACCAAGTCAG CCAATGCCCA GTATGACGAC 
AGTTATCTTG GATACTCTGT GACAGTTGCA GACTTCAATG GCGATGGAAA GGATGATTTT 
GTGACTGGAG TACCGAGGGG GGAGAAGGCG CTGGGTTATG TGAACATCTT TAACGGCGCA 
GTCATGGAGT CCATGATCAA CTTCACAGGG TCACAGATGG CCGCGTACTT TGGACATTCA 
GTTGCAGCTT TTGATGTCAA CAATGACGGT AATATGGATG TGTTCGTTGG AGCTCCTCTC 
TTCATGGACA GGGGCTTAGA TGGAAAACTG AGGGAGGTGG GACAGGTGTC TGTCTATCTT 
GGTCGGGGTG GATTTTCCTT CCAACCACCT CGGTTGCTCA CTGGGTCCGA AGTTTACGCC 
AGATATGGCT CTGCCATTGC AGCGCTAGGA GACCTGAACA TGGATGGCTA CAACGATGTG 
GCCATCTCTG CTCCTTACGG AGGCCCCAAC CATAATGGCT TGGTTTACAT CCATAATGGC 
AGCCCTCAGG GGCCCAAAGC ATCACCATCC CAGCGCCTGG AGGGCAAATG GGCATCCAGT 
TACATGCCCC CTAGCTTTGG GTACTCCATG TCTGGAAATA CTGACATAGA CCAGAATGGA 
TATCCAGATT TAATAGTTGG AGTGTTTGGA GCAGACAAAG CCGTTTTATA CAGAGCCCGT 
CCAGTGATCA GTGTAAATGC CACGTTGGAC ATCACACCCC TGATCATCAA CCCTGAGGAA 
AAGAACTGCA CACTGTCTAA TACTAGCACA CCTGTATCAT GTTTTAAGGT GAAGTACTGT 
CTGAAGGTCA ACGGCCATAG GGCTCCAAAC CTGCTCACTT TCCGAGTGCA CCTCATGTTG 
GACCGCTTGA AGCAGAAGGA GACGACTAAG CGTGTCTTCT TCCTGCACAG TGGCACCTTT 
CAGTACTCCA AAAACACGAC CGTGTCCAAC GGCAAAGGGC CGACCTGCGA GGAGCAGTGG 
GTCTACCTGG ATAATCGAGA GTTCCGGGAT AAGATCACTC CCATCTCAGT GTCGATGGAG 
TACAGTATGA ACTACCAGCA GGCTGCAGAC AAAACGGGAT TGCAGCCTAT TGTTGACATG 
TCATCTCCAT CTGAAATCAA CAAACAGGTT CATATCCTGT TGGACTGTGG GCCTGACAAC 
ATCTGCAAAC CTGACCTCAA GCTGTCGGTT AAAAGTGACC GTGACCAGAT TTACATTGGC 
GATGATAACG CTCTGACCCT GGAGATCACA GCTGAGAATC AAGGCGAGGG AGCCTACGAG 
GCCGAACTCC ACATCTACCC TCCGCAGCAG GCTGACTTCA GCGGTCGCAG TCAGGCCCTG 
TCTAGGCTGT CCTGCGCCTA CAAGAAAGAG AACCAGACTA AAATGGTGGT GTGTGACCTT 
GGAAACCCCA TGAAGGGAGG AACTAAGATG GTGGCTGAGT TGGGGTTCAG CGTGCAACAG 
CTATCAGAGG ACGACACATC TGTCCGCTTT GACCTGCAGA TAGTCAGCTC TAACCAGTTT 
GACAACACCA GTCCCAAAGT CACCAGCGTC ATCAAACTGG CTGTACTCGC TAAAGTCTCC 
ATCAGAGGGT CTTCATCTCC TGGTCAGGTG TTTATTCCTA TCGCCAACTG GAAACCGAGA 
GACCCTCCTG TATTTGGTGA CGACATCGGA CCACAAATAG TACACGTCTA CGAGCTCCTG 
AACAACGGTC CCAGTACGTT CAGTAAGGCA GCGCTGGAGG TCAAGTGGCC GTACCAGTTT 
AGAAACAGCT CTCTGCTCTA CATCACCAGC TACGACACAG AGGGACCCAT CAACTGTACC 
ACTGACATAC AGATAAACCC ACTCAATGTC TCTAACCCAG TGAGCACCTC AAAGAACACC 
AGCACTGTTA CGCCTGGAGG ACGAGAGTCG GAGGGACGGA ATCAAAACAG CGTCCGCCAG 
AGGAGAGATC TGGAGTCCAG AAATGCAGAG AATGACCTGC AGACACTGGA CTGCCACACA 
GCTAAGTGTC TGACACTGAA ATGTCAGGTC GGTCGTCTAG AAAGGAGGAA GAACGCCATC 
CTCTTCATCT ACTCCAGACT GGATGTCAAC AACTTCCTCA GGCCTGAGAA TCAGAATCGT 
TCCTATGTGA TACAATCAAC GGCTAGCTTC AGTGTGATCG AGATGCCCTA CAAGAACCTG 
GAGATGGAGC TACCATCCAA TAGCACCACA GTGAGTGTAT CAGTGGTTTG GGTGGCTGAG 
CCTCCTCCAC CAGTGCCAGG CTGGGTGGTG GCTCTGGCTG TGCTGGCAGG ACTGCTGCTG 
CTGGCGCTGC TTATCTTCAT CATGTACAAG TTGGGTTTCT TTAAGAGAGT CCGCCCCCCA 
CAGGAGGACT GCATTGAAAA GGAGCAGCTG CAGCCGGAGG AGAACGGAAA CACTGATGCC 
TAG