Itga11 cDNA ORF clone, Microtus ochrogaster(prairie vole)

Gene
Clones
gRNAs

Summary

Gene Symbol	Itga11
Entrez Gene ID	101984720
Full Name	integrin subunit alpha 11
Gene Type	protein-coding
Organism	Microtus ochrogaster(prairie vole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013346458.1	XP_013201912.1	integrin alpha-11
XM_013346458.2	XP_013201912.2	integrin alpha-11

Pathways from BioSystems
Gene Ontology

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.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OMi102356	XM_013346458.1 Latest version!	Microtus ochrogaster integrin, alpha 11 (Itga11), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OMi169610	XM_013346458.2 Latest version!	Microtus ochrogaster integrin subunit alpha 11 (Itga11), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

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

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

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

Reference Sequences (Refseq)

Itga11 ( XM_013346458.1 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_013201912.1 Microtus ochrogaster integrin, alpha 11 (Itga11), mRNA.

Price & Availability↑

CloneID	OMi102356
Clone ID Related Accession (Same CDS sequence)	XM_013346458.1
Accession Version	XM_013346458.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3495bp) 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	2015-08-06
Organism	Microtus ochrogaster(prairie vole)
Product	integrin alpha-11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004948980.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Microtus ochrogaster 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##

ATGGATACCA GGAATCCCCG GGTCATCGCT GGTCCCAGTT CTGCCTTCTT TGGCTACACA 
GTCCAGCAGC ATGACATCAG TGGCAAGAAG TGGTTGGTTG TGGGTGCCCC ACTGGAAACC 
AATGGCCACC AGAAGACGGG AGATGTGTAC AAGTGTCCAG TAACGCAAGG CAACTGCACC 
AAGCTCAACC TGGGCAGGGT CACTCTGTCC AATGTGTCTG AGAGGAAGGA CAACATGCGT 
CTCGGCCTGA GCCTTACCAC CAACCCCAAG GACAACAGCT TCCTGGCCTG CAGCCCTCTC 
TGGTCTCATG AGTGTGGAAG CTCCTACTAT ACCACTGGCA TGTGCTCACG AGTCAACTCC 
AACTTCAGGT TCTCCAAGAC AGTGGCCCCA GCGCTTCAAA GGTGCCAAAC CTACATGGAC 
ATCATCATTG TCCTGGACGG CTCCAACAGC ATCTACCCGT GGGTGGAGGT CCAACACTTC 
CTCATCAATA TCCTGAAAAA GTTCTACATT GGCCCTGGCC AGATCCAGGT TGGAATAGTT 
CAGTATGGAG AAGATGCAGT ACATGAGTTC CACCTTAATG ACTACAAATC TGTAAAGGAC 
GTGGTGGAAG CCGCCAGCCA CATTGAGCAG AGAGGAGGGA CAGAGACCCG CACAGCATTT 
GGCATTGAAT TTGCACGTTC AGAGGCTTTC CAGAAGGGTG GAAGGAAAGG GGCCAAGAAG 
GTGATGATTG TCATCACGGA TGGGGAATCC CATGACAGCC CAGACCTGGA GAAGGTGATC 
CGGCAAAGCG AGAAGGACAA TGTGACCAGA TACGCAGTGG CCGTCTTGGG CTACTACAAC 
CGCAGGGGGA TCAATCCAGA AACTTTTCTA AATGAAATCA AATACATCGC GAGCGACCCC 
GATGACAAGC ACTTCTTCAA CGTCACAGAT GAGGCGGCCC TGAAGGACAT TGTCGATGCC 
CTCGGGGACA GGATCTTCAG CTTGGAAGGC ACCAACAAGA ATGAAACCTC TTTTGGACTG 
GAGATGTCAC AGACGGGCTT TTCCTCGCAT GTGGTAGAGG ATGGAATCCT GCTGGGAGCC 
GTGGGAGCCT ACGACTGGAA CGGGGCGGTG CTGAAGGAGA CAAGTGCGGG CAAGGTGATT 
CCCTACCGGG AGTCCTACCT TAAGGAGTTC CCAGAGGAGC TGAAGAACCA TGCCGCATAC 
CTAGGCTACA CAGTGACATC GGTCGTGTCC TCCAAGCAGG GGCGGGTGTA TGTGGCCGGA 
GCCCCCAGGT TCAACCACAC GGGCAAGGTC ATTCTGTTCA CCATGCACAA CAACCGCAGC 
CTCACCATCC ACCAGGCTCT TCGGGGCGAG CAGATAGGCT CCTACTTTGG GAGTGAGATC 
ACCTCAGTGG ACATCAATGG CGACAGAGTG ACCGATGTCT TGCTGGTGGG CGCCCCCATG 
TACTTCAGCG AGGGCCGAGA GCGAGGCAAG GTGTATGTCT ACAATCTGAG ACAGAACCGG 
TTTGTTTATA ATGGCACTCT GAAGGATTCC CACAGCTACC AGAATGCCCG GTTTGGGTCC 
TGCATTGCCT CCGTTCAAGA CCTCAACCAA GACTCCTACA ACGATGTGGT GGTGGGGGCC 
CCTCTAGAGG ACAGCCACAG AGGGGCCATC TACATCTTCC ATGGCTTCCA AAGCAGCATC 
CTGAAGAAGC CCATACAGAG AATCACAGCC TCAGAGCTGG CTCCTGGCCT GCAGCATTTC 
GGCTGCAGCA TCCACGGACA ACTGGACCTC AATGAGGATG GGCTTGTGGA CCTAGCAGTG 
GGCGCCCTGG GCAACGCTGT GGTTTTGTGG GCCCGCCCCG TGGTGCAGAT CAACGCCAGT 
CTCCACTTTG AGCCACCCAA GATCAACATT TTCCACAAGG ACTGCAAGCG CAACGGCAGG 
GATGCCACCT GTCTGGCCGC CTTCCTCTGC TTCATGCCTG TCTTCCTGGC ACCCCACTTC 
CAAACAGCAA CCGTCGGCAT CAGGTACAAT GCCACCATGG ACGAGAGGCG GTACATGCCA 
CGGGCACATC TGGACGAGGG TGCAGACCAG TTCACCAACA GGGCTGTCGT ACTCTCCTCA 
GGCCAGGAAC ACTGCCAAAA GATCAACTTC CATGTCCTGG ACACTGCCGA CTACGTGAAG 
CCAGTGACGT TCTCCGTGGA GTACTCCCTC GAGGACCCTG ACTTTGGCCC CATGCTAGAC 
AATGGCTGGC CCACTACACT CAGAGTGTCG GTGCCCTTTT GGAATGGCTG TAATGAGGAC 
GAACACTGTG TCCCTGACCT TGTCCTGGAT GCTCGGAGTG ATCTGCCCAC TGCCACGGAG 
TACTGCCAAC GGGTACTGAG GAAGACTGCA CAGGACTGCT CCACCTACAC GCTGTCCTTC 
GACACCACTG TCTTCATCAT AGAGAGCACG CGTCGCCGGG TGGCCGTGGA GGCCACGCTG 
GAGAACAGAG GAGAGAATGC CTACAGCACC GTCCTCAACA TCTCCCAGTC AGAAAACCTG 
CAGTTCGCCA GCCTGATCCA GAAGGATGAC TCAGACAACA GCATTGAGTG TGTCAACGAG 
GAGAGGCGGC TGCACAAGAA AGTCTGCAAT GTCAGCTACC CCTTCTTCAG GGCCAAGGCC 
AAGGTGGCTT TCCGTCTGGA CTTCGAGTTC AGCAAGTCTG TGTTCCTGCA CCATCTTCAG 
ATCCAGCTGG GTGCTGGCAG TGACAGTCAC GAGCAGGAGA GCACCACCGA TGACAACATG 
GCCCTCCTTC GCTTCCACCT CAAATACGAA GCAGATGTCC TCTTTACTAG GAGCAGCAGC 
CTGAGCCACT ATGAGGTCAA GGCCAATAGC TCTCTGGAGA AATATGATGG CATTGGGCCT 
CCCTTCAACT GTGTTTTCAA GGTGCAGAAT CTGGGCTTTT TCCCTATCCA CGGGGTGATG 
ATGAAGATCA CTGTGCCCAT CGCCACCAGG GGTGGGAACC GCCTGCTGAT GCTGAGGGAC 
TTCTTCACCG ACCAGGTCAA CACATCCTGT AACATCTGGG GGAACAGCAC AGAGTACCAG 
AGTGCCCCAA CTGAGGAAGA CTTGAGCCGT GCCCCACAGA GGAACCACAG CAACTCCGAC 
GTGGTCTCCA TCACCTGCAA TGTGAAGCTG ACCCCCAACC AGGAAATCAG ATTCTACCTG 
ATAGGGAACC TGTGGCTGAG GTCTCTGAAA GCACTCAAGT ACAGATCTCT GAAGATCACA 
GTCAATGCGG CCTTGCAGCG GCAGTTCCAC AGCCCCTTCA TCTTCCGAGA GGAGGACCCC 
AGCCGCCAGG TCACATTTGA GATTTCCAAG CAAGAAGATT GGCAGGTCCC CATCTGGATC 
ATCGTGGGCA GCACTCTGGG GGGGCTCTTG CTGCTGGCCC TGCTAGTCCT GGCACTGTGG 
CAGCTCGGTT TCTTTAAAAG TGCCAAGCGC AAGAGGGAGC CTGGACTGGG CCCTGCCCCC 
AAAGGGCTGG AGTGA

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

RefSeq	XP_013201912.1
CDS	15..3509
Translation	MDTRNPRVIAGPSSAFFGYTVQQHDISGKKWLVVGAPLETNGHQKTGDVYKCPVTQGNCTKLNLGRVTLSNVSERKDNMRLGLSLTTNPKDNSFLACSPLWSHECGSSYYTTGMCSRVNSNFRFSKTVAPALQRCQTYMDIIIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGIVQYGEDAVHEFHLNDYKSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIRQSEKDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGILLGAVGAYDWNGAVLKETSAGKVIPYRESYLKEFPEELKNHAAYLGYTVTSVVSSKQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQALRGEQIGSYFGSEITSVDINGDRVTDVLLVGAPMYFSEGRERGKVYVYNLRQNRFVYNGTLKDSHSYQNARFGSCIASVQDLNQDSYNDVVVGAPLEDSHRGAIYIFHGFQSSILKKPIQRITASELAPGLQHFGCSIHGQLDLNEDGLVDLAVGALGNAVVLWARPVVQINASLHFEPPKINIFHKDCKRNGRDATCLAAFLCFMPVFLAPHFQTATVGIRYNATMDERRYMPRAHLDEGADQFTNRAVVLSSGQEHCQKINFHVLDTADYVKPVTFSVEYSLEDPDFGPMLDNGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTATEYCQRVLRKTAQDCSTYTLSFDTTVFIIESTRRRVAVEATLENRGENAYSTVLNISQSENLQFASLIQKDDSDNSIECVNEERRLHKKVCNVSYPFFRAKAKVAFRLDFEFSKSVFLHHLQIQLGAGSDSHEQESTTDDNMALLRFHLKYEADVLFTRSSSLSHYEVKANSSLEKYDGIGPPFNCVFKVQNLGFFPIHGVMMKITVPIATRGGNRLLMLRDFFTDQVNTSCNIWGNSTEYQSAPTEEDLSRAPQRNHSNSDVVSITCNVKLTPNQEIRFYLIGNLWLRSLKALKYRSLKITVNAALQRQFHSPFIFREEDPSRQVTFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWQLGFFKSAKRKREPGLGPAPKGLE

Target ORF information:

RefSeq Version	XM_013346458.1
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster integrin, alpha 11 (Itga11), mRNA.

Target ORF information:

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

XM_013346458.1

ORF Insert Sequence:

ATGGATACCA GGAATCCCCG GGTCATCGCT GGTCCCAGTT CTGCCTTCTT TGGCTACACA 
GTCCAGCAGC ATGACATCAG TGGCAAGAAG TGGTTGGTTG TGGGTGCCCC ACTGGAAACC 
AATGGCCACC AGAAGACGGG AGATGTGTAC AAGTGTCCAG TAACGCAAGG CAACTGCACC 
AAGCTCAACC TGGGCAGGGT CACTCTGTCC AATGTGTCTG AGAGGAAGGA CAACATGCGT 
CTCGGCCTGA GCCTTACCAC CAACCCCAAG GACAACAGCT TCCTGGCCTG CAGCCCTCTC 
TGGTCTCATG AGTGTGGAAG CTCCTACTAT ACCACTGGCA TGTGCTCACG AGTCAACTCC 
AACTTCAGGT TCTCCAAGAC AGTGGCCCCA GCGCTTCAAA GGTGCCAAAC CTACATGGAC 
ATCATCATTG TCCTGGACGG CTCCAACAGC ATCTACCCGT GGGTGGAGGT CCAACACTTC 
CTCATCAATA TCCTGAAAAA GTTCTACATT GGCCCTGGCC AGATCCAGGT TGGAATAGTT 
CAGTATGGAG AAGATGCAGT ACATGAGTTC CACCTTAATG ACTACAAATC TGTAAAGGAC 
GTGGTGGAAG CCGCCAGCCA CATTGAGCAG AGAGGAGGGA CAGAGACCCG CACAGCATTT 
GGCATTGAAT TTGCACGTTC AGAGGCTTTC CAGAAGGGTG GAAGGAAAGG GGCCAAGAAG 
GTGATGATTG TCATCACGGA TGGGGAATCC CATGACAGCC CAGACCTGGA GAAGGTGATC 
CGGCAAAGCG AGAAGGACAA TGTGACCAGA TACGCAGTGG CCGTCTTGGG CTACTACAAC 
CGCAGGGGGA TCAATCCAGA AACTTTTCTA AATGAAATCA AATACATCGC GAGCGACCCC 
GATGACAAGC ACTTCTTCAA CGTCACAGAT GAGGCGGCCC TGAAGGACAT TGTCGATGCC 
CTCGGGGACA GGATCTTCAG CTTGGAAGGC ACCAACAAGA ATGAAACCTC TTTTGGACTG 
GAGATGTCAC AGACGGGCTT TTCCTCGCAT GTGGTAGAGG ATGGAATCCT GCTGGGAGCC 
GTGGGAGCCT ACGACTGGAA CGGGGCGGTG CTGAAGGAGA CAAGTGCGGG CAAGGTGATT 
CCCTACCGGG AGTCCTACCT TAAGGAGTTC CCAGAGGAGC TGAAGAACCA TGCCGCATAC 
CTAGGCTACA CAGTGACATC GGTCGTGTCC TCCAAGCAGG GGCGGGTGTA TGTGGCCGGA 
GCCCCCAGGT TCAACCACAC GGGCAAGGTC ATTCTGTTCA CCATGCACAA CAACCGCAGC 
CTCACCATCC ACCAGGCTCT TCGGGGCGAG CAGATAGGCT CCTACTTTGG GAGTGAGATC 
ACCTCAGTGG ACATCAATGG CGACAGAGTG ACCGATGTCT TGCTGGTGGG CGCCCCCATG 
TACTTCAGCG AGGGCCGAGA GCGAGGCAAG GTGTATGTCT ACAATCTGAG ACAGAACCGG 
TTTGTTTATA ATGGCACTCT GAAGGATTCC CACAGCTACC AGAATGCCCG GTTTGGGTCC 
TGCATTGCCT CCGTTCAAGA CCTCAACCAA GACTCCTACA ACGATGTGGT GGTGGGGGCC 
CCTCTAGAGG ACAGCCACAG AGGGGCCATC TACATCTTCC ATGGCTTCCA AAGCAGCATC 
CTGAAGAAGC CCATACAGAG AATCACAGCC TCAGAGCTGG CTCCTGGCCT GCAGCATTTC 
GGCTGCAGCA TCCACGGACA ACTGGACCTC AATGAGGATG GGCTTGTGGA CCTAGCAGTG 
GGCGCCCTGG GCAACGCTGT GGTTTTGTGG GCCCGCCCCG TGGTGCAGAT CAACGCCAGT 
CTCCACTTTG AGCCACCCAA GATCAACATT TTCCACAAGG ACTGCAAGCG CAACGGCAGG 
GATGCCACCT GTCTGGCCGC CTTCCTCTGC TTCATGCCTG TCTTCCTGGC ACCCCACTTC 
CAAACAGCAA CCGTCGGCAT CAGGTACAAT GCCACCATGG ACGAGAGGCG GTACATGCCA 
CGGGCACATC TGGACGAGGG TGCAGACCAG TTCACCAACA GGGCTGTCGT ACTCTCCTCA 
GGCCAGGAAC ACTGCCAAAA GATCAACTTC CATGTCCTGG ACACTGCCGA CTACGTGAAG 
CCAGTGACGT TCTCCGTGGA GTACTCCCTC GAGGACCCTG ACTTTGGCCC CATGCTAGAC 
AATGGCTGGC CCACTACACT CAGAGTGTCG GTGCCCTTTT GGAATGGCTG TAATGAGGAC 
GAACACTGTG TCCCTGACCT TGTCCTGGAT GCTCGGAGTG ATCTGCCCAC TGCCACGGAG 
TACTGCCAAC GGGTACTGAG GAAGACTGCA CAGGACTGCT CCACCTACAC GCTGTCCTTC 
GACACCACTG TCTTCATCAT AGAGAGCACG CGTCGCCGGG TGGCCGTGGA GGCCACGCTG 
GAGAACAGAG GAGAGAATGC CTACAGCACC GTCCTCAACA TCTCCCAGTC AGAAAACCTG 
CAGTTCGCCA GCCTGATCCA GAAGGATGAC TCAGACAACA GCATTGAGTG TGTCAACGAG 
GAGAGGCGGC TGCACAAGAA AGTCTGCAAT GTCAGCTACC CCTTCTTCAG GGCCAAGGCC 
AAGGTGGCTT TCCGTCTGGA CTTCGAGTTC AGCAAGTCTG TGTTCCTGCA CCATCTTCAG 
ATCCAGCTGG GTGCTGGCAG TGACAGTCAC GAGCAGGAGA GCACCACCGA TGACAACATG 
GCCCTCCTTC GCTTCCACCT CAAATACGAA GCAGATGTCC TCTTTACTAG GAGCAGCAGC 
CTGAGCCACT ATGAGGTCAA GGCCAATAGC TCTCTGGAGA AATATGATGG CATTGGGCCT 
CCCTTCAACT GTGTTTTCAA GGTGCAGAAT CTGGGCTTTT TCCCTATCCA CGGGGTGATG 
ATGAAGATCA CTGTGCCCAT CGCCACCAGG GGTGGGAACC GCCTGCTGAT GCTGAGGGAC 
TTCTTCACCG ACCAGGTCAA CACATCCTGT AACATCTGGG GGAACAGCAC AGAGTACCAG 
AGTGCCCCAA CTGAGGAAGA CTTGAGCCGT GCCCCACAGA GGAACCACAG CAACTCCGAC 
GTGGTCTCCA TCACCTGCAA TGTGAAGCTG ACCCCCAACC AGGAAATCAG ATTCTACCTG 
ATAGGGAACC TGTGGCTGAG GTCTCTGAAA GCACTCAAGT ACAGATCTCT GAAGATCACA 
GTCAATGCGG CCTTGCAGCG GCAGTTCCAC AGCCCCTTCA TCTTCCGAGA GGAGGACCCC 
AGCCGCCAGG TCACATTTGA GATTTCCAAG CAAGAAGATT GGCAGGTCCC CATCTGGATC 
ATCGTGGGCA GCACTCTGGG GGGGCTCTTG CTGCTGGCCC TGCTAGTCCT GGCACTGTGG 
CAGCTCGGTT TCTTTAAAAG TGCCAAGCGC AAGAGGGAGC CTGGACTGGG CCCTGCCCCC 
AAAGGGCTGG AGTGA

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

Itga11 ( XM_013346458.2 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_013201912.2 Microtus ochrogaster integrin subunit alpha 11 (Itga11), mRNA.

Price & Availability↑

CloneID	OMi169610
Clone ID Related Accession (Same CDS sequence)	XM_013346458.2
Accession Version	XM_013346458.2 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	2018-10-14
Organism	Microtus ochrogaster(prairie vole)
Product	integrin alpha-11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_022012.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 15, 2018 this sequence version replaced XM_013346458.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Microtus ochrogaster Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACCTGC CTAGGGGCCT CCTGGTGGCC TGGACCCTCA GCCTCTGGCC AGGATTCACA 
GACACCTTTA ACATGGATAC CAGGAATCCC CGGGTCATCG CTGGTCCCAG TTCTGCCTTC 
TTTGGCTACA CAGTCCAGCA GCATGACATC AGTGGCAAGA AGTGGTTGGT TGTGGGTGCC 
CCACTGGAAA CCAATGGCCA CCAGAAGACG GGAGATGTGT ACAAGTGTCC AGTAACGCAA 
GGCAACTGCA CCAAGCTCAA CCTGGGCAGG GTCACTCTGT CCAATGTGTC TGAGAGGAAG 
GACAACATGC GTCTCGGCCT GAGCCTTACC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCTC TCTGGTCTCA TGAGTGTGGA AGCTCCTACT ATACCACTGG CATGTGCTCA 
CGAGTCAACT CCAACTTCAG GTTCTCCAAG ACAGTGGCCC CAGCGCTTCA AAGGTGCCAA 
ACCTACATGG ACATCATCAT TGTCCTGGAC GGCTCCAACA GCATCTACCC GTGGGTGGAG 
GTCCAACACT TCCTCATCAA TATCCTGAAA AAGTTCTACA TTGGCCCTGG CCAGATCCAG 
GTTGGAATAG TTCAGTATGG AGAAGATGCA GTACATGAGT TCCACCTTAA TGACTACAAA 
TCTGTAAAGG ACGTGGTGGA AGCCGCCAGC CACATTGAGC AGAGAGGAGG GACAGAGACC 
CGCACAGCAT TTGGCATTGA ATTTGCACGT TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGGGCCAAGA AGGTGATGAT TGTCATCACG GATGGGGAAT CCCATGACAG CCCAGACCTG 
GAGAAGGTGA TCCGGCAAAG CGAGAAGGAC AATGTGACCA GATACGCAGT GGCCGTCTTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCGAGCGACC CCGATGACAA GCACTTCTTC AACGTCACAG ATGAGGCGGC CCTGAAGGAC 
ATTGTCGATG CCCTCGGGGA CAGGATCTTC AGCTTGGAAG GCACCAACAA GAATGAAACC 
TCTTTTGGAC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ATGTGGTAGA GGATGGAATC 
CTGCTGGGAG CCGTGGGAGC CTACGACTGG AACGGGGCGG TGCTGAAGGA GACAAGTGCG 
GGCAAGGTGA TTCCCTACCG GGAGTCCTAC CTTAAGGAGT TCCCAGAGGA GCTGAAGAAC 
CATGCCGCAT ACCTAGGCTA CACAGTGACA TCGGTCGTGT CCTCCAAGCA GGGGCGGGTG 
TATGTGGCCG GAGCCCCCAG GTTCAACCAC ACGGGCAAGG TCATTCTGTT CACCATGCAC 
AACAACCGCA GCCTCACCAT CCACCAGGCT CTTCGGGGCG AGCAGATAGG CTCCTACTTT 
GGGAGTGAGA TCACCTCAGT GGACATCAAT GGCGACAGAG TGACCGATGT CTTGCTGGTG 
GGCGCCCCCA TGTACTTCAG CGAGGGCCGA GAGCGAGGCA AGGTGTATGT CTACAATCTG 
AGACAGAACC GGTTTGTTTA TAATGGCACT CTGAAGGATT CCCACAGCTA CCAGAATGCC 
CGGTTTGGGT CCTGCATTGC CTCCGTTCAA GACCTCAACC AAGACTCCTA CAACGATGTG 
GTGGTGGGGG CCCCTCTAGA GGACAGCCAC AGAGGGGCCA TCTACATCTT CCATGGCTTC 
CAAAGCAGCA TCCTGAAGAA GCCCATACAG AGAATCACAG CCTCAGAGCT GGCTCCTGGC 
CTGCAGCATT TCGGCTGCAG CATCCACGGA CAACTGGACC TCAATGAGGA TGGGCTTGTG 
GACCTAGCAG TGGGCGCCCT GGGCAACGCT GTGGTTTTGT GGGCCCGCCC CGTGGTGCAG 
ATCAACGCCA GTCTCCACTT TGAGCCACCC AAGATCAACA TTTTCCACAA GGACTGCAAG 
CGCAACGGCA GGGATGCCAC CTGTCTGGCC GCCTTCCTCT GCTTCATGCC TGTCTTCCTG 
GCACCCCACT TCCAAACAGC AACCGTCGGC ATCAGGTACA ATGCCACCAT GGACGAGAGG 
CGGTACATGC CACGGGCACA TCTGGACGAG GGTGCAGACC AGTTCACCAA CAGGGCTGTC 
GTACTCTCCT CAGGCCAGGA ACACTGCCAA AAGATCAACT TCCATGTCCT GGACACTGCC 
GACTACGTGA AGCCAGTGAC GTTCTCCGTG GAGTACTCCC TCGAGGACCC TGACTTTGGC 
CCCATGCTAG ACAATGGCTG GCCCACTACA CTCAGAGTGT CGGTGCCCTT TTGGAATGGC 
TGTAATGAGG ACGAACACTG TGTCCCTGAC CTTGTCCTGG ATGCTCGGAG TGATCTGCCC 
ACTGCCACGG AGTACTGCCA ACGGGTACTG AGGAAGACTG CACAGGACTG CTCCACCTAC 
ACGCTGTCCT TCGACACCAC TGTCTTCATC ATAGAGAGCA CGCGTCGCCG GGTGGCCGTG 
GAGGCCACGC TGGAGAACAG AGGAGAGAAT GCCTACAGCA CCGTCCTCAA CATCTCCCAG 
TCAGAAAACC TGCAGTTCGC CAGCCTGATC CAGAAGGATG ACTCAGACAA CAGCATTGAG 
TGTGTCAACG AGGAGAGGCG GCTGCACAAG AAAGTCTGCA ATGTCAGCTA CCCCTTCTTC 
AGGGCCAAGG CCAAGGTGGC TTTCCGTCTG GACTTCGAGT TCAGCAAGTC TGTGTTCCTG 
CACCATCTTC AGATCCAGCT GGGTGCTGGC AGTGACAGTC ACGAGCAGGA GAGCACCACC 
GATGACAACA TGGCCCTCCT TCGCTTCCAC CTCAAATACG AAGCAGATGT CCTCTTTACT 
AGGAGCAGCA GCCTGAGCCA CTATGAGGTC AAGGCCAATA GCTCTCTGGA GAAATATGAT 
GGCATTGGGC CTCCCTTCAA CTGTGTTTTC AAGGTGCAGA ATCTGGGCTT TTTCCCTATC 
CACGGGGTGA TGATGAAGAT CACTGTGCCC ATCGCCACCA GGGGTGGGAA CCGCCTGCTG 
ATGCTGAGGG ACTTCTTCAC CGACCAGGTC AACACATCCT GTAACATCTG GGGGAACAGC 
ACAGAGTACC AGAGTGCCCC AACTGAGGAA GACTTGAGCC GTGCCCCACA GAGGAACCAC 
AGCAACTCCG ACGTGGTCTC CATCACCTGC AATGTGAAGC TGACCCCCAA CCAGGAAATC 
AGATTCTACC TGATAGGGAA CCTGTGGCTG AGGTCTCTGA AAGCACTCAA GTACAGATCT 
CTGAAGATCA CAGTCAATGC GGCCTTGCAG CGGCAGTTCC ACAGCCCCTT CATCTTCCGA 
GAGGAGGACC CCAGCCGCCA GGTCACATTT GAGATTTCCA AGCAAGAAGA TTGGCAGGTC 
CCCATCTGGA TCATCGTGGG CAGCACTCTG GGGGGGCTCT TGCTGCTGGC CCTGCTAGTC 
CTGGCACTGT GGCAGCTCGG TTTCTTTAAA AGTGCCAAGC GCAAGAGGGA GCCTGGACTG 
GGCCCTGCCC CCAAAGGGCT GGAGTGA

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

RefSeq	XP_013201912.2
CDS	79..3645
Translation	MDLPRGLLVAWTLSLWPGFTDTFNMDTRNPRVIAGPSSAFFGYTVQQHDISGKKWLVVGAPLETNGHQKTGDVYKCPVTQGNCTKLNLGRVTLSNVSERKDNMRLGLSLTTNPKDNSFLACSPLWSHECGSSYYTTGMCSRVNSNFRFSKTVAPALQRCQTYMDIIIVLDGSNSIYPWVEVQHFLINILKKFYIGPGQIQVGIVQYGEDAVHEFHLNDYKSVKDVVEAASHIEQRGGTETRTAFGIEFARSEAFQKGGRKGAKKVMIVITDGESHDSPDLEKVIRQSEKDNVTRYAVAVLGYYNRRGINPETFLNEIKYIASDPDDKHFFNVTDEAALKDIVDALGDRIFSLEGTNKNETSFGLEMSQTGFSSHVVEDGILLGAVGAYDWNGAVLKETSAGKVIPYRESYLKEFPEELKNHAAYLGYTVTSVVSSKQGRVYVAGAPRFNHTGKVILFTMHNNRSLTIHQALRGEQIGSYFGSEITSVDINGDRVTDVLLVGAPMYFSEGRERGKVYVYNLRQNRFVYNGTLKDSHSYQNARFGSCIASVQDLNQDSYNDVVVGAPLEDSHRGAIYIFHGFQSSILKKPIQRITASELAPGLQHFGCSIHGQLDLNEDGLVDLAVGALGNAVVLWARPVVQINASLHFEPPKINIFHKDCKRNGRDATCLAAFLCFMPVFLAPHFQTATVGIRYNATMDERRYMPRAHLDEGADQFTNRAVVLSSGQEHCQKINFHVLDTADYVKPVTFSVEYSLEDPDFGPMLDNGWPTTLRVSVPFWNGCNEDEHCVPDLVLDARSDLPTATEYCQRVLRKTAQDCSTYTLSFDTTVFIIESTRRRVAVEATLENRGENAYSTVLNISQSENLQFASLIQKDDSDNSIECVNEERRLHKKVCNVSYPFFRAKAKVAFRLDFEFSKSVFLHHLQIQLGAGSDSHEQESTTDDNMALLRFHLKYEADVLFTRSSSLSHYEVKANSSLEKYDGIGPPFNCVFKVQNLGFFPIHGVMMKITVPIATRGGNRLLMLRDFFTDQVNTSCNIWGNSTEYQSAPTEEDLSRAPQRNHSNSDVVSITCNVKLTPNQEIRFYLIGNLWLRSLKALKYRSLKITVNAALQRQFHSPFIFREEDPSRQVTFEISKQEDWQVPIWIIVGSTLGGLLLLALLVLALWQLGFFKSAKRKREPGLGPAPKGLE

Target ORF information:

RefSeq Version	XM_013346458.2
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster 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

XM_013346458.2

ORF Insert Sequence:

ATGGACCTGC CTAGGGGCCT CCTGGTGGCC TGGACCCTCA GCCTCTGGCC AGGATTCACA 
GACACCTTTA ACATGGATAC CAGGAATCCC CGGGTCATCG CTGGTCCCAG TTCTGCCTTC 
TTTGGCTACA CAGTCCAGCA GCATGACATC AGTGGCAAGA AGTGGTTGGT TGTGGGTGCC 
CCACTGGAAA CCAATGGCCA CCAGAAGACG GGAGATGTGT ACAAGTGTCC AGTAACGCAA 
GGCAACTGCA CCAAGCTCAA CCTGGGCAGG GTCACTCTGT CCAATGTGTC TGAGAGGAAG 
GACAACATGC GTCTCGGCCT GAGCCTTACC ACCAACCCCA AGGACAACAG CTTCCTGGCC 
TGCAGCCCTC TCTGGTCTCA TGAGTGTGGA AGCTCCTACT ATACCACTGG CATGTGCTCA 
CGAGTCAACT CCAACTTCAG GTTCTCCAAG ACAGTGGCCC CAGCGCTTCA AAGGTGCCAA 
ACCTACATGG ACATCATCAT TGTCCTGGAC GGCTCCAACA GCATCTACCC GTGGGTGGAG 
GTCCAACACT TCCTCATCAA TATCCTGAAA AAGTTCTACA TTGGCCCTGG CCAGATCCAG 
GTTGGAATAG TTCAGTATGG AGAAGATGCA GTACATGAGT TCCACCTTAA TGACTACAAA 
TCTGTAAAGG ACGTGGTGGA AGCCGCCAGC CACATTGAGC AGAGAGGAGG GACAGAGACC 
CGCACAGCAT TTGGCATTGA ATTTGCACGT TCAGAGGCTT TCCAGAAGGG TGGAAGGAAA 
GGGGCCAAGA AGGTGATGAT TGTCATCACG GATGGGGAAT CCCATGACAG CCCAGACCTG 
GAGAAGGTGA TCCGGCAAAG CGAGAAGGAC AATGTGACCA GATACGCAGT GGCCGTCTTG 
GGCTACTACA ACCGCAGGGG GATCAATCCA GAAACTTTTC TAAATGAAAT CAAATACATC 
GCGAGCGACC CCGATGACAA GCACTTCTTC AACGTCACAG ATGAGGCGGC CCTGAAGGAC 
ATTGTCGATG CCCTCGGGGA CAGGATCTTC AGCTTGGAAG GCACCAACAA GAATGAAACC 
TCTTTTGGAC TGGAGATGTC ACAGACGGGC TTTTCCTCGC ATGTGGTAGA GGATGGAATC 
CTGCTGGGAG CCGTGGGAGC CTACGACTGG AACGGGGCGG TGCTGAAGGA GACAAGTGCG 
GGCAAGGTGA TTCCCTACCG GGAGTCCTAC CTTAAGGAGT TCCCAGAGGA GCTGAAGAAC 
CATGCCGCAT ACCTAGGCTA CACAGTGACA TCGGTCGTGT CCTCCAAGCA GGGGCGGGTG 
TATGTGGCCG GAGCCCCCAG GTTCAACCAC ACGGGCAAGG TCATTCTGTT CACCATGCAC 
AACAACCGCA GCCTCACCAT CCACCAGGCT CTTCGGGGCG AGCAGATAGG CTCCTACTTT 
GGGAGTGAGA TCACCTCAGT GGACATCAAT GGCGACAGAG TGACCGATGT CTTGCTGGTG 
GGCGCCCCCA TGTACTTCAG CGAGGGCCGA GAGCGAGGCA AGGTGTATGT CTACAATCTG 
AGACAGAACC GGTTTGTTTA TAATGGCACT CTGAAGGATT CCCACAGCTA CCAGAATGCC 
CGGTTTGGGT CCTGCATTGC CTCCGTTCAA GACCTCAACC AAGACTCCTA CAACGATGTG 
GTGGTGGGGG CCCCTCTAGA GGACAGCCAC AGAGGGGCCA TCTACATCTT CCATGGCTTC 
CAAAGCAGCA TCCTGAAGAA GCCCATACAG AGAATCACAG CCTCAGAGCT GGCTCCTGGC 
CTGCAGCATT TCGGCTGCAG CATCCACGGA CAACTGGACC TCAATGAGGA TGGGCTTGTG 
GACCTAGCAG TGGGCGCCCT GGGCAACGCT GTGGTTTTGT GGGCCCGCCC CGTGGTGCAG 
ATCAACGCCA GTCTCCACTT TGAGCCACCC AAGATCAACA TTTTCCACAA GGACTGCAAG 
CGCAACGGCA GGGATGCCAC CTGTCTGGCC GCCTTCCTCT GCTTCATGCC TGTCTTCCTG 
GCACCCCACT TCCAAACAGC AACCGTCGGC ATCAGGTACA ATGCCACCAT GGACGAGAGG 
CGGTACATGC CACGGGCACA TCTGGACGAG GGTGCAGACC AGTTCACCAA CAGGGCTGTC 
GTACTCTCCT CAGGCCAGGA ACACTGCCAA AAGATCAACT TCCATGTCCT GGACACTGCC 
GACTACGTGA AGCCAGTGAC GTTCTCCGTG GAGTACTCCC TCGAGGACCC TGACTTTGGC 
CCCATGCTAG ACAATGGCTG GCCCACTACA CTCAGAGTGT CGGTGCCCTT TTGGAATGGC 
TGTAATGAGG ACGAACACTG TGTCCCTGAC CTTGTCCTGG ATGCTCGGAG TGATCTGCCC 
ACTGCCACGG AGTACTGCCA ACGGGTACTG AGGAAGACTG CACAGGACTG CTCCACCTAC 
ACGCTGTCCT TCGACACCAC TGTCTTCATC ATAGAGAGCA CGCGTCGCCG GGTGGCCGTG 
GAGGCCACGC TGGAGAACAG AGGAGAGAAT GCCTACAGCA CCGTCCTCAA CATCTCCCAG 
TCAGAAAACC TGCAGTTCGC CAGCCTGATC CAGAAGGATG ACTCAGACAA CAGCATTGAG 
TGTGTCAACG AGGAGAGGCG GCTGCACAAG AAAGTCTGCA ATGTCAGCTA CCCCTTCTTC 
AGGGCCAAGG CCAAGGTGGC TTTCCGTCTG GACTTCGAGT TCAGCAAGTC TGTGTTCCTG 
CACCATCTTC AGATCCAGCT GGGTGCTGGC AGTGACAGTC ACGAGCAGGA GAGCACCACC 
GATGACAACA TGGCCCTCCT TCGCTTCCAC CTCAAATACG AAGCAGATGT CCTCTTTACT 
AGGAGCAGCA GCCTGAGCCA CTATGAGGTC AAGGCCAATA GCTCTCTGGA GAAATATGAT 
GGCATTGGGC CTCCCTTCAA CTGTGTTTTC AAGGTGCAGA ATCTGGGCTT TTTCCCTATC 
CACGGGGTGA TGATGAAGAT CACTGTGCCC ATCGCCACCA GGGGTGGGAA CCGCCTGCTG 
ATGCTGAGGG ACTTCTTCAC CGACCAGGTC AACACATCCT GTAACATCTG GGGGAACAGC 
ACAGAGTACC AGAGTGCCCC AACTGAGGAA GACTTGAGCC GTGCCCCACA GAGGAACCAC 
AGCAACTCCG ACGTGGTCTC CATCACCTGC AATGTGAAGC TGACCCCCAA CCAGGAAATC 
AGATTCTACC TGATAGGGAA CCTGTGGCTG AGGTCTCTGA AAGCACTCAA GTACAGATCT 
CTGAAGATCA CAGTCAATGC GGCCTTGCAG CGGCAGTTCC ACAGCCCCTT CATCTTCCGA 
GAGGAGGACC CCAGCCGCCA GGTCACATTT GAGATTTCCA AGCAAGAAGA TTGGCAGGTC 
CCCATCTGGA TCATCGTGGG CAGCACTCTG GGGGGGCTCT TGCTGCTGGC CCTGCTAGTC 
CTGGCACTGT GGCAGCTCGG TTTCTTTAAA AGTGCCAAGC GCAAGAGGGA GCCTGGACTG 
GGCCCTGCCC CCAAAGGGCT GGAGTGA