Bcr cDNA ORF clone, Microtus ochrogaster(prairie vole)

Gene
Clones
gRNAs

Summary

Gene Symbol	Bcr
Entrez Gene ID	101979316
Full Name	BCR, RhoGEF and GTPase activating protein
Gene Type	protein-coding
Organism	Microtus ochrogaster(prairie vole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013351189.1	XP_013206643.1	breakpoint cluster region protein
XM_013351189.2	XP_013206643.2	breakpoint cluster region protein

Pathways from BioSystems
Gene Ontology

The following Bcr gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Bcr 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
OMi114266	XM_013351189.1 Latest version!	Microtus ochrogaster breakpoint cluster region (Bcr), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OMi164956	XM_013351189.2 Latest version!	Microtus ochrogaster BCR, RhoGEF and GTPase activating protein (Bcr), 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)

Bcr ( XM_013351189.1 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_013206643.1 Microtus ochrogaster breakpoint cluster region (Bcr), mRNA.

Price & Availability↑

CloneID	OMi114266
Clone ID Related Accession (Same CDS sequence)	XM_013351189.1
Accession Version	XM_013351189.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	breakpoint cluster region protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004949063.1) 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##

ATGCAGATGG AGCGCAAGAA GTCCCAGCAA AGCACTGGGC AGGGTCTGGG GGAAGCGCCC 
AGACCCCACT ACCGCGGGCG CTCCTCGGAG AGCAGCTGTG GCCTCGACGG TGACTACGAG 
GATGCGGAGT TAAATCCCCG CTTCCTGAAG GACAACCTAA TCAATGCCAA CGGCGGCAAC 
AGGCCCCCTT GGCCGCCCCT GGAGTACCAA CCCTACCAGA GCATCTACGT CGGAGGTATG 
ATGGAAGGGG AGGGCAAGGG CCCGCTCCTG CGAAGCCAGA GCACTTCGGA GCAGGAGAAG 
CGCCTCACCT GGCCCCGCAG GTCCTACTCC CCCCGGAGTT TTGAGGACAG CGGAGGAGGT 
TATACCCCGG ATTGCAGCTC CAATGAGAAC CTCACCTCCA GCGAGGAGGA CTTTTCCTCT 
GGCCAGTCCA GCCGCGTGTC CCCAAGCCCC ACCACCTACC GTATGTTCCG GGACAAGAGC 
CGCTCACCCT CACAGAATTC GCAGCAATCC TTTGACAGCA GCAGCCCCCC GACGCCGCAG 
TGTCAGAAGC GGCACCGACA GTGTCAGGTT GTGGTGTCTG AGGCTACCAT CGTAGGTGTC 
CGCAAGACCG GGCAGATCTG GCCCAATGAC GGGGACAGCA CCTTCCAGGG GGATGCAGAT 
TCCTCGTTCG GCACACCACC TGGGTACGGC TGTGCCGCAG ACCAGGCCGA GGAGCAGCGC 
CGGCACCAGG ATGGGCTGCC CTACATCGAT GATTCACCTT CCTCCTCTCC ACACCTCAGC 
AGCAAAGGCA GAGGCAGCCG CGACGCTCTG GCCTCAGGAG CCCTGGAGCC CAGCAAAGCG 
AGCGAGCTGG ATTTGGAAAA GGGCTTGGAG ATGAGAAAGT GGGTTCTCTC GGGAATCCTG 
GCCAGCGAGG AAACGTACCT GAGCCACCTG GAGGCTCTGC TATTGCCCAT GAAGCCTCTG 
AAAGCCGCTG CCACCACCTC GCAGCCGGTG CTGACCAGCC AACAGATCGA GACCATTTTC 
TTCAAAGTAC CTGAGCTCTA TGAGATCCAC AAGGAGTTCT ACGACGGTCT GTTCCCTCGC 
GTGCAGCAAT GGAGCCACCA ACAGCGTGTG GGTGACCTCT TCCAGAAGCT GGCCAGCCAG 
CTGGGTGTGT ACCGAGCCTT CGTGGATAAC TACGGAGTGG CCATGGAAAC GGCGGAGAAG 
TGCTGTCAGG CCAACAGTCA GTTTGCAGAA ATATCTGAGA ACCTGAGAGC CAGGAGCAAC 
AGAGATGCCA AGGACTCCAC CACCAAGAAC TCTTTGGAAA ATCTGCTCTA CAAGCCTGTG 
GACCGGGTGA CAAGGAGCAC ACTAGTCCTG CATGACTTGC TAAAGCACAC TCCGTCCAGC 
CATCCTGACC ATTCCCTGCT GCAGGACGCC CTCCGCATCT CACAGAACTT CCTGTCCAGC 
ATCAATGAGG AGATCACACC CCGGCGGCAG TCCATGACTG TGAAGAAAGG AGAGCACCGG 
CAGCTGCTGA AGGACAGCTT CATGGTGGAG CTGGTGGAGG GGGCCCGCAA GCTGCGCCAC 
ATCTTCCTAT TCACCGACCT GCTCCTTTGC ACCAAGCTGA AGAAGCAAAG TGGAGGCAAA 
ACCCAGCAGT ATGACTGTAA ATGGTACATT CCGCTCACGG ACCTCAGCTT CCAGATGCTG 
GATGAACTGG AGGCCGTGCC CAACATCCCT CTGGTGCCAG ATGAGGAACT GGATGCCCTG 
AAGATCAAAA TCTCCCAGAT CAAGAGCGAC ATCCAACGGG AGAAGAGAGC AAACAAGGGC 
AGCAAAGTCA TGGAGAGGCT GAGGAAGAAG CTGTCTGAGC AAGAGTCACT GCTGCTCTTA 
ATGTCCCCCA GCATGGCCTT CAGGGTACAC AGTCGTAATG GTAAGAGTTA CACATTCCTG 
ATCTCCTCCG ACTATGAGCG AGCCGAGTGG CGAGAGAGCA TCCGGGAGCA GCAGAAGAAA 
TGTTTCAAAA GTTTCTCTCT GACGTCGGTG GAGCTGCAAA TGCTGACCAA CTCGTGTGTG 
AAACTTCAGA CTGTTCATCA CATTCCACTG ACCATCAACA AAGAGGATGA TGAGTCTCCT 
GGGCTCTACG GCTTCCTGAA TGTCATCGTC CACTCAGCCA CCGGGTTTAA GCAGAGTTCA 
AATCTATACT GCACCCTGGA GGTGGACTCC TTCGGGTATT TTGTGAACAA AGCGAAGACC 
CGCGTCTACA GGGACACCAC TGAGCCAAAC TGGAACGAGG AGTTCGAGAT AGAGCTGGAA 
GGCTCCCAGA CCCTGCGGAT ACTGTGCTAT GAAAAGTGTT ACAACAAGAT GAAGATCACC 
AAGGAGGATG GCGAGAGCAC AGACAAGCTC ATGGGGAAAG GTCAGCTCCA GTTGGACCCC 
CAAACTCTAC AGGACAGAGA CTGGCAACGG ACTGTCATCG ACATGAATGG GATCGAAGTG 
AAACTTTCCG TCAAGTTCAC GAGTAGGGAG TTCAGCTTGA AGAGAATGCC TTCCCGCAAA 
CAGACTGGGG TCTTCGGGGT CAAGATTGCG GTGGTCACGA AGAGAGAGAG GTCCAAGGTA 
CCCTACATTG TACGCCAGTG TGTGGAAGAG ATCGAACGCC GGGGCATGGA GGAGGTGGGC 
ATCTACCGAG TGTCTGGAGT GGCCACAGAC ATCCAGGCAC TGAAGGCGGC CTTCGATGTC 
AATAATAAGG ATGTATCCGT GATGATGAGC GAGATGGACG TGAATGCCAT TGCCGGCACG 
CTGAAGCTTT ACTTCCGCGA GCTGCCCGAG CCCCTCTTCA CTGATGAGTT CTACCCCAAC 
TTCGCAGAGG GCATCGCTCT TTCAGACCCT GTTGCAAAAG AAAGCTGCAT GCTCAACTTG 
CTGCTGTCCC TCCCAGAGGC CAACCTAGTG ACCTTCCTTT TCCTTCTGGA CCACTTGAAA 
AGGGTGGCTG AAAAGGAGCC AGTGAACAAG ATGTCCCTGC ATAACCTCGC CACAGTCTTT 
GGCCCCACGC TGCTTCGACC TTCTGAGAAG GAAAGCAAGC TTCCTGCGAA CCCCAACCAG 
CCCATCACCA TGACTGACAG CTGGTCCCTG GAGGTCATGT CCCAGGTCCA AGTGTTGCTG 
TACTTCCTGC AGCTGGAGGC CATCCCCGCC CCCGACAGCA AGAGACAGAG CATCCTGTTC 
TCCACTGAAG TTTAA

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

RefSeq	XP_013206643.1
CDS	335..3529
Translation	MQMERKKSQQSTGQGLGEAPRPHYRGRSSESSCGLDGDYEDAELNPRFLKDNLINANGGNRPPWPPLEYQPYQSIYVGGMMEGEGKGPLLRSQSTSEQEKRLTWPRRSYSPRSFEDSGGGYTPDCSSNENLTSSEEDFSSGQSSRVSPSPTTYRMFRDKSRSPSQNSQQSFDSSSPPTPQCQKRHRQCQVVVSEATIVGVRKTGQIWPNDGDSTFQGDADSSFGTPPGYGCAADQAEEQRRHQDGLPYIDDSPSSSPHLSSKGRGSRDALASGALEPSKASELDLEKGLEMRKWVLSGILASEETYLSHLEALLLPMKPLKAAATTSQPVLTSQQIETIFFKVPELYEIHKEFYDGLFPRVQQWSHQQRVGDLFQKLASQLGVYRAFVDNYGVAMETAEKCCQANSQFAEISENLRARSNRDAKDSTTKNSLENLLYKPVDRVTRSTLVLHDLLKHTPSSHPDHSLLQDALRISQNFLSSINEEITPRRQSMTVKKGEHRQLLKDSFMVELVEGARKLRHIFLFTDLLLCTKLKKQSGGKTQQYDCKWYIPLTDLSFQMLDELEAVPNIPLVPDEELDALKIKISQIKSDIQREKRANKGSKVMERLRKKLSEQESLLLLMSPSMAFRVHSRNGKSYTFLISSDYERAEWRESIREQQKKCFKSFSLTSVELQMLTNSCVKLQTVHHIPLTINKEDDESPGLYGFLNVIVHSATGFKQSSNLYCTLEVDSFGYFVNKAKTRVYRDTTEPNWNEEFEIELEGSQTLRILCYEKCYNKMKITKEDGESTDKLMGKGQLQLDPQTLQDRDWQRTVIDMNGIEVKLSVKFTSREFSLKRMPSRKQTGVFGVKIAVVTKRERSKVPYIVRQCVEEIERRGMEEVGIYRVSGVATDIQALKAAFDVNNKDVSVMMSEMDVNAIAGTLKLYFRELPEPLFTDEFYPNFAEGIALSDPVAKESCMLNLLLSLPEANLVTFLFLLDHLKRVAEKEPVNKMSLHNLATVFGPTLLRPSEKESKLPANPNQPITMTDSWSLEVMSQVQVLLYFLQLEAIPAPDSKRQSILFSTEV

Target ORF information:

RefSeq Version	XM_013351189.1
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster breakpoint cluster region (Bcr), mRNA.

Target ORF information:

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

XM_013351189.1

ORF Insert Sequence:

ATGCAGATGG AGCGCAAGAA GTCCCAGCAA AGCACTGGGC AGGGTCTGGG GGAAGCGCCC 
AGACCCCACT ACCGCGGGCG CTCCTCGGAG AGCAGCTGTG GCCTCGACGG TGACTACGAG 
GATGCGGAGT TAAATCCCCG CTTCCTGAAG GACAACCTAA TCAATGCCAA CGGCGGCAAC 
AGGCCCCCTT GGCCGCCCCT GGAGTACCAA CCCTACCAGA GCATCTACGT CGGAGGTATG 
ATGGAAGGGG AGGGCAAGGG CCCGCTCCTG CGAAGCCAGA GCACTTCGGA GCAGGAGAAG 
CGCCTCACCT GGCCCCGCAG GTCCTACTCC CCCCGGAGTT TTGAGGACAG CGGAGGAGGT 
TATACCCCGG ATTGCAGCTC CAATGAGAAC CTCACCTCCA GCGAGGAGGA CTTTTCCTCT 
GGCCAGTCCA GCCGCGTGTC CCCAAGCCCC ACCACCTACC GTATGTTCCG GGACAAGAGC 
CGCTCACCCT CACAGAATTC GCAGCAATCC TTTGACAGCA GCAGCCCCCC GACGCCGCAG 
TGTCAGAAGC GGCACCGACA GTGTCAGGTT GTGGTGTCTG AGGCTACCAT CGTAGGTGTC 
CGCAAGACCG GGCAGATCTG GCCCAATGAC GGGGACAGCA CCTTCCAGGG GGATGCAGAT 
TCCTCGTTCG GCACACCACC TGGGTACGGC TGTGCCGCAG ACCAGGCCGA GGAGCAGCGC 
CGGCACCAGG ATGGGCTGCC CTACATCGAT GATTCACCTT CCTCCTCTCC ACACCTCAGC 
AGCAAAGGCA GAGGCAGCCG CGACGCTCTG GCCTCAGGAG CCCTGGAGCC CAGCAAAGCG 
AGCGAGCTGG ATTTGGAAAA GGGCTTGGAG ATGAGAAAGT GGGTTCTCTC GGGAATCCTG 
GCCAGCGAGG AAACGTACCT GAGCCACCTG GAGGCTCTGC TATTGCCCAT GAAGCCTCTG 
AAAGCCGCTG CCACCACCTC GCAGCCGGTG CTGACCAGCC AACAGATCGA GACCATTTTC 
TTCAAAGTAC CTGAGCTCTA TGAGATCCAC AAGGAGTTCT ACGACGGTCT GTTCCCTCGC 
GTGCAGCAAT GGAGCCACCA ACAGCGTGTG GGTGACCTCT TCCAGAAGCT GGCCAGCCAG 
CTGGGTGTGT ACCGAGCCTT CGTGGATAAC TACGGAGTGG CCATGGAAAC GGCGGAGAAG 
TGCTGTCAGG CCAACAGTCA GTTTGCAGAA ATATCTGAGA ACCTGAGAGC CAGGAGCAAC 
AGAGATGCCA AGGACTCCAC CACCAAGAAC TCTTTGGAAA ATCTGCTCTA CAAGCCTGTG 
GACCGGGTGA CAAGGAGCAC ACTAGTCCTG CATGACTTGC TAAAGCACAC TCCGTCCAGC 
CATCCTGACC ATTCCCTGCT GCAGGACGCC CTCCGCATCT CACAGAACTT CCTGTCCAGC 
ATCAATGAGG AGATCACACC CCGGCGGCAG TCCATGACTG TGAAGAAAGG AGAGCACCGG 
CAGCTGCTGA AGGACAGCTT CATGGTGGAG CTGGTGGAGG GGGCCCGCAA GCTGCGCCAC 
ATCTTCCTAT TCACCGACCT GCTCCTTTGC ACCAAGCTGA AGAAGCAAAG TGGAGGCAAA 
ACCCAGCAGT ATGACTGTAA ATGGTACATT CCGCTCACGG ACCTCAGCTT CCAGATGCTG 
GATGAACTGG AGGCCGTGCC CAACATCCCT CTGGTGCCAG ATGAGGAACT GGATGCCCTG 
AAGATCAAAA TCTCCCAGAT CAAGAGCGAC ATCCAACGGG AGAAGAGAGC AAACAAGGGC 
AGCAAAGTCA TGGAGAGGCT GAGGAAGAAG CTGTCTGAGC AAGAGTCACT GCTGCTCTTA 
ATGTCCCCCA GCATGGCCTT CAGGGTACAC AGTCGTAATG GTAAGAGTTA CACATTCCTG 
ATCTCCTCCG ACTATGAGCG AGCCGAGTGG CGAGAGAGCA TCCGGGAGCA GCAGAAGAAA 
TGTTTCAAAA GTTTCTCTCT GACGTCGGTG GAGCTGCAAA TGCTGACCAA CTCGTGTGTG 
AAACTTCAGA CTGTTCATCA CATTCCACTG ACCATCAACA AAGAGGATGA TGAGTCTCCT 
GGGCTCTACG GCTTCCTGAA TGTCATCGTC CACTCAGCCA CCGGGTTTAA GCAGAGTTCA 
AATCTATACT GCACCCTGGA GGTGGACTCC TTCGGGTATT TTGTGAACAA AGCGAAGACC 
CGCGTCTACA GGGACACCAC TGAGCCAAAC TGGAACGAGG AGTTCGAGAT AGAGCTGGAA 
GGCTCCCAGA CCCTGCGGAT ACTGTGCTAT GAAAAGTGTT ACAACAAGAT GAAGATCACC 
AAGGAGGATG GCGAGAGCAC AGACAAGCTC ATGGGGAAAG GTCAGCTCCA GTTGGACCCC 
CAAACTCTAC AGGACAGAGA CTGGCAACGG ACTGTCATCG ACATGAATGG GATCGAAGTG 
AAACTTTCCG TCAAGTTCAC GAGTAGGGAG TTCAGCTTGA AGAGAATGCC TTCCCGCAAA 
CAGACTGGGG TCTTCGGGGT CAAGATTGCG GTGGTCACGA AGAGAGAGAG GTCCAAGGTA 
CCCTACATTG TACGCCAGTG TGTGGAAGAG ATCGAACGCC GGGGCATGGA GGAGGTGGGC 
ATCTACCGAG TGTCTGGAGT GGCCACAGAC ATCCAGGCAC TGAAGGCGGC CTTCGATGTC 
AATAATAAGG ATGTATCCGT GATGATGAGC GAGATGGACG TGAATGCCAT TGCCGGCACG 
CTGAAGCTTT ACTTCCGCGA GCTGCCCGAG CCCCTCTTCA CTGATGAGTT CTACCCCAAC 
TTCGCAGAGG GCATCGCTCT TTCAGACCCT GTTGCAAAAG AAAGCTGCAT GCTCAACTTG 
CTGCTGTCCC TCCCAGAGGC CAACCTAGTG ACCTTCCTTT TCCTTCTGGA CCACTTGAAA 
AGGGTGGCTG AAAAGGAGCC AGTGAACAAG ATGTCCCTGC ATAACCTCGC CACAGTCTTT 
GGCCCCACGC TGCTTCGACC TTCTGAGAAG GAAAGCAAGC TTCCTGCGAA CCCCAACCAG 
CCCATCACCA TGACTGACAG CTGGTCCCTG GAGGTCATGT CCCAGGTCCA AGTGTTGCTG 
TACTTCCTGC AGCTGGAGGC CATCCCCGCC CCCGACAGCA AGAGACAGAG CATCCTGTTC 
TCCACTGAAG TTTAA

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

Bcr ( XM_013351189.2 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_013206643.2 Microtus ochrogaster BCR, RhoGEF and GTPase activating protein (Bcr), mRNA.

Price & Availability↑

CloneID	OMi164956
Clone ID Related Accession (Same CDS sequence)	XM_013351189.2
Accession Version	XM_013351189.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3873bp) 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	breakpoint cluster region protein
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_022028.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 15, 2018 this sequence version replaced XM_013351189.1. ##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## ##RefSeq-Attributes-START## ab initio :: 8% of CDS bases ##RefSeq-Attributes-END##

ATGACGCCAA AGTCAGGACA CCAGCGAAAT CGTTTCTTCC TCAGCAATTG CGTTGTTTAC 
TGCCAACTGA GCCAGAGAAG GGTGAGAGTG GGATCAGACC GGGTAGCCGC GGTCCGGGTC 
TGTTTCAAGG ACCCAGAGCT CCGCCGCGAC GCGGCCCCTT TAAGAGGCGC GCCCAGCCCC 
ATCAATCGCT CCACGGCCAC CGCCCCCCGG TCCTCCCCTT CCTGCGGCGT TGAGTGCGGG 
CCCGGGCGGG AGTGCGGCGA GAGCTGGCCG GGCTGGTCGC AGCGCCTACC AGAAAGGCTG 
TGGGGCAGCG GGGCTGCGGG GAGGGGCGGG AACCGGAGGC GCCAGCCGCC CGCTCCCGCC 
GACGGCGCAG ACCCGGCACC CGTCGAGGAG CCCGAGGCGC GGCCGGACGG AGAGGGGTCA 
CCGGGGAAGG CACGGCCGCC CTCCGCCCGC AGGCCAGCGG CTGCTACGCC GGCGGATAGA 
GACGACCGAG GGCCCCCCAC CAGCGTGGCG GCACTCAGAT CCAACTTCGA GAAGATCCGC 
AAGGGACCTC CCCAGCCCGG CTCTGGCGAC CCTGAGAAGC CCTTCTACGT GAATGTCGAG 
TTCCACCACG AGCGTGGCCT GGTGAAGGTC AACGACAAAG AGGTATCCGA CCGGATCAGT 
TCTCTAGGCA GCCAGGCCAT GCAGATGGAG CGCAAGAAGT CCCAGCAAAG CACTGGGCAG 
GGTCTGGGGG AAGCGCCCAG ACCCCACTAC CGCGGGCGCT CCTCGGAGAG CAGCTGTGGC 
CTCGACGGTG ACTACGAGGA TGCGGAGTTA AATCCCCGCT TCCTGAAGGA CAACCTAATC 
AATGCCAACG GCGGCAACAG GCCCCCTTGG CCGCCCCTGG AGTACCAACC CTACCAGAGC 
ATCTACGTCG GAGGTATGAT GGAAGGGGAG GGCAAGGGCC CGCTCCTGCG AAGCCAGAGC 
ACTTCGGAGC AGGAGAAGCG CCTCACCTGG CCCCGCAGGT CCTACTCCCC CCGGAGTTTT 
GAGGACAGCG GAGGAGGTTA TACCCCGGAT TGCAGCTCCA ATGAGAACCT CACCTCCAGC 
GAGGAGGACT TTTCCTCTGG CCAGTCCAGC CGCGTGTCCC CAAGCCCCAC CACCTACCGT 
ATGTTCCGGG ACAAGAGCCG CTCACCCTCA CAGAATTCGC AGCAATCCTT TGACAGCAGC 
AGCCCCCCGA CGCCGCAGTG TCAGAAGCGG CACCGACAGT GTCAGGTTGT GGTGTCTGAG 
GCTACCATCG TAGGTGTCCG CAAGACCGGG CAGATCTGGC CCAATGACGG GGACAGCACC 
TTCCAGGGGG ATGCAGATTC CTCGTTCGGC ACACCACCTG GGTACGGCTG TGCCGCAGAC 
CAGGCCGAGG AGCAGCGCCG GCACCAGGAT GGGCTGCCCT ACATCGATGA TTCACCTTCC 
TCCTCTCCAC ACCTCAGCAG CAAAGGCAGA GGCAGCCGCG ACGCTCTGGC CTCAGGAGCC 
CTGGAGCCCA GCAAAGCGAG CGAGCTGGAT TTGGAAAAGG GCTTGGAGAT GAGAAAGTGG 
GTTCTCTCGG GAATCCTGGC CAGCGAGGAA ACGTACCTGA GCCACCTGGA GGCTCTGCTA 
TTGCCCATGA AGCCTCTGAA AGCCGCTGCC ACCACCTCGC AGCCGGTGCT GACCAGCCAA 
CAGATCGAGA CCATTTTCTT CAAAGTACCT GAGCTCTATG AGATCCACAA GGAGTTCTAC 
GACGGTCTGT TCCCTCGCGT GCAGCAATGG AGCCACCAAC AGCGTGTGGG TGACCTCTTC 
CAGAAGCTGG CCAGCCAGCT GGGTGTGTAC CGAGCCTTCG TGGATAACTA CGGAGTGGCC 
ATGGAAACGG CGGAGAAGTG CTGTCAGGCC AACAGTCAGT TTGCAGAAAT ATCTGAGAAC 
CTGAGAGCCA GGAGCAACAG AGATGCCAAG GACTCCACCA CCAAGAACTC TTTGGAAAAT 
CTGCTCTACA AGCCTGTGGA CCGGGTGACA AGGAGCACAC TAGTCCTGCA TGACTTGCTA 
AAGCACACTC CGTCCAGCCA TCCTGACCAT TCCCTGCTGC AGGACGCCCT CCGCATCTCA 
CAGAACTTCC TGTCCAGCAT CAATGAGGAG ATCACACCCC GGCGGCAGTC CATGACTGTG 
AAGAAAGGAG AGCACCGGCA GCTGCTGAAG GACAGCTTCA TGGTGGAGCT GGTGGAGGGG 
GCCCGCAAGC TGCGCCACAT CTTCCTATTC ACCGACCTGC TCCTTTGCAC CAAGCTGAAG 
AAGCAAAGTG GAGGCAAAAC CCAGCAGTAT GACTGTAAAT GGTACATTCC GCTCACGGAC 
CTCAGCTTCC AGATGCTGGA TGAACTGGAG GCCGTGCCCA ACATCCCTCT GGTGCCAGAT 
GAGGAACTGG ATGCCCTGAA GATCAAAATC TCCCAGATCA AGAGCGACAT CCAACGGGAG 
AAGAGAGCAA ACAAGGGCAG CAAAGTCATG GAGAGGCTGA GGAAGAAGCT GTCTGAGCAA 
GAGTCACTGC TGCTCTTAAT GTCCCCCAGC ATGGCCTTCA GGGTACACAG TCGTAATGGT 
AAGAGTTACA CATTCCTGAT CTCCTCCGAC TATGAGCGAG CCGAGTGGCG AGAGAGCATC 
CGGGAGCAGC AGAAGAAATG TTTCAAAAGT TTCTCTCTGA CGTCGGTGGA GCTGCAAATG 
CTGACCAACT CGTGTGTGAA ACTTCAGACT GTTCATCACA TTCCACTGAC CATCAACAAA 
GAGGATGATG AGTCTCCTGG GCTCTACGGC TTCCTGAATG TCATCGTCCA CTCAGCCACC 
GGGTTTAAGC AGAGTTCAAA TCTATACTGC ACCCTGGAGG TGGACTCCTT CGGGTATTTT 
GTGAACAAAG CGAAGACCCG CGTCTACAGG GACACCACTG AGCCAAACTG GAACGAGGAG 
TTCGAGATAG AGCTGGAAGG CTCCCAGACC CTGCGGATAC TGTGCTATGA AAAGTGTTAC 
AACAAGATGA AGATCACCAA GGAGGATGGC GAGAGCACAG ACAAGCTCAT GGGGAAAGGT 
CAGCTCCAGT TGGACCCCCA AACTCTACAG GACAGAGACT GGCAACGGAC TGTCATCGAC 
ATGAATGGGA TCGAAGTGAA ACTTTCCGTC AAGTTCACGA GTAGGGAGTT CAGCTTGAAG 
AGAATGCCTT CCCGCAAACA GACTGGGGTC TTCGGGGTCA AGATTGCGGT GGTCACGAAG 
AGAGAGAGGT CCAAGGTACC CTACATTGTA CGCCAGTGTG TGGAAGAGAT CGAACGCCGG 
GGCATGGAGG AGGTGGGCAT CTACCGAGTG TCTGGAGTGG CCACAGACAT CCAGGCACTG 
AAGGCGGCCT TCGATGTCAA TAATAAGGAT GTATCCGTGA TGATGAGCGA GATGGACGTG 
AATGCCATTG CCGGCACGCT GAAGCTTTAC TTCCGCGAGC TGCCCGAGCC CCTCTTCACT 
GATGAGTTCT ACCCCAACTT CGCAGAGGGC ATCGCTCTTT CAGACCCTGT TGCAAAAGAA 
AGCTGCATGC TCAACTTGCT GCTGTCCCTC CCAGAGGCCA ACCTAGTGAC CTTCCTTTTC 
CTTCTGGACC ACTTGAAAAG GGTGGCTGAA AAGGAGCCAG TGAACAAGAT GTCCCTGCAT 
AACCTCGCCA CAGTCTTTGG CCCCACGCTG CTTCGACCTT CTGAGAAGGA AAGCAAGCTT 
CCTGCGAACC CCAACCAGCC CATCACCATG ACTGACAGCT GGTCCCTGGA GGTCATGTCC 
CAGGTCCAAG TGTTGCTGTA CTTCCTGCAG CTGGAGGCCA TCCCCGCCCC CGACAGCAAG 
AGACAGAGCA TCCTGTTCTC CACTGAAGTT TAA

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

RefSeq	XP_013206643.2
CDS	1..3873
Translation	MTPKSGHQRNRFFLSNCVVYCQLSQRRVRVGSDRVAAVRVCFKDPELRRDAAPLRGAPSPINRSTATAPRSSPSCGVECGPGRECGESWPGWSQRLPERLWGSGAAGRGGNRRRQPPAPADGADPAPVEEPEARPDGEGSPGKARPPSARRPAAATPADRDDRGPPTSVAALRSNFEKIRKGPPQPGSGDPEKPFYVNVEFHHERGLVKVNDKEVSDRISSLGSQAMQMERKKSQQSTGQGLGEAPRPHYRGRSSESSCGLDGDYEDAELNPRFLKDNLINANGGNRPPWPPLEYQPYQSIYVGGMMEGEGKGPLLRSQSTSEQEKRLTWPRRSYSPRSFEDSGGGYTPDCSSNENLTSSEEDFSSGQSSRVSPSPTTYRMFRDKSRSPSQNSQQSFDSSSPPTPQCQKRHRQCQVVVSEATIVGVRKTGQIWPNDGDSTFQGDADSSFGTPPGYGCAADQAEEQRRHQDGLPYIDDSPSSSPHLSSKGRGSRDALASGALEPSKASELDLEKGLEMRKWVLSGILASEETYLSHLEALLLPMKPLKAAATTSQPVLTSQQIETIFFKVPELYEIHKEFYDGLFPRVQQWSHQQRVGDLFQKLASQLGVYRAFVDNYGVAMETAEKCCQANSQFAEISENLRARSNRDAKDSTTKNSLENLLYKPVDRVTRSTLVLHDLLKHTPSSHPDHSLLQDALRISQNFLSSINEEITPRRQSMTVKKGEHRQLLKDSFMVELVEGARKLRHIFLFTDLLLCTKLKKQSGGKTQQYDCKWYIPLTDLSFQMLDELEAVPNIPLVPDEELDALKIKISQIKSDIQREKRANKGSKVMERLRKKLSEQESLLLLMSPSMAFRVHSRNGKSYTFLISSDYERAEWRESIREQQKKCFKSFSLTSVELQMLTNSCVKLQTVHHIPLTINKEDDESPGLYGFLNVIVHSATGFKQSSNLYCTLEVDSFGYFVNKAKTRVYRDTTEPNWNEEFEIELEGSQTLRILCYEKCYNKMKITKEDGESTDKLMGKGQLQLDPQTLQDRDWQRTVIDMNGIEVKLSVKFTSREFSLKRMPSRKQTGVFGVKIAVVTKRERSKVPYIVRQCVEEIERRGMEEVGIYRVSGVATDIQALKAAFDVNNKDVSVMMSEMDVNAIAGTLKLYFRELPEPLFTDEFYPNFAEGIALSDPVAKESCMLNLLLSLPEANLVTFLFLLDHLKRVAEKEPVNKMSLHNLATVFGPTLLRPSEKESKLPANPNQPITMTDSWSLEVMSQVQVLLYFLQLEAIPAPDSKRQSILFSTEV

Target ORF information:

RefSeq Version	XM_013351189.2
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster BCR, RhoGEF and GTPase activating protein (Bcr), mRNA.

Target ORF information:

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

XM_013351189.2

ORF Insert Sequence:

ATGACGCCAA AGTCAGGACA CCAGCGAAAT CGTTTCTTCC TCAGCAATTG CGTTGTTTAC 
TGCCAACTGA GCCAGAGAAG GGTGAGAGTG GGATCAGACC GGGTAGCCGC GGTCCGGGTC 
TGTTTCAAGG ACCCAGAGCT CCGCCGCGAC GCGGCCCCTT TAAGAGGCGC GCCCAGCCCC 
ATCAATCGCT CCACGGCCAC CGCCCCCCGG TCCTCCCCTT CCTGCGGCGT TGAGTGCGGG 
CCCGGGCGGG AGTGCGGCGA GAGCTGGCCG GGCTGGTCGC AGCGCCTACC AGAAAGGCTG 
TGGGGCAGCG GGGCTGCGGG GAGGGGCGGG AACCGGAGGC GCCAGCCGCC CGCTCCCGCC 
GACGGCGCAG ACCCGGCACC CGTCGAGGAG CCCGAGGCGC GGCCGGACGG AGAGGGGTCA 
CCGGGGAAGG CACGGCCGCC CTCCGCCCGC AGGCCAGCGG CTGCTACGCC GGCGGATAGA 
GACGACCGAG GGCCCCCCAC CAGCGTGGCG GCACTCAGAT CCAACTTCGA GAAGATCCGC 
AAGGGACCTC CCCAGCCCGG CTCTGGCGAC CCTGAGAAGC CCTTCTACGT GAATGTCGAG 
TTCCACCACG AGCGTGGCCT GGTGAAGGTC AACGACAAAG AGGTATCCGA CCGGATCAGT 
TCTCTAGGCA GCCAGGCCAT GCAGATGGAG CGCAAGAAGT CCCAGCAAAG CACTGGGCAG 
GGTCTGGGGG AAGCGCCCAG ACCCCACTAC CGCGGGCGCT CCTCGGAGAG CAGCTGTGGC 
CTCGACGGTG ACTACGAGGA TGCGGAGTTA AATCCCCGCT TCCTGAAGGA CAACCTAATC 
AATGCCAACG GCGGCAACAG GCCCCCTTGG CCGCCCCTGG AGTACCAACC CTACCAGAGC 
ATCTACGTCG GAGGTATGAT GGAAGGGGAG GGCAAGGGCC CGCTCCTGCG AAGCCAGAGC 
ACTTCGGAGC AGGAGAAGCG CCTCACCTGG CCCCGCAGGT CCTACTCCCC CCGGAGTTTT 
GAGGACAGCG GAGGAGGTTA TACCCCGGAT TGCAGCTCCA ATGAGAACCT CACCTCCAGC 
GAGGAGGACT TTTCCTCTGG CCAGTCCAGC CGCGTGTCCC CAAGCCCCAC CACCTACCGT 
ATGTTCCGGG ACAAGAGCCG CTCACCCTCA CAGAATTCGC AGCAATCCTT TGACAGCAGC 
AGCCCCCCGA CGCCGCAGTG TCAGAAGCGG CACCGACAGT GTCAGGTTGT GGTGTCTGAG 
GCTACCATCG TAGGTGTCCG CAAGACCGGG CAGATCTGGC CCAATGACGG GGACAGCACC 
TTCCAGGGGG ATGCAGATTC CTCGTTCGGC ACACCACCTG GGTACGGCTG TGCCGCAGAC 
CAGGCCGAGG AGCAGCGCCG GCACCAGGAT GGGCTGCCCT ACATCGATGA TTCACCTTCC 
TCCTCTCCAC ACCTCAGCAG CAAAGGCAGA GGCAGCCGCG ACGCTCTGGC CTCAGGAGCC 
CTGGAGCCCA GCAAAGCGAG CGAGCTGGAT TTGGAAAAGG GCTTGGAGAT GAGAAAGTGG 
GTTCTCTCGG GAATCCTGGC CAGCGAGGAA ACGTACCTGA GCCACCTGGA GGCTCTGCTA 
TTGCCCATGA AGCCTCTGAA AGCCGCTGCC ACCACCTCGC AGCCGGTGCT GACCAGCCAA 
CAGATCGAGA CCATTTTCTT CAAAGTACCT GAGCTCTATG AGATCCACAA GGAGTTCTAC 
GACGGTCTGT TCCCTCGCGT GCAGCAATGG AGCCACCAAC AGCGTGTGGG TGACCTCTTC 
CAGAAGCTGG CCAGCCAGCT GGGTGTGTAC CGAGCCTTCG TGGATAACTA CGGAGTGGCC 
ATGGAAACGG CGGAGAAGTG CTGTCAGGCC AACAGTCAGT TTGCAGAAAT ATCTGAGAAC 
CTGAGAGCCA GGAGCAACAG AGATGCCAAG GACTCCACCA CCAAGAACTC TTTGGAAAAT 
CTGCTCTACA AGCCTGTGGA CCGGGTGACA AGGAGCACAC TAGTCCTGCA TGACTTGCTA 
AAGCACACTC CGTCCAGCCA TCCTGACCAT TCCCTGCTGC AGGACGCCCT CCGCATCTCA 
CAGAACTTCC TGTCCAGCAT CAATGAGGAG ATCACACCCC GGCGGCAGTC CATGACTGTG 
AAGAAAGGAG AGCACCGGCA GCTGCTGAAG GACAGCTTCA TGGTGGAGCT GGTGGAGGGG 
GCCCGCAAGC TGCGCCACAT CTTCCTATTC ACCGACCTGC TCCTTTGCAC CAAGCTGAAG 
AAGCAAAGTG GAGGCAAAAC CCAGCAGTAT GACTGTAAAT GGTACATTCC GCTCACGGAC 
CTCAGCTTCC AGATGCTGGA TGAACTGGAG GCCGTGCCCA ACATCCCTCT GGTGCCAGAT 
GAGGAACTGG ATGCCCTGAA GATCAAAATC TCCCAGATCA AGAGCGACAT CCAACGGGAG 
AAGAGAGCAA ACAAGGGCAG CAAAGTCATG GAGAGGCTGA GGAAGAAGCT GTCTGAGCAA 
GAGTCACTGC TGCTCTTAAT GTCCCCCAGC ATGGCCTTCA GGGTACACAG TCGTAATGGT 
AAGAGTTACA CATTCCTGAT CTCCTCCGAC TATGAGCGAG CCGAGTGGCG AGAGAGCATC 
CGGGAGCAGC AGAAGAAATG TTTCAAAAGT TTCTCTCTGA CGTCGGTGGA GCTGCAAATG 
CTGACCAACT CGTGTGTGAA ACTTCAGACT GTTCATCACA TTCCACTGAC CATCAACAAA 
GAGGATGATG AGTCTCCTGG GCTCTACGGC TTCCTGAATG TCATCGTCCA CTCAGCCACC 
GGGTTTAAGC AGAGTTCAAA TCTATACTGC ACCCTGGAGG TGGACTCCTT CGGGTATTTT 
GTGAACAAAG CGAAGACCCG CGTCTACAGG GACACCACTG AGCCAAACTG GAACGAGGAG 
TTCGAGATAG AGCTGGAAGG CTCCCAGACC CTGCGGATAC TGTGCTATGA AAAGTGTTAC 
AACAAGATGA AGATCACCAA GGAGGATGGC GAGAGCACAG ACAAGCTCAT GGGGAAAGGT 
CAGCTCCAGT TGGACCCCCA AACTCTACAG GACAGAGACT GGCAACGGAC TGTCATCGAC 
ATGAATGGGA TCGAAGTGAA ACTTTCCGTC AAGTTCACGA GTAGGGAGTT CAGCTTGAAG 
AGAATGCCTT CCCGCAAACA GACTGGGGTC TTCGGGGTCA AGATTGCGGT GGTCACGAAG 
AGAGAGAGGT CCAAGGTACC CTACATTGTA CGCCAGTGTG TGGAAGAGAT CGAACGCCGG 
GGCATGGAGG AGGTGGGCAT CTACCGAGTG TCTGGAGTGG CCACAGACAT CCAGGCACTG 
AAGGCGGCCT TCGATGTCAA TAATAAGGAT GTATCCGTGA TGATGAGCGA GATGGACGTG 
AATGCCATTG CCGGCACGCT GAAGCTTTAC TTCCGCGAGC TGCCCGAGCC CCTCTTCACT 
GATGAGTTCT ACCCCAACTT CGCAGAGGGC ATCGCTCTTT CAGACCCTGT TGCAAAAGAA 
AGCTGCATGC TCAACTTGCT GCTGTCCCTC CCAGAGGCCA ACCTAGTGAC CTTCCTTTTC 
CTTCTGGACC ACTTGAAAAG GGTGGCTGAA AAGGAGCCAG TGAACAAGAT GTCCCTGCAT 
AACCTCGCCA CAGTCTTTGG CCCCACGCTG CTTCGACCTT CTGAGAAGGA AAGCAAGCTT 
CCTGCGAACC CCAACCAGCC CATCACCATG ACTGACAGCT GGTCCCTGGA GGTCATGTCC 
CAGGTCCAAG TGTTGCTGTA CTTCCTGCAG CTGGAGGCCA TCCCCGCCCC CGACAGCAAG 
AGACAGAGCA TCCTGTTCTC CACTGAAGTT TAA