Vinac1 cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Vinac1
Entrez Gene ID	668894
Full Name	predicted gene 14025
General protein information	Preferred Names predicted gene 14025 Names uncharacterized protein Gm14025 uncharacterized protein LOC668894
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 2 Map Location: 2\|2 F1

mRNA and Protein(s)

mRNA	Protein	Name
XM_006500514.2	XP_006500577.1	uncharacterized protein Gm14025
XM_030251970.1	XP_030107830.1	uncharacterized protein LOC668894 isoform X1
XM_001004454.3	XP_001004454.2	uncharacterized protein Gm14025
NM_001370941.1	NP_001357870.1	uncharacterized protein LOC668894
XM_001004454.4	XP_001004454.2	uncharacterized protein LOC668894 isoform X1

Pathways from BioSystems

Homologies

	LOC100430971	XP_002799423.1
Canis lupus familiaris (dog)	LOC102154778	XP_005630660.1
Rattus norvegicus (Norway rat)	RGD1561442	XP_006235058.1
Mus musculus (house mouse)	Gm14025	XP_001004454.2
Gallus gallus (chicken)	LOC101751874	XP_004940192.1

Gene Ontology
Bibliography

Related articles in PubMed

A high-resolution anatomical atlas of the transcriptome in the mouse embryo.
Diez-Roux G, Banfi S, Sultan M, Geffers L, Anand S, Rozado D, Magen A, Canidio E, Pagani M, Peluso I, Lin-Marq N, Koch M, Bilio M, Cantiello I, Verde R, De Masi C, Bianchi SA, Cicchini J, Perroud E, Mehmeti S, Dagand E, Schrinner S, N?rnberger A, Schmidt K, Metz K, Zwingmann C, Brieske N, Springer C, Hernandez AM, Herzog S, Grabbe F, Sieverding C, Fischer B, Schrader K, Brockmeyer M, Dettmer S, Helbig C, Alunni V, Battaini MA, Mura C, Henrichsen CN, Garcia-Lopez R, Echevarria D, Puelles E, Garcia-Calero E, Kruse S, Uhr M, Kauck C, Feng G, Milyaev N, Ong CK, Kumar L, Lam M, Semple CA, Gyenesei A, Mundlos S, Radelof U, Lehrach H, Sarmientos P, Reymond A, Davidson DR, Doll? P, Antonarakis SE, Yaspo ML, Martinez S, Baldock RA, Eichele G, Ballabio A
PLoS biology9(1)e1000582(2011 Jan)

Antisense transcription in the mammalian transcriptome.
Katayama S, Tomaru Y, Kasukawa T, Waki K, Nakanishi M, Nakamura M, Nishida H, Yap CC, Suzuki M, Kawai J, Suzuki H, Carninci P, Hayashizaki Y, Wells C, Frith M, Ravasi T, Pang KC, Hallinan J, Mattick J, Hume DA, Lipovich L, Batalov S, Engstr?m PG, Mizuno Y, Faghihi MA, Sandelin A, Chalk AM, Mottagui-Tabar S, Liang Z, Lenhard B, Wahlestedt C, , ,
Science (New York, N.Y.)309(5740)1564-6(2005 Sep)

The transcriptional landscape of the mammalian genome.
Carninci P, Kasukawa T, Katayama S, Gough J, Frith MC, Maeda N, Oyama R, Ravasi T, Lenhard B, Wells C, Kodzius R, Shimokawa K, Bajic VB, Brenner SE, Batalov S, Forrest AR, Zavolan M, Davis MJ, Wilming LG, Aidinis V, Allen JE, Ambesi-Impiombato A, Apweiler R, Aturaliya RN, Bailey TL, Bansal M, Baxter L, Beisel KW, Bersano T, Bono H, Chalk AM, Chiu KP, Choudhary V, Christoffels A, Clutterbuck DR, Crowe ML, Dalla E, Dalrymple BP, de Bono B, Della Gatta G, di Bernardo D, Down T, Engstrom P, Fagiolini M, Faulkner G, Fletcher CF, Fukushima T, Furuno M, Futaki S, Gariboldi M, Georgii-Hemming P, Gingeras TR, Gojobori T, Green RE, Gustincich S, Harbers M, Hayashi Y, Hensch TK, Hirokawa N, Hill D, Huminiecki L, Iacono M, Ikeo K, Iwama A, Ishikawa T, Jakt M, Kanapin A, Katoh M, Kawasawa Y, Kelso J, Kitamura H, Kitano H, Kollias G, Krishnan SP, Kruger A, Kummerfeld SK, Kurochkin IV, Lareau LF, Lazarevic D, Lipovich L, Liu J, Liuni S, McWilliam S, Madan Babu M, Madera M, Marchionni L, Matsuda H, Matsuzawa S, Miki H, Mignone F, Miyake S, Morris K, Mottagui-Tabar S, Mulder N, Nakano N, Nakauchi H, Ng P, Nilsson R, Nishiguchi S, Nishikawa S, Nori F, Ohara O, Okazaki Y, Orlando V, Pang KC, Pavan WJ, Pavesi G, Pesole G, Petrovsky N, Piazza S, Reed J, Reid JF, Ring BZ, Ringwald M, Rost B, Ruan Y, Salzberg SL, Sandelin A, Schneider C, Sch?nbach C, Sekiguchi K, Semple CA, Seno S, Sessa L, Sheng Y, Shibata Y, Shimada H, Shimada K, Silva D, Sinclair B, Sperling S, Stupka E, Sugiura K, Sultana R, Takenaka Y, Taki K, Tammoja K, Tan SL, Tang S, Taylor MS, Tegner J, Teichmann SA, Ueda HR, van Nimwegen E, Verardo R, Wei CL, Yagi K, Yamanishi H, Zabarovsky E, Zhu S, Zimmer A, Hide W, Bult C, Grimmond SM, Teasdale RD, Liu ET, Brusic V, Quackenbush J, Wahlestedt C, Mattick JS, Hume DA, Kai C, Sasaki D, Tomaru Y, Fukuda S, Kanamori-Katayama M, Suzuki M, Aoki J, Arakawa T, Iida J, Imamura K, Itoh M, Kato T, Kawaji H, Kawagashira N, Kawashima T, Kojima M, Kondo S, Konno H, Nakano K, Ninomiya N, Nishio T, Okada M, Plessy C, Shibata K, Shiraki T, Suzuki S, Tagami M, Waki K, Watahiki A, Okamura-Oho Y, Suzuki H, Kawai J, Hayashizaki Y, ,
Science (New York, N.Y.)309(5740)1559-63(2005 Sep)

Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs.
Okazaki Y, Furuno M, Kasukawa T, Adachi J, Bono H, Kondo S, Nikaido I, Osato N, Saito R, Suzuki H, Yamanaka I, Kiyosawa H, Yagi K, Tomaru Y, Hasegawa Y, Nogami A, Sch?nbach C, Gojobori T, Baldarelli R, Hill DP, Bult C, Hume DA, Quackenbush J, Schriml LM, Kanapin A, Matsuda H, Batalov S, Beisel KW, Blake JA, Bradt D, Brusic V, Chothia C, Corbani LE, Cousins S, Dalla E, Dragani TA, Fletcher CF, Forrest A, Frazer KS, Gaasterland T, Gariboldi M, Gissi C, Godzik A, Gough J, Grimmond S, Gustincich S, Hirokawa N, Jackson IJ, Jarvis ED, Kanai A, Kawaji H, Kawasawa Y, Kedzierski RM, King BL, Konagaya A, Kurochkin IV, Lee Y, Lenhard B, Lyons PA, Maglott DR, Maltais L, Marchionni L, McKenzie L, Miki H, Nagashima T, Numata K, Okido T, Pavan WJ, Pertea G, Pesole G, Petrovsky N, Pillai R, Pontius JU, Qi D, Ramachandran S, Ravasi T, Reed JC, Reed DJ, Reid J, Ring BZ, Ringwald M, Sandelin A, Schneider C, Semple CA, Setou M, Shimada K, Sultana R, Takenaka Y, Taylor MS, Teasdale RD, Tomita M, Verardo R, Wagner L, Wahlestedt C, Wang Y, Watanabe Y, Wells C, Wilming LG, Wynshaw-Boris A, Yanagisawa M, Yang I, Yang L, Yuan Z, Zavolan M, Zhu Y, Zimmer A, Carninci P, Hayatsu N, Hirozane-Kishikawa T, Konno H, Nakamura M, Sakazume N, Sato K, Shiraki T, Waki K, Kawai J, Aizawa K, Arakawa T, Fukuda S, Hara A, Hashizume W, Imotani K, Ishii Y, Itoh M, Kagawa I, Miyazaki A, Sakai K, Sasaki D, Shibata K, Shinagawa A, Yasunishi A, Yoshino M, Waterston R, Lander ES, Rogers J, Birney E, Hayashizaki Y, ,
Nature420(6915)563-73(2002 Dec)

Functional annotation of a full-length mouse cDNA collection.
Kawai J, Shinagawa A, Shibata K, Yoshino M, Itoh M, Ishii Y, Arakawa T, Hara A, Fukunishi Y, Konno H, Adachi J, Fukuda S, Aizawa K, Izawa M, Nishi K, Kiyosawa H, Kondo S, Yamanaka I, Saito T, Okazaki Y, Gojobori T, Bono H, Kasukawa T, Saito R, Kadota K, Matsuda H, Ashburner M, Batalov S, Casavant T, Fleischmann W, Gaasterland T, Gissi C, King B, Kochiwa H, Kuehl P, Lewis S, Matsuo Y, Nikaido I, Pesole G, Quackenbush J, Schriml LM, Staubli F, Suzuki R, Tomita M, Wagner L, Washio T, Sakai K, Okido T, Furuno M, Aono H, Baldarelli R, Barsh G, Blake J, Boffelli D, Bojunga N, Carninci P, de Bonaldo MF, Brownstein MJ, Bult C, Fletcher C, Fujita M, Gariboldi M, Gustincich S, Hill D, Hofmann M, Hume DA, Kamiya M, Lee NH, Lyons P, Marchionni L, Mashima J, Mazzarelli J, Mombaerts P, Nordone P, Ring B, Ringwald M, Rodriguez I, Sakamoto N, Sasaki H, Sato K, Sch?nbach C, Seya T, Shibata Y, Storch KF, Suzuki H, Toyo-oka K, Wang KH, Weitz C, Whittaker C, Wilming L, Wynshaw-Boris A, Yoshida K, Hasegawa Y, Kawaji H, Kohtsuki S, Hayashizaki Y,
Nature409(6821)685-90(2001 Feb)

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

The following Vinac1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Vinac1 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)
OMu31099	XM_030251970.1 Latest version!	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OMu31099	XM_001004454.4 Latest version!	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OMu31099	NM_001370941.1 Latest version!	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
OMu31099	XM_006500514.2 Latest version!	Mus musculus predicted gene 14025 (Gm14025), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
View Old Accession Versions >>
OMu31099	XM_001004454.3	Mus musculus predicted gene 14025 (Gm14025), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$727.30 $1039.00
Hide Old Accession Versions >>

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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)

Vinac1 ( XM_030251970.1 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_030107830.1 Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMu31099
Clone ID Related Accession (Same CDS sequence)	XM_006500514.2 , XM_030251970.1 , XM_001004454.3 , NM_001370941.1 , XM_001004454.4
Accession Version	XM_030251970.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4242bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Mus musculus(house mouse)
Product	uncharacterized protein LOC668894 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000068.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

RefSeq	XP_030107830.1
CDS	5083..9324
Translation	MKMDSSLGDDFGPTIQNRAMEQIITPMTVQLCHLLISVERKEVQNKALASLQKVAEQLANASEEFVHVASRLAGDSEEKWLREEMKPVAESLILSGRNILRVAEKLHLQPESQRHWEELVATAQQVLVDTKKVLLLDDAAAVRKTRTAANWCLTCVEALEEAEDTTSLRTSLDDLAAALFRLGGLTARWAWDQHLGRARHRLGCCVPALLAAAHGHLRHPRDPQLVASRRRVFALTRQSLEELLDALQPGVGVVGTGVLSQNGALARGLCKLRKVLEDPGPGHLLLDAPLAAVVWHCLRLAACSAPQERMHLVSRCRQLMQLRPGVHSLPRSSPGTDCEALRAATDALFRAVRAGLLRQILDTFTDTQSPLETLVQAALATSTIRFRCDSEALAETVQILLDAFHNQAKQMIRVAHLVWVCCPQQQTGRDLEAAVAGLQRLVIKVKELFSQSPQTLGLDWSPATLQALLEAWARESEHLLSCFDVVLNIPEFLSVSIQEMTKHLDLSTIALRSGASREFSRSVAFLRGRATHIVQVMSRYVGQDPDPIFRNGMRVVVQQLAQSSVTLGAATEGSRAEDSAQDTDVFLTMAKHLIHAAQQVREGLDGSNHPDILSPLRVQVQRFDMTKGWSYFILPSPQHPTASEIKYQRVPGLWKSGPNTSLLPVEQLSYTVVPGTCIHGWRFPLPAVSKGVTTMENRNHQVVTLPCTNTPEQNSTVDTVQETQAGEETLGPERMTGLQEVSTLAPSIIDLARKEVHSANTGSEELLRVSFQQSQGTREDRWGLVARAGDWYPLCQQLFCHNLETELPGSMAAFVELQQDLALMVQVAAKSGPVNVDKKNPDLMGHPRLLLELQDRSEKTEIHAKQLLDQVLSSDGLQEPTLREENIDNGCLLWAVAVQDLMQCMERFSRRQGLFLLPLRQAVKNQQGLQKGLGQAAEISQRLQEAAKLSSVLCGDAQVKGEISFLCREVHVLTDALLEVAHILVSSPKPCPSLSTRFELLCLELSLRAKALTDYLTSINAAYEHMFQDVISKSSQNRIEGMLSTIQAVQGIIAGGQESETVQKDLLVSLESILTLTKEVVRKVPVLQEVQSLHTLDWLQWEWAAKVHHAVTQLQALEGSHMEAWRLLVQYLKPRGEQAKPLEEDLVQPPPHCNEGTAGTTSGVSVDSQGAVPKDTPESSVGTCADEPATTRTTTADRSMHQSGSLSLPPAQMDQPAPEDSSADSENRITQITQEMATEVLLMARSLRKSGQVLTKDQLIASARKVSASGKDFTRLIHIIAKNCIDQRCSQELLCMVEQIQTMSSQLSIISSVKASLTRSKSSEELLVDNAQRLLQAVSKTVSAVEAACLRGLRWPSSDPEELEVAAFCTQWKRKLLQHRLQEASNEDCDELGLRKRSTRKLPALAALVQEAL

Target ORF information:

RefSeq Version	XM_030251970.1
Organism	Mus musculus(house mouse)
Definition	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030251970.1

ORF Insert Sequence:

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

Vinac1 ( XM_001004454.4 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_001004454.2 Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X1, mRNA.

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CloneID	OMu31099
Clone ID Related Accession (Same CDS sequence)	XM_006500514.2 , XM_030251970.1 , XM_001004454.3 , NM_001370941.1 , XM_001004454.4
Accession Version	XM_001004454.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4242bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-07
Organism	Mus musculus(house mouse)
Product	uncharacterized protein LOC668894 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000068.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 8, 2019 this sequence version replaced XM_001004454.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

RefSeq	XP_001004454.2
CDS	5489..9730
Translation	MKMDSSLGDDFGPTIQNRAMEQIITPMTVQLCHLLISVERKEVQNKALASLQKVAEQLANASEEFVHVASRLAGDSEEKWLREEMKPVAESLILSGRNILRVAEKLHLQPESQRHWEELVATAQQVLVDTKKVLLLDDAAAVRKTRTAANWCLTCVEALEEAEDTTSLRTSLDDLAAALFRLGGLTARWAWDQHLGRARHRLGCCVPALLAAAHGHLRHPRDPQLVASRRRVFALTRQSLEELLDALQPGVGVVGTGVLSQNGALARGLCKLRKVLEDPGPGHLLLDAPLAAVVWHCLRLAACSAPQERMHLVSRCRQLMQLRPGVHSLPRSSPGTDCEALRAATDALFRAVRAGLLRQILDTFTDTQSPLETLVQAALATSTIRFRCDSEALAETVQILLDAFHNQAKQMIRVAHLVWVCCPQQQTGRDLEAAVAGLQRLVIKVKELFSQSPQTLGLDWSPATLQALLEAWARESEHLLSCFDVVLNIPEFLSVSIQEMTKHLDLSTIALRSGASREFSRSVAFLRGRATHIVQVMSRYVGQDPDPIFRNGMRVVVQQLAQSSVTLGAATEGSRAEDSAQDTDVFLTMAKHLIHAAQQVREGLDGSNHPDILSPLRVQVQRFDMTKGWSYFILPSPQHPTASEIKYQRVPGLWKSGPNTSLLPVEQLSYTVVPGTCIHGWRFPLPAVSKGVTTMENRNHQVVTLPCTNTPEQNSTVDTVQETQAGEETLGPERMTGLQEVSTLAPSIIDLARKEVHSANTGSEELLRVSFQQSQGTREDRWGLVARAGDWYPLCQQLFCHNLETELPGSMAAFVELQQDLALMVQVAAKSGPVNVDKKNPDLMGHPRLLLELQDRSEKTEIHAKQLLDQVLSSDGLQEPTLREENIDNGCLLWAVAVQDLMQCMERFSRRQGLFLLPLRQAVKNQQGLQKGLGQAAEISQRLQEAAKLSSVLCGDAQVKGEISFLCREVHVLTDALLEVAHILVSSPKPCPSLSTRFELLCLELSLRAKALTDYLTSINAAYEHMFQDVISKSSQNRIEGMLSTIQAVQGIIAGGQESETVQKDLLVSLESILTLTKEVVRKVPVLQEVQSLHTLDWLQWEWAAKVHHAVTQLQALEGSHMEAWRLLVQYLKPRGEQAKPLEEDLVQPPPHCNEGTAGTTSGVSVDSQGAVPKDTPESSVGTCADEPATTRTTTADRSMHQSGSLSLPPAQMDQPAPEDSSADSENRITQITQEMATEVLLMARSLRKSGQVLTKDQLIASARKVSASGKDFTRLIHIIAKNCIDQRCSQELLCMVEQIQTMSSQLSIISSVKASLTRSKSSEELLVDNAQRLLQAVSKTVSAVEAACLRGLRWPSSDPEELEVAAFCTQWKRKLLQHRLQEASNEDCDELGLRKRSTRKLPALAALVQEAL

Target ORF information:

RefSeq Version	XM_001004454.4
Organism	Mus musculus(house mouse)
Definition	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), transcript variant X1, mRNA.

Target ORF information:

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

XM_001004454.4

ORF Insert Sequence:

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

Vinac1 ( NM_001370941.1 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_001357870.1 Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), mRNA.

Price & Availability↑

CloneID	OMu31099
Clone ID Related Accession (Same CDS sequence)	XM_006500514.2 , XM_030251970.1 , XM_001004454.3 , NM_001370941.1 , XM_001004454.4
Accession Version	NM_001370941.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4242bp) 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	2019-10-24
Organism	Mus musculus(house mouse)
Product	uncharacterized protein LOC668894
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL833780.6. On Jun 15, 2019 this sequence version replaced XM_006500514.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMN00849374, SAMN00849376 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END##

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

RefSeq	NP_001357870.1
CDS	3838..8079
Translation	MKMDSSLGDDFGPTIQNRAMEQIITPMTVQLCHLLISVERKEVQNKALASLQKVAEQLANASEEFVHVASRLAGDSEEKWLREEMKPVAESLILSGRNILRVAEKLHLQPESQRHWEELVATAQQVLVDTKKVLLLDDAAAVRKTRTAANWCLTCVEALEEAEDTTSLRTSLDDLAAALFRLGGLTARWAWDQHLGRARHRLGCCVPALLAAAHGHLRHPRDPQLVASRRRVFALTRQSLEELLDALQPGVGVVGTGVLSQNGALARGLCKLRKVLEDPGPGHLLLDAPLAAVVWHCLRLAACSAPQERMHLVSRCRQLMQLRPGVHSLPRSSPGTDCEALRAATDALFRAVRAGLLRQILDTFTDTQSPLETLVQAALATSTIRFRCDSEALAETVQILLDAFHNQAKQMIRVAHLVWVCCPQQQTGRDLEAAVAGLQRLVIKVKELFSQSPQTLGLDWSPATLQALLEAWARESEHLLSCFDVVLNIPEFLSVSIQEMTKHLDLSTIALRSGASREFSRSVAFLRGRATHIVQVMSRYVGQDPDPIFRNGMRVVVQQLAQSSVTLGAATEGSRAEDSAQDTDVFLTMAKHLIHAAQQVREGLDGSNHPDILSPLRVQVQRFDMTKGWSYFILPSPQHPTASEIKYQRVPGLWKSGPNTSLLPVEQLSYTVVPGTCIHGWRFPLPAVSKGVTTMENRNHQVVTLPCTNTPEQNSTVDTVQETQAGEETLGPERMTGLQEVSTLAPSIIDLARKEVHSANTGSEELLRVSFQQSQGTREDRWGLVARAGDWYPLCQQLFCHNLETELPGSMAAFVELQQDLALMVQVAAKSGPVNVDKKNPDLMGHPRLLLELQDRSEKTEIHAKQLLDQVLSSDGLQEPTLREENIDNGCLLWAVAVQDLMQCMERFSRRQGLFLLPLRQAVKNQQGLQKGLGQAAEISQRLQEAAKLSSVLCGDAQVKGEISFLCREVHVLTDALLEVAHILVSSPKPCPSLSTRFELLCLELSLRAKALTDYLTSINAAYEHMFQDVISKSSQNRIEGMLSTIQAVQGIIAGGQESETVQKDLLVSLESILTLTKEVVRKVPVLQEVQSLHTLDWLQWEWAAKVHHAVTQLQALEGSHMEAWRLLVQYLKPRGEQAKPLEEDLVQPPPHCNEGTAGTTSGVSVDSQGAVPKDTPESSVGTCADEPATTRTTTADRSMHQSGSLSLPPAQMDQPAPEDSSADSENRITQITQEMATEVLLMARSLRKSGQVLTKDQLIASARKVSASGKDFTRLIHIIAKNCIDQRCSQELLCMVEQIQTMSSQLSIISSVKASLTRSKSSEELLVDNAQRLLQAVSKTVSAVEAACLRGLRWPSSDPEELEVAAFCTQWKRKLLQHRLQEASNEDCDELGLRKRSTRKLPALAALVQEAL

Target ORF information:

RefSeq Version	NM_001370941.1
Organism	Mus musculus(house mouse)
Definition	Mus musculus vinculin/alpha-catenin family member 1 (Vinac1), mRNA.

Target ORF information:

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

NM_001370941.1

ORF Insert Sequence:

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

Vinac1 ( XM_006500514.2 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006500577.1 Mus musculus predicted gene 14025 (Gm14025), transcript variant X2, mRNA.

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CloneID	OMu31099
Clone ID Related Accession (Same CDS sequence)	XM_006500514.2 , XM_030251970.1 , XM_001004454.3 , NM_001370941.1 , XM_001004454.4
Accession Version	XM_006500514.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4242bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-21
Organism	Mus musculus(house mouse)
Product	uncharacterized protein Gm14025
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000068.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2015 this sequence version replaced XM_006500514.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

RefSeq	XP_006500577.1
CDS	3834..8075
Translation	MKMDSSLGDDFGPTIQNRAMEQIITPMTVQLCHLLISVERKEVQNKALASLQKVAEQLANASEEFVHVASRLAGDSEEKWLREEMKPVAESLILSGRNILRVAEKLHLQPESQRHWEELVATAQQVLVDTKKVLLLDDAAAVRKTRTAANWCLTCVEALEEAEDTTSLRTSLDDLAAALFRLGGLTARWAWDQHLGRARHRLGCCVPALLAAAHGHLRHPRDPQLVASRRRVFALTRQSLEELLDALQPGVGVVGTGVLSQNGALARGLCKLRKVLEDPGPGHLLLDAPLAAVVWHCLRLAACSAPQERMHLVSRCRQLMQLRPGVHSLPRSSPGTDCEALRAATDALFRAVRAGLLRQILDTFTDTQSPLETLVQAALATSTIRFRCDSEALAETVQILLDAFHNQAKQMIRVAHLVWVCCPQQQTGRDLEAAVAGLQRLVIKVKELFSQSPQTLGLDWSPATLQALLEAWARESEHLLSCFDVVLNIPEFLSVSIQEMTKHLDLSTIALRSGASREFSRSVAFLRGRATHIVQVMSRYVGQDPDPIFRNGMRVVVQQLAQSSVTLGAATEGSRAEDSAQDTDVFLTMAKHLIHAAQQVREGLDGSNHPDILSPLRVQVQRFDMTKGWSYFILPSPQHPTASEIKYQRVPGLWKSGPNTSLLPVEQLSYTVVPGTCIHGWRFPLPAVSKGVTTMENRNHQVVTLPCTNTPEQNSTVDTVQETQAGEETLGPERMTGLQEVSTLAPSIIDLARKEVHSANTGSEELLRVSFQQSQGTREDRWGLVARAGDWYPLCQQLFCHNLETELPGSMAAFVELQQDLALMVQVAAKSGPVNVDKKNPDLMGHPRLLLELQDRSEKTEIHAKQLLDQVLSSDGLQEPTLREENIDNGCLLWAVAVQDLMQCMERFSRRQGLFLLPLRQAVKNQQGLQKGLGQAAEISQRLQEAAKLSSVLCGDAQVKGEISFLCREVHVLTDALLEVAHILVSSPKPCPSLSTRFELLCLELSLRAKALTDYLTSINAAYEHMFQDVISKSSQNRIEGMLSTIQAVQGIIAGGQESETVQKDLLVSLESILTLTKEVVRKVPVLQEVQSLHTLDWLQWEWAAKVHHAVTQLQALEGSHMEAWRLLVQYLKPRGEQAKPLEEDLVQPPPHCNEGTAGTTSGVSVDSQGAVPKDTPESSVGTCADEPATTRTTTADRSMHQSGSLSLPPAQMDQPAPEDSSADSENRITQITQEMATEVLLMARSLRKSGQVLTKDQLIASARKVSASGKDFTRLIHIIAKNCIDQRCSQELLCMVEQIQTMSSQLSIISSVKASLTRSKSSEELLVDNAQRLLQAVSKTVSAVEAACLRGLRWPSSDPEELEVAAFCTQWKRKLLQHRLQEASNEDCDELGLRKRSTRKLPALAALVQEAL

Target ORF information:

RefSeq Version	XM_006500514.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus predicted gene 14025 (Gm14025), transcript variant X2, mRNA.

Target ORF information:

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

XM_006500514.2

ORF Insert Sequence:

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

Vinac1 ( XM_001004454.3 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_001004454.2 Mus musculus predicted gene 14025 (Gm14025), transcript variant X1, mRNA.

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CloneID	OMu31099
Clone ID Related Accession (Same CDS sequence)	XM_006500514.2 , XM_030251970.1 , XM_001004454.3 , NM_001370941.1 , XM_001004454.4
Accession Version	XM_001004454.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4242bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-06-21
Organism	Mus musculus(house mouse)
Product	uncharacterized protein Gm14025
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000068.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2015 this sequence version replaced XM_001004454.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus musculus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

RefSeq	XP_001004454.2
CDS	4171..8412
Translation	MKMDSSLGDDFGPTIQNRAMEQIITPMTVQLCHLLISVERKEVQNKALASLQKVAEQLANASEEFVHVASRLAGDSEEKWLREEMKPVAESLILSGRNILRVAEKLHLQPESQRHWEELVATAQQVLVDTKKVLLLDDAAAVRKTRTAANWCLTCVEALEEAEDTTSLRTSLDDLAAALFRLGGLTARWAWDQHLGRARHRLGCCVPALLAAAHGHLRHPRDPQLVASRRRVFALTRQSLEELLDALQPGVGVVGTGVLSQNGALARGLCKLRKVLEDPGPGHLLLDAPLAAVVWHCLRLAACSAPQERMHLVSRCRQLMQLRPGVHSLPRSSPGTDCEALRAATDALFRAVRAGLLRQILDTFTDTQSPLETLVQAALATSTIRFRCDSEALAETVQILLDAFHNQAKQMIRVAHLVWVCCPQQQTGRDLEAAVAGLQRLVIKVKELFSQSPQTLGLDWSPATLQALLEAWARESEHLLSCFDVVLNIPEFLSVSIQEMTKHLDLSTIALRSGASREFSRSVAFLRGRATHIVQVMSRYVGQDPDPIFRNGMRVVVQQLAQSSVTLGAATEGSRAEDSAQDTDVFLTMAKHLIHAAQQVREGLDGSNHPDILSPLRVQVQRFDMTKGWSYFILPSPQHPTASEIKYQRVPGLWKSGPNTSLLPVEQLSYTVVPGTCIHGWRFPLPAVSKGVTTMENRNHQVVTLPCTNTPEQNSTVDTVQETQAGEETLGPERMTGLQEVSTLAPSIIDLARKEVHSANTGSEELLRVSFQQSQGTREDRWGLVARAGDWYPLCQQLFCHNLETELPGSMAAFVELQQDLALMVQVAAKSGPVNVDKKNPDLMGHPRLLLELQDRSEKTEIHAKQLLDQVLSSDGLQEPTLREENIDNGCLLWAVAVQDLMQCMERFSRRQGLFLLPLRQAVKNQQGLQKGLGQAAEISQRLQEAAKLSSVLCGDAQVKGEISFLCREVHVLTDALLEVAHILVSSPKPCPSLSTRFELLCLELSLRAKALTDYLTSINAAYEHMFQDVISKSSQNRIEGMLSTIQAVQGIIAGGQESETVQKDLLVSLESILTLTKEVVRKVPVLQEVQSLHTLDWLQWEWAAKVHHAVTQLQALEGSHMEAWRLLVQYLKPRGEQAKPLEEDLVQPPPHCNEGTAGTTSGVSVDSQGAVPKDTPESSVGTCADEPATTRTTTADRSMHQSGSLSLPPAQMDQPAPEDSSADSENRITQITQEMATEVLLMARSLRKSGQVLTKDQLIASARKVSASGKDFTRLIHIIAKNCIDQRCSQELLCMVEQIQTMSSQLSIISSVKASLTRSKSSEELLVDNAQRLLQAVSKTVSAVEAACLRGLRWPSSDPEELEVAAFCTQWKRKLLQHRLQEASNEDCDELGLRKRSTRKLPALAALVQEAL

Target ORF information:

RefSeq Version	XM_001004454.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus predicted gene 14025 (Gm14025), transcript variant X1, mRNA.

Target ORF information:

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

XM_001004454.3

ORF Insert Sequence:

ATGAAGATGG ACTCTTCCCT CGGGGACGAC TTTGGTCCTA CAATACAGAA CAGGGCCATG 
GAACAAATCA TTACACCGAT GACTGTTCAG CTTTGCCATC TGCTCATCTC GGTGGAGAGG 
AAAGAAGTAC AGAATAAAGC GCTTGCCTCC CTGCAGAAGG TGGCGGAGCA ACTGGCCAAT 
GCTAGTGAGG AGTTTGTGCA CGTTGCCAGC AGGCTGGCAG GAGACTCTGA GGAGAAGTGG 
CTTAGGGAGG AAATGAAGCC AGTGGCTGAG TCTCTGATCC TCTCTGGGAG GAACATCCTG 
CGGGTAGCAG AGAAGCTTCA CTTGCAGCCC GAGTCTCAGC GCCACTGGGA GGAGCTAGTG 
GCCACCGCTC AGCAGGTCCT GGTGGACACT AAGAAGGTCT TGCTCCTTGA TGATGCTGCT 
GCGGTGAGGA AGACCAGGAC AGCGGCCAAT TGGTGTCTGA CATGCGTGGA GGCGCTGGAG 
GAGGCGGAGG ACACCACCTC GCTGCGCACC TCGCTTGATG ACCTGGCGGC TGCGCTTTTC 
AGACTGGGCG GCCTGACCGC GCGCTGGGCC TGGGACCAGC ATCTGGGTCG AGCTCGCCAC 
CGCCTAGGGT GCTGTGTCCC CGCACTGCTC GCGGCTGCCC ACGGTCACCT CCGGCATCCC 
CGCGATCCGC AGCTGGTGGC CTCACGGCGC CGGGTCTTCG CTCTGACCAG GCAGAGCCTC 
GAAGAGCTCC TGGACGCGCT GCAGCCCGGC GTTGGCGTCG TAGGGACCGG AGTGCTCTCT 
CAGAATGGAG CATTGGCGCG CGGTCTGTGC AAGCTGCGAA AGGTCCTGGA GGACCCTGGG 
CCTGGTCACC TGCTACTGGA TGCACCACTG GCCGCCGTGG TGTGGCACTG CCTGCGTCTA 
GCCGCCTGCT CCGCGCCACA GGAGAGGATG CACCTGGTGT CCCGCTGCCG GCAGTTGATG 
CAGCTGCGAC CCGGGGTGCA CAGTCTCCCC CGGTCCAGTC CAGGGACCGA CTGCGAAGCT 
CTGCGGGCCG CGACTGATGC GCTCTTTCGA GCAGTTCGCG CTGGGTTACT GCGCCAGATT 
CTGGACACGT TCACAGACAC CCAAAGTCCT CTAGAGACAC TGGTCCAGGC CGCCTTGGCG 
ACGTCCACTA TCAGGTTCCG CTGTGATAGC GAAGCCTTGG CAGAGACTGT CCAGATACTT 
CTCGATGCTT TCCACAACCA GGCTAAGCAG ATGATCCGGG TGGCCCATTT GGTTTGGGTC 
TGCTGCCCAC AGCAGCAAAC TGGCAGAGAC TTGGAGGCTG CCGTGGCAGG TCTTCAGAGG 
CTTGTGATCA AAGTGAAAGA ACTCTTTTCA CAAAGTCCCC AGACGCTTGG CCTGGATTGG 
AGCCCTGCCA CCCTCCAGGC CCTGCTTGAG GCTTGGGCCA GGGAATCCGA ACACCTCCTG 
TCATGCTTTG ATGTCGTTCT CAACATTCCA GAATTCCTGA GTGTGTCCAT CCAGGAAATG 
ACTAAACACT TGGACTTGTC CACAATTGCT CTGAGGAGCG GAGCGTCCAG AGAGTTTTCC 
AGATCTGTGG CATTCTTACG CGGAAGAGCC ACCCACATAG TACAGGTGAT GAGCAGATAT 
GTGGGTCAAG ACCCTGATCC TATTTTCCGG AACGGGATGA GAGTCGTGGT TCAACAGCTG 
GCACAGTCTT CCGTGACCCT AGGTGCAGCC ACTGAAGGCA GCAGAGCTGA GGACAGTGCT 
CAGGACACAG ATGTCTTTTT AACCATGGCA AAGCACCTCA TCCATGCAGC CCAGCAAGTC 
CGCGAGGGGC TGGATGGGTC CAACCATCCA GACATCCTCA GCCCACTTCG AGTCCAGGTC 
CAAAGGTTTG ATATGACCAA GGGGTGGTCT TATTTTATTC TCCCCAGCCC CCAGCATCCC 
ACAGCTTCTG AAATAAAGTA CCAGCGGGTA CCTGGGTTAT GGAAAAGTGG CCCAAACACC 
TCTTTGCTAC CAGTAGAACA ACTTTCCTAC ACAGTGGTCC CTGGCACCTG CATACATGGG 
TGGAGATTTC CACTCCCTGC TGTCAGCAAA GGTGTCACTA CTATGGAGAA CAGGAACCAT 
CAAGTAGTGA CCTTACCATG CACCAACACG CCAGAGCAGA ATTCTACTGT GGACACAGTC 
CAAGAGACCC AGGCTGGGGA AGAAACCCTG GGGCCAGAGA GGATGACAGG ACTACAAGAA 
GTCTCAACAC TGGCACCCTC GATTATTGAT CTAGCCAGGA AGGAAGTCCA TAGCGCAAAC 
ACTGGAAGCG AGGAGCTTCT GAGGGTATCT TTTCAGCAAT CCCAGGGGAC CAGGGAAGAC 
AGGTGGGGTT TGGTAGCCAG GGCTGGGGAC TGGTACCCTC TGTGTCAACA ACTATTTTGC 
CATAACCTAG AGACTGAGTT ACCTGGGAGC ATGGCAGCAT TTGTGGAGCT CCAGCAGGAC 
TTGGCCTTGA TGGTTCAAGT AGCAGCTAAA AGTGGTCCTG TGAATGTGGA CAAAAAGAAC 
CCTGACTTAA TGGGACACCC AAGACTGCTT TTAGAGCTAC AAGACAGATC AGAAAAAACA 
GAGATCCACG CTAAACAGCT GTTGGACCAA GTTCTGTCCT CTGATGGTCT CCAAGAGCCC 
ACCCTGAGGG AAGAGAACAT TGACAATGGG TGCCTTCTGT GGGCAGTAGC TGTCCAAGAC 
CTGATGCAGT GCATGGAGAG ATTCAGCAGG AGACAGGGCC TGTTCCTACT GCCCCTGCGA 
CAGGCAGTGA AGAACCAGCA GGGGTTACAG AAAGGGTTAG GTCAGGCAGC AGAGATTTCT 
CAAAGGTTAC AAGAGGCTGC CAAGCTGTCT AGTGTTCTGT GTGGGGATGC ACAGGTGAAG 
GGTGAGATCT CCTTTCTGTG CAGGGAAGTT CATGTACTCA CAGATGCCTT GCTAGAGGTG 
GCACACATCT TGGTCTCCTC CCCCAAGCCA TGTCCCAGCC TCTCTACACG TTTTGAACTT 
CTCTGCTTGG AACTCAGCCT TCGGGCCAAG GCCCTGACTG ACTACCTGAC CAGCATCAAC 
GCAGCCTACG AGCATATGTT CCAAGATGTC ATCAGCAAGA GCTCCCAGAA CAGGATAGAA 
GGAATGTTGT CTACTATCCA AGCTGTGCAG GGAATCATAG CGGGAGGTCA AGAGTCTGAA 
ACCGTCCAGA AAGATCTTCT TGTGTCGCTA GAGAGCATTC TCACGCTCAC TAAGGAAGTG 
GTCAGGAAGG TCCCTGTGCT CCAGGAGGTA CAGAGTTTGC ATACGCTGGA CTGGCTTCAG 
TGGGAATGGG CAGCTAAAGT CCACCATGCA GTGACTCAGC TCCAGGCTTT GGAGGGTAGT 
CATATGGAGG CCTGGAGACT CCTGGTCCAA TACTTGAAGC CCAGAGGGGA GCAAGCCAAG 
CCCCTAGAAG AGGATCTTGT CCAGCCCCCA CCCCACTGTA ACGAGGGTAC AGCAGGAACC 
ACTTCAGGGG TCAGTGTGGA TTCTCAGGGT GCTGTTCCCA AAGACACCCC AGAAAGCTCA 
GTGGGGACCT GTGCTGATGA GCCAGCTACC ACCAGGACCA CCACAGCAGA CAGGAGCATG 
CACCAGAGTG GCAGCCTATC TCTGCCTCCT GCTCAGATGG ACCAGCCTGC TCCAGAGGAC 
AGCAGTGCAG ACAGTGAGAA CAGAATCACC CAGATCACAC AAGAGATGGC CACTGAGGTG 
CTCCTGATGG CTCGGAGCTT GAGGAAGAGT GGGCAAGTCC TGACCAAAGA TCAGCTCATT 
GCCTCTGCCA GGAAAGTCTC AGCTTCTGGA AAAGACTTCA CCAGACTCAT TCACATCATT 
GCTAAGAACT GCATAGATCA GAGATGCTCT CAGGAGCTTC TGTGTATGGT GGAACAGATT 
CAAACCATGA GCAGCCAGCT CAGCATCATC TCCAGTGTAA AGGCCTCCCT GACGAGAAGC 
AAGTCCTCAG AGGAGCTCCT TGTTGACAAT GCACAGAGGC TCCTCCAGGC TGTCTCCAAG 
ACCGTGAGCG CTGTGGAAGC TGCATGTCTT CGGGGATTGA GATGGCCTTC CTCAGATCCA 
GAGGAGCTGG AGGTCGCTGC CTTCTGCACC CAGTGGAAGA GGAAACTACT GCAACACCGA 
CTTCAAGAAG CCTCAAACGA AGACTGTGAT GAGCTGGGTT TACGAAAAAG GAGCACAAGG 
AAACTCCCAG CCTTGGCGGC CCTGGTCCAA GAAGCATTGT AA

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

PubMed

A high-resolution anatomical atlas of the transcriptome in the mouse embryo.
PLoS biology9(1)e1000582(2011 Jan)
Diez-Roux G,Banfi S,Sultan M,Geffers L,Anand S,Rozado D,Magen A,Canidio E,Pagani M,Peluso I,Lin-Marq N,Koch M,Bilio M,Cantiello I,Verde R,De Masi C,Bianchi SA,Cicchini J,Perroud E,Mehmeti S,Dagand E,Schrinner S,N?rnberger A,Schmidt K,Metz K,Zwingmann C,Brieske N,Springer C,Hernandez AM,Herzog S,Grabbe F,Sieverding C,Fischer B,Schrader K,Brockmeyer M,Dettmer S,Helbig C,Alunni V,Battaini MA,Mura C,Henrichsen CN,Garcia-Lopez R,Echevarria D,Puelles E,Garcia-Calero E,Kruse S,Uhr M,Kauck C,Feng G,Milyaev N,Ong CK,Kumar L,Lam M,Semple CA,Gyenesei A,Mundlos S,Radelof U,Lehrach H,Sarmientos P,Reymond A,Davidson DR,Doll? P,Antonarakis SE,Yaspo ML,Martinez S,Baldock RA,Eichele G,Ballabio A

Antisense transcription in the mammalian transcriptome.
Science (New York, N.Y.)309(5740)1564-6(2005 Sep)
Katayama S,Tomaru Y,Kasukawa T,Waki K,Nakanishi M,Nakamura M,Nishida H,Yap CC,Suzuki M,Kawai J,Suzuki H,Carninci P,Hayashizaki Y,Wells C,Frith M,Ravasi T,Pang KC,Hallinan J,Mattick J,Hume DA,Lipovich L,Batalov S,Engstr?m PG,Mizuno Y,Faghihi MA,Sandelin A,Chalk AM,Mottagui-Tabar S,Liang Z,Lenhard B,Wahlestedt C,,,

The transcriptional landscape of the mammalian genome.
Science (New York, N.Y.)309(5740)1559-63(2005 Sep)
Carninci P,Kasukawa T,Katayama S,Gough J,Frith MC,Maeda N,Oyama R,Ravasi T,Lenhard B,Wells C,Kodzius R,Shimokawa K,Bajic VB,Brenner SE,Batalov S,Forrest AR,Zavolan M,Davis MJ,Wilming LG,Aidinis V,Allen JE,Ambesi-Impiombato A,Apweiler R,Aturaliya RN,Bailey TL,Bansal M,Baxter L,Beisel KW,Bersano T,Bono H,Chalk AM,Chiu KP,Choudhary V,Christoffels A,Clutterbuck DR,Crowe ML,Dalla E,Dalrymple BP,de Bono B,Della Gatta G,di Bernardo D,Down T,Engstrom P,Fagiolini M,Faulkner G,Fletcher CF,Fukushima T,Furuno M,Futaki S,Gariboldi M,Georgii-Hemming P,Gingeras TR,Gojobori T,Green RE,Gustincich S,Harbers M,Hayashi Y,Hensch TK,Hirokawa N,Hill D,Huminiecki L,Iacono M,Ikeo K,Iwama A,Ishikawa T,Jakt M,Kanapin A,Katoh M,Kawasawa Y,Kelso J,Kitamura H,Kitano H,Kollias G,Krishnan SP,Kruger A,Kummerfeld SK,Kurochkin IV,Lareau LF,Lazarevic D,Lipovich L,Liu J,Liuni S,McWilliam S,Madan Babu M,Madera M,Marchionni L,Matsuda H,Matsuzawa S,Miki H,Mignone F,Miyake S,Morris K,Mottagui-Tabar S,Mulder N,Nakano N,Nakauchi H,Ng P,Nilsson R,Nishiguchi S,Nishikawa S,Nori F,Ohara O,Okazaki Y,Orlando V,Pang KC,Pavan WJ,Pavesi G,Pesole G,Petrovsky N,Piazza S,Reed J,Reid JF,Ring BZ,Ringwald M,Rost B,Ruan Y,Salzberg SL,Sandelin A,Schneider C,Sch?nbach C,Sekiguchi K,Semple CA,Seno S,Sessa L,Sheng Y,Shibata Y,Shimada H,Shimada K,Silva D,Sinclair B,Sperling S,Stupka E,Sugiura K,Sultana R,Takenaka Y,Taki K,Tammoja K,Tan SL,Tang S,Taylor MS,Tegner J,Teichmann SA,Ueda HR,van Nimwegen E,Verardo R,Wei CL,Yagi K,Yamanishi H,Zabarovsky E,Zhu S,Zimmer A,Hide W,Bult C,Grimmond SM,Teasdale RD,Liu ET,Brusic V,Quackenbush J,Wahlestedt C,Mattick JS,Hume DA,Kai C,Sasaki D,Tomaru Y,Fukuda S,Kanamori-Katayama M,Suzuki M,Aoki J,Arakawa T,Iida J,Imamura K,Itoh M,Kato T,Kawaji H,Kawagashira N,Kawashima T,Kojima M,Kondo S,Konno H,Nakano K,Ninomiya N,Nishio T,Okada M,Plessy C,Shibata K,Shiraki T,Suzuki S,Tagami M,Waki K,Watahiki A,Okamura-Oho Y,Suzuki H,Kawai J,Hayashizaki Y,,

Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs.
Nature420(6915)563-73(2002 Dec)
Okazaki Y,Furuno M,Kasukawa T,Adachi J,Bono H,Kondo S,Nikaido I,Osato N,Saito R,Suzuki H,Yamanaka I,Kiyosawa H,Yagi K,Tomaru Y,Hasegawa Y,Nogami A,Sch?nbach C,Gojobori T,Baldarelli R,Hill DP,Bult C,Hume DA,Quackenbush J,Schriml LM,Kanapin A,Matsuda H,Batalov S,Beisel KW,Blake JA,Bradt D,Brusic V,Chothia C,Corbani LE,Cousins S,Dalla E,Dragani TA,Fletcher CF,Forrest A,Frazer KS,Gaasterland T,Gariboldi M,Gissi C,Godzik A,Gough J,Grimmond S,Gustincich S,Hirokawa N,Jackson IJ,Jarvis ED,Kanai A,Kawaji H,Kawasawa Y,Kedzierski RM,King BL,Konagaya A,Kurochkin IV,Lee Y,Lenhard B,Lyons PA,Maglott DR,Maltais L,Marchionni L,McKenzie L,Miki H,Nagashima T,Numata K,Okido T,Pavan WJ,Pertea G,Pesole G,Petrovsky N,Pillai R,Pontius JU,Qi D,Ramachandran S,Ravasi T,Reed JC,Reed DJ,Reid J,Ring BZ,Ringwald M,Sandelin A,Schneider C,Semple CA,Setou M,Shimada K,Sultana R,Takenaka Y,Taylor MS,Teasdale RD,Tomita M,Verardo R,Wagner L,Wahlestedt C,Wang Y,Watanabe Y,Wells C,Wilming LG,Wynshaw-Boris A,Yanagisawa M,Yang I,Yang L,Yuan Z,Zavolan M,Zhu Y,Zimmer A,Carninci P,Hayatsu N,Hirozane-Kishikawa T,Konno H,Nakamura M,Sakazume N,Sato K,Shiraki T,Waki K,Kawai J,Aizawa K,Arakawa T,Fukuda S,Hara A,Hashizume W,Imotani K,Ishii Y,Itoh M,Kagawa I,Miyazaki A,Sakai K,Sasaki D,Shibata K,Shinagawa A,Yasunishi A,Yoshino M,Waterston R,Lander ES,Rogers J,Birney E,Hayashizaki Y,,

Functional annotation of a full-length mouse cDNA collection.
Nature409(6821)685-90(2001 Feb)
Kawai J,Shinagawa A,Shibata K,Yoshino M,Itoh M,Ishii Y,Arakawa T,Hara A,Fukunishi Y,Konno H,Adachi J,Fukuda S,Aizawa K,Izawa M,Nishi K,Kiyosawa H,Kondo S,Yamanaka I,Saito T,Okazaki Y,Gojobori T,Bono H,Kasukawa T,Saito R,Kadota K,Matsuda H,Ashburner M,Batalov S,Casavant T,Fleischmann W,Gaasterland T,Gissi C,King B,Kochiwa H,Kuehl P,Lewis S,Matsuo Y,Nikaido I,Pesole G,Quackenbush J,Schriml LM,Staubli F,Suzuki R,Tomita M,Wagner L,Washio T,Sakai K,Okido T,Furuno M,Aono H,Baldarelli R,Barsh G,Blake J,Boffelli D,Bojunga N,Carninci P,de Bonaldo MF,Brownstein MJ,Bult C,Fletcher C,Fujita M,Gariboldi M,Gustincich S,Hill D,Hofmann M,Hume DA,Kamiya M,Lee NH,Lyons P,Marchionni L,Mashima J,Mazzarelli J,Mombaerts P,Nordone P,Ring B,Ringwald M,Rodriguez I,Sakamoto N,Sasaki H,Sato K,Sch?nbach C,Seya T,Shibata Y,Storch KF,Suzuki H,Toyo-oka K,Wang KH,Weitz C,Whittaker C,Wilming L,Wynshaw-Boris A,Yoshida K,Hasegawa Y,Kawaji H,Kohtsuki S,Hayashizaki Y,

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Vinac1 cDNA ORF clone, Mus musculus(house mouse)

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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