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PPFIA2 cDNA ORF clone, Homo sapiens(Human)

Gene Symbol PPFIA2
Entrez Gene ID 8499
Full Name PTPRF interacting protein alpha 2
General protein information
Preferred Names

PTPRF interacting protein alpha 2

Names

liprin-alpha-2
protein tyrosine phosphatase, receptor type, f polypeptide (PTPRF), interacting protein (liprin), alpha 2

Gene Type protein-coding
Organism Homo sapiens(Human)
Genome

12

12q21.31

Summary The protein encoded by this gene is a member of the LAR protein-tyrosine phosphatase-interacting protein (liprin) family. Liprins interact with members of LAR family of transmembrane protein tyrosine phosphatases, which are known to be important for axon guidance and mammary gland development. It has been proposed that liprins are multivalent proteins that form complex structures and act as scaffolds for the recruitment and anchoring of LAR family of tyrosine phosphatases. This protein has been shown to bind the calcium/calmodulin-dependent serine protein kinase (MAGUK family) protein (also known as CASK) and proposed to regulate higher-order brain functions in mammals. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Sep 2013].
Disorder MIM:

603143


mRNA and Protein(s)

mRNA Protein Name
XM_017020083.1 XP_016875572.1 liprin-alpha-2 isoform X5
XM_017020100.1 XP_016875589.1 liprin-alpha-2 isoform X21
XM_017020116.1 XP_016875605.1 liprin-alpha-2 isoform X38
XM_017020117.1 XP_016875606.1 liprin-alpha-2 isoform X39
XM_017020079.1 XP_016875568.1 liprin-alpha-2 isoform X1
XM_017020082.1 XP_016875571.1 liprin-alpha-2 isoform X4
NM_001282536.1 NP_001269465.1 liprin-alpha-2 isoform j
NM_001220477.2 NP_001207406.1 liprin-alpha-2 isoform f
NM_001220473.2 NP_001207402.1 liprin-alpha-2 isoform b
XM_017020095.1 XP_016875584.1 liprin-alpha-2 isoform X16
XM_017020096.1 XP_016875585.1 liprin-alpha-2 isoform X17
XM_017020103.1 XP_016875592.1 liprin-alpha-2 isoform X24
XM_017020106.1 XP_016875595.1 liprin-alpha-2 isoform X27
XM_017020110.1 XP_016875599.1 liprin-alpha-2 isoform X31
XM_006719670.3 XP_006719733.1 liprin-alpha-2 isoform X33
XM_017020113.1 XP_016875602.1 liprin-alpha-2 isoform X35
XM_017020114.1 XP_016875603.1 liprin-alpha-2 isoform X36
XM_017020118.1 XP_016875607.1 liprin-alpha-2 isoform X40
XM_017020084.1 XP_016875573.1 liprin-alpha-2 isoform X6
XM_017020088.1 XP_016875577.1 liprin-alpha-2 isoform X10
XM_017020093.1 XP_016875582.1 liprin-alpha-2 isoform X14
NM_001220474.2 NP_001207403.1 liprin-alpha-2 isoform c
NM_001220478.2 NP_001207407.1 liprin-alpha-2 isoform g
XM_017020087.1 XP_016875576.1 liprin-alpha-2 isoform X9
XM_017020097.1 XP_016875586.1 liprin-alpha-2 isoform X18
XM_017020099.1 XP_016875588.1 liprin-alpha-2 isoform X20
XM_017020102.1 XP_016875591.1 liprin-alpha-2 isoform X23
XM_017020112.1 XP_016875601.1 liprin-alpha-2 isoform X34
XM_017020115.1 XP_016875604.1 liprin-alpha-2 isoform X37
XM_017020120.1 XP_016875609.1 liprin-alpha-2 isoform X42
XM_017020080.1 XP_016875569.1 liprin-alpha-2 isoform X2
XM_017020086.1 XP_016875575.1 liprin-alpha-2 isoform X8
NM_001220476.2 NP_001207405.1 liprin-alpha-2 isoform e
NM_001220475.2 NP_001207404.1 liprin-alpha-2 isoform d
XM_017020091.1 XP_016875580.1 liprin-alpha-2 isoform X12
XM_017020094.1 XP_016875583.1 liprin-alpha-2 isoform X15
XM_017020107.1 XP_016875596.1 liprin-alpha-2 isoform X28
XM_017020119.1 XP_016875608.1 liprin-alpha-2 isoform X41
XM_011538906.2 XP_011537208.1 liprin-alpha-2 isoform X43
NM_001220479.2 NP_001207408.1 liprin-alpha-2 isoform h
NM_003625.4 NP_003616.2 liprin-alpha-2 isoform a
NM_001220480.2 NP_001207409.1 liprin-alpha-2 isoform i
XM_017020081.1 XP_016875570.1 liprin-alpha-2 isoform X3
XM_017020085.1 XP_016875574.1 liprin-alpha-2 isoform X7
XM_017020089.1 XP_016875578.1 liprin-alpha-2 isoform X10
XM_017020090.1 XP_016875579.1 liprin-alpha-2 isoform X11
XM_017020092.1 XP_016875581.1 liprin-alpha-2 isoform X13
XM_017020098.1 XP_016875587.1 liprin-alpha-2 isoform X19
XM_017020101.1 XP_016875590.1 liprin-alpha-2 isoform X22
XM_017020104.1 XP_016875593.1 liprin-alpha-2 isoform X25
XM_017020105.1 XP_016875594.1 liprin-alpha-2 isoform X26
XM_017020108.1 XP_016875597.1 liprin-alpha-2 isoform X29
XM_017020109.1 XP_016875598.1 liprin-alpha-2 isoform X30
XM_017020111.1 XP_016875600.1 liprin-alpha-2 isoform X32
XM_011538907.2 XP_011537209.1 liprin-alpha-2 isoform X44



Homo sapiens (human) PPFIA2 NP_003616.2
Canis lupus familiaris (dog) PPFIA2 XP_003432068.2
Xenopus tropicalis (tropical clawed frog) ppfia2 XP_002931667.2
Rattus norvegicus (Norway rat) Ppfia2 NP_001102215.1
Danio rerio (zebrafish) ppfia2 NP_001038576.1
Caenorhabditis elegans (roundworm) syd-2 NP_509768.1
Mus musculus (house mouse) Ppfia2 NP_001192270.1
Gallus gallus (chicken) PPFIA2 XP_416120.4
Macaca mulatta (rhesus monkey) PPFIA2 XP_001088353.2
Pan troglodytes (chimpanzee) PPFIA2 XP_509243.2
Drosophila melanogaster (fruit fly) Liprin-alpha NP_001260155.1
Anopheles gambiae (African malaria mosquito) AgaP_AGAP001469 XP_321656.5


Related articles in PubMed

SNP array screening of cryptic genomic imbalances in 450 Japanese subjects with intellectual disability and multiple congenital anomalies previously negative for large rearrangements.
Uehara DT, Hayashi S, Okamoto N, Mizuno S, Chinen Y, Kosaki R, Kosho T, Kurosawa K, Matsumoto H, Mitsubuchi H, Numabe H, Saitoh S, Makita Y, Hata A, Imoto I, Inazawa J
Journal of human genetics61(4)335-43(2016 Apr)

Common genetic variants associated with cognitive performance identified using the proxy-phenotype method.
Rietveld CA, Esko T, Davies G, Pers TH, Turley P, Benyamin B, Chabris CF, Emilsson V, Johnson AD, Lee JJ, de Leeuw C, Marioni RE, Medland SE, Miller MB, Rostapshova O, van der Lee SJ, Vinkhuyzen AA, Amin N, Conley D, Derringer J, van Duijn CM, Fehrmann R, Franke L, Glaeser EL, Hansell NK, Hayward C, Iacono WG, Ibrahim-Verbaas C, Jaddoe V, Karjalainen J, Laibson D, Lichtenstein P, Liewald DC, Magnusson PK, Martin NG, McGue M, McMahon G, Pedersen NL, Pinker S, Porteous DJ, Posthuma D, Rivadeneira F, Smith BH, Starr JM, Tiemeier H, Timpson NJ, Trzaskowski M, Uitterlinden AG, Verhulst FC, Ward ME, Wright MJ, Davey Smith G, Deary IJ, Johannesson M, Plomin R, Visscher PM, Benjamin DJ, Cesarini D, Koellinger PD
Proceedings of the National Academy of Sciences of the United States of America111(38)13790-4(2014 Sep)

Electronic medical records and genomics (eMERGE) network exploration in cataract: several new potential susceptibility loci.
Ritchie MD, Verma SS, Hall MA, Goodloe RJ, Berg RL, Carrell DS, Carlson CS, Chen L, Crosslin DR, Denny JC, Jarvik G, Li R, Linneman JG, Pathak J, Peissig P, Rasmussen LV, Ramirez AH, Wang X, Wilke RA, Wolf WA, Torstenson ES, Turner SD, McCarty CA
Molecular vision201281-95(2014)

Association mapping of the high-grade myopia MYP3 locus reveals novel candidates UHRF1BP1L, PTPRR, and PPFIA2.
Hawthorne F, Feng S, Metlapally R, Li YJ, Tran-Viet KN, Guggenheim JA, Malecaze F, Calvas P, Rosenberg T, Mackey DA, Venturini C, Hysi PG, Hammond CJ, Young TL
Investigative ophthalmology & visual science54(3)2076-86(2013 Mar)

Genome-wide association study of multiplex schizophrenia pedigrees.
Levinson DF, Shi J, Wang K, Oh S, Riley B, Pulver AE, Wildenauer DB, Laurent C, Mowry BJ, Gejman PV, Owen MJ, Kendler KS, Nestadt G, Schwab SG, Mallet J, Nertney D, Sanders AR, Williams NM, Wormley B, Lasseter VK, Albus M, Godard-Bauché S, Alexander M, Duan J, O'Donovan MC, Walsh D, O'Neill A, Papadimitriou GN, Dikeos D, Maier W, Lerer B, Campion D, Cohen D, Jay M, Fanous A, Eichhammer P, Silverman JM, Norton N, Zhang N, Hakonarson H, Gao C, Citri A, Hansen M, Ripke S, , Dudbridge F, Holmans PA
The American journal of psychiatry169(9)963-73(2012 Sep)

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

mong the 22 cases, we identified PPFIA2 as a novel candidate gene forIntellect Analysis of copy-neutral loss of heterozygosity (CNLOH) detected one case in which the CNLOH regions seem to be significant. The SNP array detected a modest fraction of small causative CNVs, which is explained by the fact that the majority of causative CNVs have larger sizes, and those had been mostly identified in the two previous screenings.
Title: SNP array screening of cryptic genomic imbalances in 450 Japanese subjects with intellectual disability and multiple congenital anomalies previously negative for large rearrangements.

3 genes identified by association study and supported by ocular expression and/or replication, UHRF1BP1L, PTPRR, and PPFIA2, are novel candidates for myopic development within the MYP3 locus that should be further studied.
Title: Association mapping of the high-grade myopia MYP3 locus reveals novel candidates UHRF1BP1L, PTPRR, and PPFIA2.

Liprins can mediate assembly of target proteins into large protein complexes capable of regulating numerous cellular activities.
Title: Liprin-mediated large signaling complex organization revealed by the liprin-α/CASK and liprin-α/liprin-β complex structures.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

Liprin-alpha2 expression is downregulated by androgens in prostate cancer cells. It might play a role in androgen-responsive human prostate cancer & the loss of this gene expression might be associated with the androgen-independence.
Title: Liprin-alpha2 gene, protein tyrosine phosphatase LAR interacting protein related gene, is downregulated by androgens in the human prostate cancer cell line LNCaP.

The following PPFIA2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PPFIA2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu10114 NM_001220475.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK
$459.50-$643.30
$919.00
OHu09801 NM_001220480.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 10, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 7-9 $223.30
$319.00
OHu09825 NM_001220479.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 9, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $391.30
$559.00
OHu84227 XM_017020081.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84228 XM_017020083.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X5, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84229 XM_017020084.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X6, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84230 XM_017020085.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X7, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84231 XM_017020087.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X9, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84232 XM_017020088.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X10, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84232 XM_017020089.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X11, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84233 XM_017020090.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X12, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84234 XM_017020091.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X13, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84235 XM_017020092.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X14, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84236 XM_017020093.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X15, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84237 XM_017020094.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X16, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84238 XM_017020095.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X17, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84239 XM_017020096.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X18, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84240 XM_017020097.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X19, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84241 XM_017020098.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X20, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84242 XM_017020099.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X21, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84243 XM_017020100.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X22, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84244 XM_017020101.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X23, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84245 XM_017020102.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X24, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84246 XM_017020103.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X25, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84247 XM_017020104.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X26, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84248 XM_017020105.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X27, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84249 XM_017020106.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X28, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84250 XM_017020107.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X29, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84251 XM_017020108.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X30, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84252 XM_017020109.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X31, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84253 XM_017020110.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X32, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84254 XM_017020111.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X33, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84255 XM_017020112.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X35, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84256 XM_017020113.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X36, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84257 XM_017020114.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X37, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84258 XM_017020115.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X38, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84259 XM_017020116.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X39, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $643.30
$919.00
OHu84260 XM_017020117.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X40, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu84261 XM_017020118.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X41, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu84262 XM_017020119.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X42, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu84263 XM_017020120.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X43, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu09683 NM_001220474.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu09685 NM_001282536.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 8, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $559.30
$799.00
OHu09691 NM_003625.4
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu09728 NM_001220473.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu09745 NM_001220477.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 6, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $559.30
$799.00
OHu09839 NM_001220478.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 7, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $559.30
$799.00
OHu10031 NM_001220476.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 5, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu09691 XM_017020080.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu09728 XM_017020086.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X8, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu10031 XM_017020082.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu46931 XM_017020079.1
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu46938 XM_006719670.3
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X34, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu61859 XM_011538906.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X44, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu61860 XM_011538907.2
Latest version!
Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X45, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00

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

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


CloneID OHu10114
Clone ID Related Accession (Same CDS sequence) NM_001220475.2
Accession Version NM_001220475.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3711bp)
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 COA
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-04-23
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform d
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB210009.1, BC104912.1, BM661844.1, CB051855.1, EL947964.1 and AW304872.1. On Sep 12, 2013 this sequence version replaced NM_001220475.1. Transcript Variant: This variant (4) differs in the 5' UTR and lacks an in-frame exon in the coding region, compared to variant 1. It encodes isoform d, which is shorter than isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC104912.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGTGTCC GGTTTTTCTA CAGACCCTGG CTTATGGAGA TATGAATCAT
GAGTGGATTG GAAATGAATG GCTTCCCAGC TTGGGGTTAC CTCAGTACAG AAGTTACTTT
ATGGAATGCT TGGTAGATGC AAGAATGTTA GATCACCTAA CAAAAAAAGA TCTCCGTGTC
CATTTAAAAA TGGTGGATAG TTTCCATCGA ACAAGTTTAC AATATGGAAT TATGTGCTTA
AAGAGGTTGA ATTATGACAG AAAAGAACTA GAAAGAAGAC GGGAAGCAAG CCAACATGAA
ATAAAAGACG TGTTGGTGTG GAGCAATGAC CGAGTTATTC GCTGGATACA AGCAATTGGA
CTTCGAGAAT ATGCAAATAA TATACTTGAG AGCGGTGTGC ATGGCTCACT TATAGCCCTG
GATGAAAACT TTGACTACAG CAGCTTAGCT TTATTATTAC AGATTCCAAC ACAGAACACC
CAGGCAAGGC AGATTCTTGA AAGAGAATAC AATAACCTCT TGGCCCTGGG AACTGAAAGG
CGACTGGATG AAAGTGATGA CAAGAACTTC AGACGTGGAT CAACCTGGAG AAGGCAGTTT
CCTCCTCGTG AAGTACATGG AATCAGCATG ATGCCTGGGT CCTCAGAAAC ATTACCAGCT
GGATTTAGGT TAACCACAAC CTCTGGGCAG TCAAGAAAAA TGACAACAGA TGTTGCTTCA
TCAAGACTGC AGAGGTTAGA CAACTCCACT GTTCGCACAT ACTCATGTTG A

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

RefSeq NP_001207404.1
CDS111..3821
Misc Feature(1)75..77
Misc Feature(2)816..818
Misc Feature(3)819..821
Misc Feature(4)825..827
Misc Feature(5)1194..1718
Misc Feature(6)1461..1478
Misc Feature(7)2169..2171
Misc Feature(8)2175..2177
Misc Feature(9)2559..2561
Misc Feature(10)2568..2570
Misc Feature(11)2793..3005
Misc Feature(12)2793..2993
Misc Feature(13)3102..3299
Misc Feature(14)3126..3293
Misc Feature(15)3357..3572
Misc Feature(16)3360..3575
Exon (1)1..108
Exon (2)109..359
Exon (3)360..413
Exon (4)414..515
Exon (5)516..680
Exon (6)681..755
Exon (7)756..872
Exon (8)873..1094
Exon (9)1095..1241
Exon (10)1242..1376
Exon (11)1377..1460
Exon (12)1461..1592
Exon (13)1593..1655
Exon (14)1656..1747
Exon (15)1748..1883
Exon (16)1884..2104
Exon (17)2105..2342
Exon (18)2343..2372
Exon (19)2373..2503
Exon (20)2504..2658
Exon (21)2659..2752
Exon (22)2753..2834
Exon (23)2835..3035
Exon (24)3036..3065
Exon (25)3066..3259
Exon (26)3260..3357
Exon (27)3358..3533
Exon (28)3534..3602
Exon (29)3603..3762
Exon (30)3763..3854
Exon (31)3855..5540
Translation

Target ORF information:

RefSeq Version NM_001220475.2
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 4, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001220475.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGTGTCC GGTTTTTCTA CAGACCCTGG CTTATGGAGA TATGAATCAT
GAGTGGATTG GAAATGAATG GCTTCCCAGC TTGGGGTTAC CTCAGTACAG AAGTTACTTT
ATGGAATGCT TGGTAGATGC AAGAATGTTA GATCACCTAA CAAAAAAAGA TCTCCGTGTC
CATTTAAAAA TGGTGGATAG TTTCCATCGA ACAAGTTTAC AATATGGAAT TATGTGCTTA
AAGAGGTTGA ATTATGACAG AAAAGAACTA GAAAGAAGAC GGGAAGCAAG CCAACATGAA
ATAAAAGACG TGTTGGTGTG GAGCAATGAC CGAGTTATTC GCTGGATACA AGCAATTGGA
CTTCGAGAAT ATGCAAATAA TATACTTGAG AGCGGTGTGC ATGGCTCACT TATAGCCCTG
GATGAAAACT TTGACTACAG CAGCTTAGCT TTATTATTAC AGATTCCAAC ACAGAACACC
CAGGCAAGGC AGATTCTTGA AAGAGAATAC AATAACCTCT TGGCCCTGGG AACTGAAAGG
CGACTGGATG AAAGTGATGA CAAGAACTTC AGACGTGGAT CAACCTGGAG AAGGCAGTTT
CCTCCTCGTG AAGTACATGG AATCAGCATG ATGCCTGGGT CCTCAGAAAC ATTACCAGCT
GGATTTAGGT TAACCACAAC CTCTGGGCAG TCAAGAAAAA TGACAACAGA TGTTGCTTCA
TCAAGACTGC AGAGGTTAGA CAACTCCACT GTTCGCACAT ACTCATGTTG A

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

CloneID OHu09801
Clone ID Related Accession (Same CDS sequence) NM_001220480.2
Accession Version NM_001220480.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 1332bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-04-23
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform i
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC322478.1, AK123372.1, BM689808.1, CB051855.1, EL947964.1 and AW304872.1. On Sep 12, 2013 this sequence version replaced NM_001220480.1. Transcript Variant: This variant (10) has multiple differences in the 5' UTR and coding region but maintains the reading frame, compared to variant 1. This results in a shorter protein (isoform i), compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK123372.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
ATGACTCACA CTCTCCCTTC TTCCTACCAC AATGATGCTC GAAGTAGTTT ATCTGTCTCT 
CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT GCCAACAGCA GCCAAGACTC TCTTCACAAA
GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA ATAGGACGTT TGTTTGGTAA AAAAGAAAAA
GCTCGACTTG GGCAGCTCCG AGGCTTTATG GAGACTGAAG CTGCAGCTCA GGAGTCCCTG
GGGTTAGGCA AACTCGGAAC TCAAGCTGAG AAGGATCGAA GACTAAAGAA AAAGCATGAA
CTTCTTGAAG AAGCTCGGAG AAAGGGATTA CCTTTTGCCC AGTGGGATGG GCCAACTGTG
GTCGCATGGC TAGAGCTTTG GTTGGGAATG CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC
AACGTGAAGA GTGGTGCCAT CATGTCTGCT TTATCTGACA CTGAGATCCA GAGAGAAATT
GGAATCAGCA ATCCACTGCA TCGCTTAAAA CTTCGATTAG CAATCCAGGA GATGGTTTCC
CTAACAAGTC CTTCAGCTCC TCCAACATCT CGAACTTGTC CGGTTTTTCT ACAGACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

RefSeq NP_001207409.1
CDS1142..2473
Misc Feature(1)1001..1003
Misc Feature(2)1475..1687
Misc Feature(3)1475..1675
Misc Feature(4)1754..1951
Misc Feature(5)1778..1945
Misc Feature(6)2009..2224
Misc Feature(7)2012..2227
Exon (1)1..125
Exon (2)126..209
Exon (3)210..341
Exon (4)342..405
Exon (5)406..468
Exon (6)469..560
Exon (7)561..696
Exon (8)697..917
Exon (9)918..1024
Exon (10)1025..1054
Exon (11)1055..1185
Exon (12)1186..1340
Exon (13)1341..1434
Exon (14)1435..1516
Exon (15)1517..1717
Exon (16)1718..1911
Exon (17)1912..2009
Exon (18)2010..2185
Exon (19)2186..2254
Exon (20)2255..2414
Exon (21)2415..2506
Exon (22)2507..4192
Translation

Target ORF information:

RefSeq Version NM_001220480.2
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 10, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001220480.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
ATGACTCACA CTCTCCCTTC TTCCTACCAC AATGATGCTC GAAGTAGTTT ATCTGTCTCT 
CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT GCCAACAGCA GCCAAGACTC TCTTCACAAA
GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA ATAGGACGTT TGTTTGGTAA AAAAGAAAAA
GCTCGACTTG GGCAGCTCCG AGGCTTTATG GAGACTGAAG CTGCAGCTCA GGAGTCCCTG
GGGTTAGGCA AACTCGGAAC TCAAGCTGAG AAGGATCGAA GACTAAAGAA AAAGCATGAA
CTTCTTGAAG AAGCTCGGAG AAAGGGATTA CCTTTTGCCC AGTGGGATGG GCCAACTGTG
GTCGCATGGC TAGAGCTTTG GTTGGGAATG CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC
AACGTGAAGA GTGGTGCCAT CATGTCTGCT TTATCTGACA CTGAGATCCA GAGAGAAATT
GGAATCAGCA ATCCACTGCA TCGCTTAAAA CTTCGATTAG CAATCCAGGA GATGGTTTCC
CTAACAAGTC CTTCAGCTCC TCCAACATCT CGAACTTGTC CGGTTTTTCT ACAGACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

CloneID OHu09825
Clone ID Related Accession (Same CDS sequence) NM_001220479.2
Accession Version NM_001220479.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 2352bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2017-04-23
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform h
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC322478.1, AK296380.1, BM661844.1, CB051855.1, EL947964.1 and AW304872.1. On Sep 12, 2013 this sequence version replaced NM_001220479.1. Transcript Variant: This variant (9) has multiple differences in the 5' UTR and coding region, compared to variant 1. It encodes isoform h, which is shorter and has a distinct C-terminus, compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK296380.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
ATGAGACATT TAGAGGGTCA ACTTGAAGAG AAGAATCAAG AACTTCAAAG AGCTAGGCAA 
AGAGAGAAAA TGAATGAGGA GCATAACAAG AGATTATCGG ATACGGTTGA TAGACTTCTG
ACTGAATCCA ATGAACGCCT ACAACTACAC TTAAAGGAAA GAATGGCTGC TCTAGAAGAA
AAGAATGTTT TAATTCAAGA ATCAGAAACT TTCAGAAAGA ATCTTGAAGA ATCTTTACAT
GATAAGGAAA GATTAGCAGA AGAAATTGAA AAGCTGAGAT CTGAACTTGA CCAATTGAAA
ATGAGAACTG GCTCTTTAAT TGAACCCACA ATACCAAGAA CTCATCTAGA CACCTCAGCT
GAGTTGCGGT ACTCAGTGGG ATCCCTAGTG GACAGCCAGT CTGATTACAG AACAACTAAA
GTAATAAGAA GACCAAGGAG AGGCCGCATG GGTGTGCGAA GAGATGAGCC AAAGGTGAAA
TCTCTTGGGG ATCACGAGTG GAATAGAACT CAACAGATTG GAGTACTAAG CAGCCACCCT
TTTGAAAGTG ACACTGAAAT GTCTGATATT GATGATGATG ACAGAGAAAC AATTTTTAGC
TCAATGGATC TTCTCTCTCC AAGTGGTCAT TCCGATGCCC AGACGCTAGC CATGATGCTT
CAGGAACAAT TGGATGCCAT CAACAAAGAA ATCAGGCTAA TTCAGGAAGA AAAAGAATCT
ACAGAGTTGC GTGCTGAAGA AATTGAAAAT AGAGTGGCTA GTGTGAGCCT CGAAGGCCTG
AATTTGGCAA GGGTCCACCC AGGTACCTCC ATTACTGCCT CTGTTACAGC TTCATCGCTG
GCCAGTTCAT CTCCCCCCAG TGGACACTCA ACTCCAAAGC TCACCCCTCG AAGCCCTGCC
AGGGAAATGG ATCGGATGGG AGTCATGACA CTGCCAAGTG ATCTGAGGAA ACATCGGAGA
AAGATTGCAG TTGTGGAAGA AGATGGTCGA GAGGACAAAG CAACAATTAA ATGTGAAACT
TCTCCTCCTC CTACCCCTAG AGCCCTCAGA ATGACTCACA CTCTCCCTTC TTCCTACCAC
AATGATGCTC GAAGTAGTTT ATCTGTCTCT CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT
GCCAACAGCA GCCAAGACTC TCTTCACAAA GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA
ATAGGACGTT TGTTTGGTAA AAAAGAAAAA GCTCGACTTG GGCAGCTCCG AGGCTTTATG
GAGACTGAAG CTGCAGCTCA GGAGTCCCTG GGGTTAGGCA AACTCGGAAC TCAAGCTGAG
AAGGATCGAA GACTAAAGAA AAAGCATGAA CTTCTTGAAG AAGCTCGGAG AAAGGGATTA
CCTTTTGCCC AGTGGGATGG GCCAACTGTG GTCGCATGGC TAGAGCTTTG GTTGGGAATG
CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC AACGTGAAGA GTGGTGCCAT CATGTCTGCT
TTATCTGACA CTGAGATCCA GAGAGAAATT GGAATCAGCA ATCCACTGCA TCGCTTAAAA
CTTCGATTAG CAATCCAGGA GATGGTTTCC CTAACAAGTC CTTCAGCTCC TCCAACATCT
CGAACTTGTC CGGTTTTTCT ACAGACCCTG GCTTATGGAG ATATGAATCA TGAGTGGATT
GGAAATGAAT GGCTTCCCAG CTTGGGGTTA CCTCAGTACA GAAGTTACTT TATGGAATGC
TTGGTAGATG CAAGAATGTT AGATCACCTA ACAAAAAAAG ATCTCCGTGT CCATTTAAAA
ATGGTGGATA GTTTCCATCG AACAAGTTTA CAATATGGAA TTATGTGCTT AAAGAGGTTG
AATTATGACA GAAAAGAACT AGAAAGAAGA CGGGAAGCAA GCCAACATGA AATAAAAGAC
GTGTTGGTGT GGAGCAATGA CCGAGTTATT CGCTGGATAC AAGCAATTGG ACTTCGAGAA
TATGCAAATA ATATACTTGA GAGCGGTGTG CATGGCTCAC TTATAGCCCT GGATGAAAAC
TTTGACTACA GCAGCTTAGC TTTATTATTA CAGATTCCAA CACAGAACAC CCAGGCAAGG
CAGATTCTTG AAAGAGAATA CAATAACCTC TTGGCCCTGG GAACTGAAAG GCGACTGGAT
GAAAGTGATG ACAAGAACTT CAGACGTGGA TCAACCTGGA GAAGGCAGTT TCCTCCTCGT
GAAGTACATG GAATCAGCAT GATGCCTGGG TCCTCAGAAA CATTACCAGC TGGATTTAGG
TTAACCACAA CCTCTGGGCA GTCAAGAAAA ATGACAACAG ATGATGGCGT CTTTTCAGTC
TACTCTACCT AA

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

RefSeq NP_001207408.1
CDS159..2510
Misc Feature(1)105..107
Misc Feature(2)279..>467
Misc Feature(3)1542..1754
Misc Feature(4)1542..1742
Misc Feature(5)1821..2018
Misc Feature(6)1845..2012
Misc Feature(7)2076..2291
Misc Feature(8)2079..2294
Exon (1)1..125
Exon (2)126..209
Exon (3)210..341
Exon (4)342..404
Exon (5)405..496
Exon (6)497..632
Exon (7)633..853
Exon (8)854..1091
Exon (9)1092..1121
Exon (10)1122..1252
Exon (11)1253..1407
Exon (12)1408..1501
Exon (13)1502..1583
Exon (14)1584..1784
Exon (15)1785..1978
Exon (16)1979..2076
Exon (17)2077..2252
Exon (18)2253..2321
Exon (19)2322..2481
Exon (20)2482..4167
Translation

Target ORF information:

RefSeq Version NM_001220479.2
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant 9, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001220479.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
ATGAGACATT TAGAGGGTCA ACTTGAAGAG AAGAATCAAG AACTTCAAAG AGCTAGGCAA 
AGAGAGAAAA TGAATGAGGA GCATAACAAG AGATTATCGG ATACGGTTGA TAGACTTCTG
ACTGAATCCA ATGAACGCCT ACAACTACAC TTAAAGGAAA GAATGGCTGC TCTAGAAGAA
AAGAATGTTT TAATTCAAGA ATCAGAAACT TTCAGAAAGA ATCTTGAAGA ATCTTTACAT
GATAAGGAAA GATTAGCAGA AGAAATTGAA AAGCTGAGAT CTGAACTTGA CCAATTGAAA
ATGAGAACTG GCTCTTTAAT TGAACCCACA ATACCAAGAA CTCATCTAGA CACCTCAGCT
GAGTTGCGGT ACTCAGTGGG ATCCCTAGTG GACAGCCAGT CTGATTACAG AACAACTAAA
GTAATAAGAA GACCAAGGAG AGGCCGCATG GGTGTGCGAA GAGATGAGCC AAAGGTGAAA
TCTCTTGGGG ATCACGAGTG GAATAGAACT CAACAGATTG GAGTACTAAG CAGCCACCCT
TTTGAAAGTG ACACTGAAAT GTCTGATATT GATGATGATG ACAGAGAAAC AATTTTTAGC
TCAATGGATC TTCTCTCTCC AAGTGGTCAT TCCGATGCCC AGACGCTAGC CATGATGCTT
CAGGAACAAT TGGATGCCAT CAACAAAGAA ATCAGGCTAA TTCAGGAAGA AAAAGAATCT
ACAGAGTTGC GTGCTGAAGA AATTGAAAAT AGAGTGGCTA GTGTGAGCCT CGAAGGCCTG
AATTTGGCAA GGGTCCACCC AGGTACCTCC ATTACTGCCT CTGTTACAGC TTCATCGCTG
GCCAGTTCAT CTCCCCCCAG TGGACACTCA ACTCCAAAGC TCACCCCTCG AAGCCCTGCC
AGGGAAATGG ATCGGATGGG AGTCATGACA CTGCCAAGTG ATCTGAGGAA ACATCGGAGA
AAGATTGCAG TTGTGGAAGA AGATGGTCGA GAGGACAAAG CAACAATTAA ATGTGAAACT
TCTCCTCCTC CTACCCCTAG AGCCCTCAGA ATGACTCACA CTCTCCCTTC TTCCTACCAC
AATGATGCTC GAAGTAGTTT ATCTGTCTCT CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT
GCCAACAGCA GCCAAGACTC TCTTCACAAA GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA
ATAGGACGTT TGTTTGGTAA AAAAGAAAAA GCTCGACTTG GGCAGCTCCG AGGCTTTATG
GAGACTGAAG CTGCAGCTCA GGAGTCCCTG GGGTTAGGCA AACTCGGAAC TCAAGCTGAG
AAGGATCGAA GACTAAAGAA AAAGCATGAA CTTCTTGAAG AAGCTCGGAG AAAGGGATTA
CCTTTTGCCC AGTGGGATGG GCCAACTGTG GTCGCATGGC TAGAGCTTTG GTTGGGAATG
CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC AACGTGAAGA GTGGTGCCAT CATGTCTGCT
TTATCTGACA CTGAGATCCA GAGAGAAATT GGAATCAGCA ATCCACTGCA TCGCTTAAAA
CTTCGATTAG CAATCCAGGA GATGGTTTCC CTAACAAGTC CTTCAGCTCC TCCAACATCT
CGAACTTGTC CGGTTTTTCT ACAGACCCTG GCTTATGGAG ATATGAATCA TGAGTGGATT
GGAAATGAAT GGCTTCCCAG CTTGGGGTTA CCTCAGTACA GAAGTTACTT TATGGAATGC
TTGGTAGATG CAAGAATGTT AGATCACCTA ACAAAAAAAG ATCTCCGTGT CCATTTAAAA
ATGGTGGATA GTTTCCATCG AACAAGTTTA CAATATGGAA TTATGTGCTT AAAGAGGTTG
AATTATGACA GAAAAGAACT AGAAAGAAGA CGGGAAGCAA GCCAACATGA AATAAAAGAC
GTGTTGGTGT GGAGCAATGA CCGAGTTATT CGCTGGATAC AAGCAATTGG ACTTCGAGAA
TATGCAAATA ATATACTTGA GAGCGGTGTG CATGGCTCAC TTATAGCCCT GGATGAAAAC
TTTGACTACA GCAGCTTAGC TTTATTATTA CAGATTCCAA CACAGAACAC CCAGGCAAGG
CAGATTCTTG AAAGAGAATA CAATAACCTC TTGGCCCTGG GAACTGAAAG GCGACTGGAT
GAAAGTGATG ACAAGAACTT CAGACGTGGA TCAACCTGGA GAAGGCAGTT TCCTCCTCGT
GAAGTACATG GAATCAGCAT GATGCCTGGG TCCTCAGAAA CATTACCAGC TGGATTTAGG
TTAACCACAA CCTCTGGGCA GTCAAGAAAA ATGACAACAG ATGATGGCGT CTTTTCAGTC
TACTCTACCT AA

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

CloneID OHu84227
Clone ID Related Accession (Same CDS sequence) XM_017020081.1
Accession Version XM_017020081.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3765bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGTTGC TTCATCAAGA
CTGCAGAGGT TAGACAACTC CACTGTTCGC ACATACTCAT GTTGA

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

RefSeq XP_016875570.1
CDS293..4057
Translation

Target ORF information:

RefSeq Version XM_017020081.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020081.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGTTGC TTCATCAAGA
CTGCAGAGGT TAGACAACTC CACTGTTCGC ACATACTCAT GTTGA

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

CloneID OHu84228
Clone ID Related Accession (Same CDS sequence) XM_017020083.1
Accession Version XM_017020083.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3753bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X5
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGTGT
CCGGTTTTTC TACAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGTTGCTT CATCAAGACT GCAGAGGTTA
GACAACTCCA CTGTTCGCAC ATACTCATGT TGA

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

RefSeq XP_016875572.1
CDS293..4045
Translation

Target ORF information:

RefSeq Version XM_017020083.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X5, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020083.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGTGT
CCGGTTTTTC TACAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGTTGCTT CATCAAGACT GCAGAGGTTA
GACAACTCCA CTGTTCGCAC ATACTCATGT TGA

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

CloneID OHu84229
Clone ID Related Accession (Same CDS sequence) XM_017020084.1
Accession Version XM_017020084.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3753bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X6
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGTGT CCGGTTTTTC TACAGACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGATGGCG TCTTTTCAGT CTACTCTACC TAA

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

RefSeq XP_016875573.1
CDS293..4045
Translation

Target ORF information:

RefSeq Version XM_017020084.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X6, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020084.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGTGT CCGGTTTTTC TACAGACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGATGGCG TCTTTTCAGT CTACTCTACC TAA

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

CloneID OHu84230
Clone ID Related Accession (Same CDS sequence) XM_017020085.1
Accession Version XM_017020085.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3744bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X7
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGTG TCCGGTTTTT
CTACAGACCC TGGCTTATGG AGATATGAAT CATGAGTGGA TTGGAAATGA ATGGCTTCCC
AGCTTGGGGT TACCTCAGTA CAGAAGTTAC TTTATGGAAT GCTTGGTAGA TGCAAGAATG
TTAGATCACC TAACAAAAAA AGATCTCCGT GTCCATTTAA AAATGGTGGA TAGTTTCCAT
CGAACAAGTT TACAATATGG AATTATGTGC TTAAAGAGGT TGAATTATGA CAGAAAAGAA
CTAGAAAGAA GACGGGAAGC AAGCCAACAT GAAATAAAAG ACGTGTTGGT GTGGAGCAAT
GACCGAGTTA TTCGCTGGAT ACAAGCAATT GGACTTCGAG AATATGCAAA TAATATACTT
GAGAGCGGTG TGCATGGCTC ACTTATAGCC CTGGATGAAA ACTTTGACTA CAGCAGCTTA
GCTTTATTAT TACAGATTCC AACACAGAAC ACCCAGGCAA GGCAGATTCT TGAAAGAGAA
TACAATAACC TCTTGGCCCT GGGAACTGAA AGGCGACTGG ATGAAAGTGA TGACAAGAAC
TTCAGACGTG GATCAACCTG GAGAAGGCAG TTTCCTCCTC GTGAAGTACA TGGAATCAGC
ATGATGCCTG GGTCCTCAGA AACATTACCA GCTGGATTTA GGTTAACCAC AACCTCTGGG
CAGTCAAGAA AAATGACAAC AGATGTTGCT TCATCAAGAC TGCAGAGGTT AGACAACTCC
ACTGTTCGCA CATACTCATG TTGA

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

RefSeq XP_016875574.1
CDS293..4036
Translation

Target ORF information:

RefSeq Version XM_017020085.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X7, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020085.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGTG TCCGGTTTTT
CTACAGACCC TGGCTTATGG AGATATGAAT CATGAGTGGA TTGGAAATGA ATGGCTTCCC
AGCTTGGGGT TACCTCAGTA CAGAAGTTAC TTTATGGAAT GCTTGGTAGA TGCAAGAATG
TTAGATCACC TAACAAAAAA AGATCTCCGT GTCCATTTAA AAATGGTGGA TAGTTTCCAT
CGAACAAGTT TACAATATGG AATTATGTGC TTAAAGAGGT TGAATTATGA CAGAAAAGAA
CTAGAAAGAA GACGGGAAGC AAGCCAACAT GAAATAAAAG ACGTGTTGGT GTGGAGCAAT
GACCGAGTTA TTCGCTGGAT ACAAGCAATT GGACTTCGAG AATATGCAAA TAATATACTT
GAGAGCGGTG TGCATGGCTC ACTTATAGCC CTGGATGAAA ACTTTGACTA CAGCAGCTTA
GCTTTATTAT TACAGATTCC AACACAGAAC ACCCAGGCAA GGCAGATTCT TGAAAGAGAA
TACAATAACC TCTTGGCCCT GGGAACTGAA AGGCGACTGG ATGAAAGTGA TGACAAGAAC
TTCAGACGTG GATCAACCTG GAGAAGGCAG TTTCCTCCTC GTGAAGTACA TGGAATCAGC
ATGATGCCTG GGTCCTCAGA AACATTACCA GCTGGATTTA GGTTAACCAC AACCTCTGGG
CAGTCAAGAA AAATGACAAC AGATGTTGCT TCATCAAGAC TGCAGAGGTT AGACAACTCC
ACTGTTCGCA CATACTCATG TTGA

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

CloneID OHu84231
Clone ID Related Accession (Same CDS sequence) XM_017020087.1
Accession Version XM_017020087.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X9
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGATGG CGTCTTTTCA
GTCTACTCTA CCTAA

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

RefSeq XP_016875576.1
CDS280..4014
Translation

Target ORF information:

RefSeq Version XM_017020087.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X9, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020087.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGAAA
GAATCTGAGG AAGGAAGCTG GGCCCAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGATGG CGTCTTTTCA
GTCTACTCTA CCTAA

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

CloneID OHu84232
Clone ID Related Accession (Same CDS sequence) XM_017020088.1 , XM_017020089.1
Accession Version XM_017020088.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X10
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAACA CATCTGGGCA TGAACTTCTT GAAGAAGCTC GGAGAAAGGG ATTACCTTTT
GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA TGGCTAGAGC TTTGGTTGGG AATGCCTGCG
TGGTACGTGG CAGCCTGCCG AGCCAACGTG AAGAGTGGTG CCATCATGTC TGCTTTATCT
GACACTGAGA TCCAGAGAGA AATTGGAATC AGCAATCCAC TGCATCGCTT AAAACTTCGA
TTAGCAATCC AGGAGATGGT TTCCCTAACA AGTCCTTCAG CTCCTCCAAC ATCTCGAACT
CCTTCAGGCA ACGTTTGGGT GACTCATGAA GAAATGGAAA ATCTTGCAGC TCCAGCAAAA
ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC CAGTGTCCGG TTTTTCTACA GACCCTGGCT
TATGGAGATA TGAATCATGA GTGGATTGGA AATGAATGGC TTCCCAGCTT GGGGTTACCT
CAGTACAGAA GTTACTTTAT GGAATGCTTG GTAGATGCAA GAATGTTAGA TCACCTAACA
AAAAAAGATC TCCGTGTCCA TTTAAAAATG GTGGATAGTT TCCATCGAAC AAGTTTACAA
TATGGAATTA TGTGCTTAAA GAGGTTGAAT TATGACAGAA AAGAACTAGA AAGAAGACGG
GAAGCAAGCC AACATGAAAT AAAAGACGTG TTGGTGTGGA GCAATGACCG AGTTATTCGC
TGGATACAAG CAATTGGACT TCGAGAATAT GCAAATAATA TACTTGAGAG CGGTGTGCAT
GGCTCACTTA TAGCCCTGGA TGAAAACTTT GACTACAGCA GCTTAGCTTT ATTATTACAG
ATTCCAACAC AGAACACCCA GGCAAGGCAG ATTCTTGAAA GAGAATACAA TAACCTCTTG
GCCCTGGGAA CTGAAAGGCG ACTGGATGAA AGTGATGACA AGAACTTCAG ACGTGGATCA
ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA GTACATGGAA TCAGCATGAT GCCTGGGTCC
TCAGAAACAT TACCAGCTGG ATTTAGGTTA ACCACAACCT CTGGGCAGTC AAGAAAAATG
ACAACAGATG TTGCTTCATC AAGACTGCAG AGGTTAGACA ACTCCACTGT TCGCACATAC
TCATGTTGA

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

RefSeq XP_016875577.1
CDS580..4308
Translation

Target ORF information:

RefSeq Version XM_017020088.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X10, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020088.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAACA CATCTGGGCA TGAACTTCTT GAAGAAGCTC GGAGAAAGGG ATTACCTTTT
GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA TGGCTAGAGC TTTGGTTGGG AATGCCTGCG
TGGTACGTGG CAGCCTGCCG AGCCAACGTG AAGAGTGGTG CCATCATGTC TGCTTTATCT
GACACTGAGA TCCAGAGAGA AATTGGAATC AGCAATCCAC TGCATCGCTT AAAACTTCGA
TTAGCAATCC AGGAGATGGT TTCCCTAACA AGTCCTTCAG CTCCTCCAAC ATCTCGAACT
CCTTCAGGCA ACGTTTGGGT GACTCATGAA GAAATGGAAA ATCTTGCAGC TCCAGCAAAA
ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC CAGTGTCCGG TTTTTCTACA GACCCTGGCT
TATGGAGATA TGAATCATGA GTGGATTGGA AATGAATGGC TTCCCAGCTT GGGGTTACCT
CAGTACAGAA GTTACTTTAT GGAATGCTTG GTAGATGCAA GAATGTTAGA TCACCTAACA
AAAAAAGATC TCCGTGTCCA TTTAAAAATG GTGGATAGTT TCCATCGAAC AAGTTTACAA
TATGGAATTA TGTGCTTAAA GAGGTTGAAT TATGACAGAA AAGAACTAGA AAGAAGACGG
GAAGCAAGCC AACATGAAAT AAAAGACGTG TTGGTGTGGA GCAATGACCG AGTTATTCGC
TGGATACAAG CAATTGGACT TCGAGAATAT GCAAATAATA TACTTGAGAG CGGTGTGCAT
GGCTCACTTA TAGCCCTGGA TGAAAACTTT GACTACAGCA GCTTAGCTTT ATTATTACAG
ATTCCAACAC AGAACACCCA GGCAAGGCAG ATTCTTGAAA GAGAATACAA TAACCTCTTG
GCCCTGGGAA CTGAAAGGCG ACTGGATGAA AGTGATGACA AGAACTTCAG ACGTGGATCA
ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA GTACATGGAA TCAGCATGAT GCCTGGGTCC
TCAGAAACAT TACCAGCTGG ATTTAGGTTA ACCACAACCT CTGGGCAGTC AAGAAAAATG
ACAACAGATG TTGCTTCATC AAGACTGCAG AGGTTAGACA ACTCCACTGT TCGCACATAC
TCATGTTGA

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

CloneID OHu84232
Clone ID Related Accession (Same CDS sequence) XM_017020088.1 , XM_017020089.1
Accession Version XM_017020089.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X10
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAACA CATCTGGGCA TGAACTTCTT GAAGAAGCTC GGAGAAAGGG ATTACCTTTT
GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA TGGCTAGAGC TTTGGTTGGG AATGCCTGCG
TGGTACGTGG CAGCCTGCCG AGCCAACGTG AAGAGTGGTG CCATCATGTC TGCTTTATCT
GACACTGAGA TCCAGAGAGA AATTGGAATC AGCAATCCAC TGCATCGCTT AAAACTTCGA
TTAGCAATCC AGGAGATGGT TTCCCTAACA AGTCCTTCAG CTCCTCCAAC ATCTCGAACT
CCTTCAGGCA ACGTTTGGGT GACTCATGAA GAAATGGAAA ATCTTGCAGC TCCAGCAAAA
ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC CAGTGTCCGG TTTTTCTACA GACCCTGGCT
TATGGAGATA TGAATCATGA GTGGATTGGA AATGAATGGC TTCCCAGCTT GGGGTTACCT
CAGTACAGAA GTTACTTTAT GGAATGCTTG GTAGATGCAA GAATGTTAGA TCACCTAACA
AAAAAAGATC TCCGTGTCCA TTTAAAAATG GTGGATAGTT TCCATCGAAC AAGTTTACAA
TATGGAATTA TGTGCTTAAA GAGGTTGAAT TATGACAGAA AAGAACTAGA AAGAAGACGG
GAAGCAAGCC AACATGAAAT AAAAGACGTG TTGGTGTGGA GCAATGACCG AGTTATTCGC
TGGATACAAG CAATTGGACT TCGAGAATAT GCAAATAATA TACTTGAGAG CGGTGTGCAT
GGCTCACTTA TAGCCCTGGA TGAAAACTTT GACTACAGCA GCTTAGCTTT ATTATTACAG
ATTCCAACAC AGAACACCCA GGCAAGGCAG ATTCTTGAAA GAGAATACAA TAACCTCTTG
GCCCTGGGAA CTGAAAGGCG ACTGGATGAA AGTGATGACA AGAACTTCAG ACGTGGATCA
ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA GTACATGGAA TCAGCATGAT GCCTGGGTCC
TCAGAAACAT TACCAGCTGG ATTTAGGTTA ACCACAACCT CTGGGCAGTC AAGAAAAATG
ACAACAGATG TTGCTTCATC AAGACTGCAG AGGTTAGACA ACTCCACTGT TCGCACATAC
TCATGTTGA

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

RefSeq XP_016875578.1
CDS293..4021
Translation

Target ORF information:

RefSeq Version XM_017020089.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X11, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020089.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAACA CATCTGGGCA TGAACTTCTT GAAGAAGCTC GGAGAAAGGG ATTACCTTTT
GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA TGGCTAGAGC TTTGGTTGGG AATGCCTGCG
TGGTACGTGG CAGCCTGCCG AGCCAACGTG AAGAGTGGTG CCATCATGTC TGCTTTATCT
GACACTGAGA TCCAGAGAGA AATTGGAATC AGCAATCCAC TGCATCGCTT AAAACTTCGA
TTAGCAATCC AGGAGATGGT TTCCCTAACA AGTCCTTCAG CTCCTCCAAC ATCTCGAACT
CCTTCAGGCA ACGTTTGGGT GACTCATGAA GAAATGGAAA ATCTTGCAGC TCCAGCAAAA
ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC CAGTGTCCGG TTTTTCTACA GACCCTGGCT
TATGGAGATA TGAATCATGA GTGGATTGGA AATGAATGGC TTCCCAGCTT GGGGTTACCT
CAGTACAGAA GTTACTTTAT GGAATGCTTG GTAGATGCAA GAATGTTAGA TCACCTAACA
AAAAAAGATC TCCGTGTCCA TTTAAAAATG GTGGATAGTT TCCATCGAAC AAGTTTACAA
TATGGAATTA TGTGCTTAAA GAGGTTGAAT TATGACAGAA AAGAACTAGA AAGAAGACGG
GAAGCAAGCC AACATGAAAT AAAAGACGTG TTGGTGTGGA GCAATGACCG AGTTATTCGC
TGGATACAAG CAATTGGACT TCGAGAATAT GCAAATAATA TACTTGAGAG CGGTGTGCAT
GGCTCACTTA TAGCCCTGGA TGAAAACTTT GACTACAGCA GCTTAGCTTT ATTATTACAG
ATTCCAACAC AGAACACCCA GGCAAGGCAG ATTCTTGAAA GAGAATACAA TAACCTCTTG
GCCCTGGGAA CTGAAAGGCG ACTGGATGAA AGTGATGACA AGAACTTCAG ACGTGGATCA
ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA GTACATGGAA TCAGCATGAT GCCTGGGTCC
TCAGAAACAT TACCAGCTGG ATTTAGGTTA ACCACAACCT CTGGGCAGTC AAGAAAAATG
ACAACAGATG TTGCTTCATC AAGACTGCAG AGGTTAGACA ACTCCACTGT TCGCACATAC
TCATGTTGA

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

CloneID OHu84233
Clone ID Related Accession (Same CDS sequence) XM_017020090.1
Accession Version XM_017020090.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3726bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X11
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGAA AGAATCTGAG
GAAGGAAGCT GGGCCCAGAC CCTGGCTTAT GGAGATATGA ATCATGAGTG GATTGGAAAT
GAATGGCTTC CCAGCTTGGG GTTACCTCAG TACAGAAGTT ACTTTATGGA ATGCTTGGTA
GATGCAAGAA TGTTAGATCA CCTAACAAAA AAAGATCTCC GTGTCCATTT AAAAATGGTG
GATAGTTTCC ATCGAACAAG TTTACAATAT GGAATTATGT GCTTAAAGAG GTTGAATTAT
GACAGAAAAG AACTAGAAAG AAGACGGGAA GCAAGCCAAC ATGAAATAAA AGACGTGTTG
GTGTGGAGCA ATGACCGAGT TATTCGCTGG ATACAAGCAA TTGGACTTCG AGAATATGCA
AATAATATAC TTGAGAGCGG TGTGCATGGC TCACTTATAG CCCTGGATGA AAACTTTGAC
TACAGCAGCT TAGCTTTATT ATTACAGATT CCAACACAGA ACACCCAGGC AAGGCAGATT
CTTGAAAGAG AATACAATAA CCTCTTGGCC CTGGGAACTG AAAGGCGACT GGATGAAAGT
GATGACAAGA ACTTCAGACG TGGATCAACC TGGAGAAGGC AGTTTCCTCC TCGTGAAGTA
CATGGAATCA GCATGATGCC TGGGTCCTCA GAAACATTAC CAGCTGGATT TAGGTTAACC
ACAACCTCTG GGCAGTCAAG AAAAATGACA ACAGATGATG GCGTCTTTTC AGTCTACTCT
ACCTAA

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

RefSeq XP_016875579.1
CDS146..3871
Translation

Target ORF information:

RefSeq Version XM_017020090.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X12, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020090.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGAA AGAATCTGAG
GAAGGAAGCT GGGCCCAGAC CCTGGCTTAT GGAGATATGA ATCATGAGTG GATTGGAAAT
GAATGGCTTC CCAGCTTGGG GTTACCTCAG TACAGAAGTT ACTTTATGGA ATGCTTGGTA
GATGCAAGAA TGTTAGATCA CCTAACAAAA AAAGATCTCC GTGTCCATTT AAAAATGGTG
GATAGTTTCC ATCGAACAAG TTTACAATAT GGAATTATGT GCTTAAAGAG GTTGAATTAT
GACAGAAAAG AACTAGAAAG AAGACGGGAA GCAAGCCAAC ATGAAATAAA AGACGTGTTG
GTGTGGAGCA ATGACCGAGT TATTCGCTGG ATACAAGCAA TTGGACTTCG AGAATATGCA
AATAATATAC TTGAGAGCGG TGTGCATGGC TCACTTATAG CCCTGGATGA AAACTTTGAC
TACAGCAGCT TAGCTTTATT ATTACAGATT CCAACACAGA ACACCCAGGC AAGGCAGATT
CTTGAAAGAG AATACAATAA CCTCTTGGCC CTGGGAACTG AAAGGCGACT GGATGAAAGT
GATGACAAGA ACTTCAGACG TGGATCAACC TGGAGAAGGC AGTTTCCTCC TCGTGAAGTA
CATGGAATCA GCATGATGCC TGGGTCCTCA GAAACATTAC CAGCTGGATT TAGGTTAACC
ACAACCTCTG GGCAGTCAAG AAAAATGACA ACAGATGATG GCGTCTTTTC AGTCTACTCT
ACCTAA

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

CloneID OHu84234
Clone ID Related Accession (Same CDS sequence) XM_017020091.1
Accession Version XM_017020091.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3723bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X12
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGTGT
CCGGTTTTTC TACAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGATGGCG TCTTTTCAGT CTACTCTACC
TAA

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

RefSeq XP_016875580.1
CDS293..4015
Translation

Target ORF information:

RefSeq Version XM_017020091.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X13, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020091.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTCCTTCA
GGCAACGTTT GGGTGACTCA TGAAGAAATG GAAAATCTTG CAGCTCCAGC AAAAACGTGT
CCGGTTTTTC TACAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGATGGCG TCTTTTCAGT CTACTCTACC
TAA

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

CloneID OHu84235
Clone ID Related Accession (Same CDS sequence) XM_017020092.1
Accession Version XM_017020092.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3720bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X13
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GTTGCTTCAT CAAGACTGCA GAGGTTAGAC AACTCCACTG TTCGCACATA CTCATGTTGA

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

RefSeq XP_016875581.1
CDS293..4012
Translation

Target ORF information:

RefSeq Version XM_017020092.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X14, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020092.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GTTGCTTCAT CAAGACTGCA GAGGTTAGAC AACTCCACTG TTCGCACATA CTCATGTTGA

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

CloneID OHu84236
Clone ID Related Accession (Same CDS sequence) XM_017020093.1
Accession Version XM_017020093.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3714bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X14
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGTG TCCGGTTTTT
CTACAGACCC TGGCTTATGG AGATATGAAT CATGAGTGGA TTGGAAATGA ATGGCTTCCC
AGCTTGGGGT TACCTCAGTA CAGAAGTTAC TTTATGGAAT GCTTGGTAGA TGCAAGAATG
TTAGATCACC TAACAAAAAA AGATCTCCGT GTCCATTTAA AAATGGTGGA TAGTTTCCAT
CGAACAAGTT TACAATATGG AATTATGTGC TTAAAGAGGT TGAATTATGA CAGAAAAGAA
CTAGAAAGAA GACGGGAAGC AAGCCAACAT GAAATAAAAG ACGTGTTGGT GTGGAGCAAT
GACCGAGTTA TTCGCTGGAT ACAAGCAATT GGACTTCGAG AATATGCAAA TAATATACTT
GAGAGCGGTG TGCATGGCTC ACTTATAGCC CTGGATGAAA ACTTTGACTA CAGCAGCTTA
GCTTTATTAT TACAGATTCC AACACAGAAC ACCCAGGCAA GGCAGATTCT TGAAAGAGAA
TACAATAACC TCTTGGCCCT GGGAACTGAA AGGCGACTGG ATGAAAGTGA TGACAAGAAC
TTCAGACGTG GATCAACCTG GAGAAGGCAG TTTCCTCCTC GTGAAGTACA TGGAATCAGC
ATGATGCCTG GGTCCTCAGA AACATTACCA GCTGGATTTA GGTTAACCAC AACCTCTGGG
CAGTCAAGAA AAATGACAAC AGATGATGGC GTCTTTTCAG TCTACTCTAC CTAA

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

RefSeq XP_016875582.1
CDS293..4006
Translation

Target ORF information:

RefSeq Version XM_017020093.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X15, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020093.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTCCTTC AGGCAACGTT
TGGGTGACTC ATGAAGAAAT GGAAAATCTT GCAGCTCCAG CAAAAACGTG TCCGGTTTTT
CTACAGACCC TGGCTTATGG AGATATGAAT CATGAGTGGA TTGGAAATGA ATGGCTTCCC
AGCTTGGGGT TACCTCAGTA CAGAAGTTAC TTTATGGAAT GCTTGGTAGA TGCAAGAATG
TTAGATCACC TAACAAAAAA AGATCTCCGT GTCCATTTAA AAATGGTGGA TAGTTTCCAT
CGAACAAGTT TACAATATGG AATTATGTGC TTAAAGAGGT TGAATTATGA CAGAAAAGAA
CTAGAAAGAA GACGGGAAGC AAGCCAACAT GAAATAAAAG ACGTGTTGGT GTGGAGCAAT
GACCGAGTTA TTCGCTGGAT ACAAGCAATT GGACTTCGAG AATATGCAAA TAATATACTT
GAGAGCGGTG TGCATGGCTC ACTTATAGCC CTGGATGAAA ACTTTGACTA CAGCAGCTTA
GCTTTATTAT TACAGATTCC AACACAGAAC ACCCAGGCAA GGCAGATTCT TGAAAGAGAA
TACAATAACC TCTTGGCCCT GGGAACTGAA AGGCGACTGG ATGAAAGTGA TGACAAGAAC
TTCAGACGTG GATCAACCTG GAGAAGGCAG TTTCCTCCTC GTGAAGTACA TGGAATCAGC
ATGATGCCTG GGTCCTCAGA AACATTACCA GCTGGATTTA GGTTAACCAC AACCTCTGGG
CAGTCAAGAA AAATGACAAC AGATGATGGC GTCTTTTCAG TCTACTCTAC CTAA

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

CloneID OHu84237
Clone ID Related Accession (Same CDS sequence) XM_017020094.1
Accession Version XM_017020094.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3708bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X15
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAACAC ATCTGGGCAT
GAACTTCTTG AAGAAGCTCG GAGAAAGGGA TTACCTTTTG CCCAGTGGGA TGGGCCAACT
GTGGTCGCAT GGCTAGAGCT TTGGTTGGGA ATGCCTGCGT GGTACGTGGC AGCCTGCCGA
GCCAACGTGA AGAGTGGTGC CATCATGTCT GCTTTATCTG ACACTGAGAT CCAGAGAGAA
ATTGGAATCA GCAATCCACT GCATCGCTTA AAACTTCGAT TAGCAATCCA GGAGATGGTT
TCCCTAACAA GTCCTTCAGC TCCTCCAACA TCTCGAACTC CTTCAGGCAA CGTTTGGGTG
ACTCATGAAG AAATGGAAAA TCTTGCAGCT CCAGCAAAAA CGAAAGAATC TGAGGAAGGA
AGCTGGGCCC AGTGTCCGGT TTTTCTACAG ACCCTGGCTT ATGGAGATAT GAATCATGAG
TGGATTGGAA ATGAATGGCT TCCCAGCTTG GGGTTACCTC AGTACAGAAG TTACTTTATG
GAATGCTTGG TAGATGCAAG AATGTTAGAT CACCTAACAA AAAAAGATCT CCGTGTCCAT
TTAAAAATGG TGGATAGTTT CCATCGAACA AGTTTACAAT ATGGAATTAT GTGCTTAAAG
AGGTTGAATT ATGACAGAAA AGAACTAGAA AGAAGACGGG AAGCAAGCCA ACATGAAATA
AAAGACGTGT TGGTGTGGAG CAATGACCGA GTTATTCGCT GGATACAAGC AATTGGACTT
CGAGAATATG CAAATAATAT ACTTGAGAGC GGTGTGCATG GCTCACTTAT AGCCCTGGAT
GAAAACTTTG ACTACAGCAG CTTAGCTTTA TTATTACAGA TTCCAACACA GAACACCCAG
GCAAGGCAGA TTCTTGAAAG AGAATACAAT AACCTCTTGG CCCTGGGAAC TGAAAGGCGA
CTGGATGAAA GTGATGACAA GAACTTCAGA CGTGGATCAA CCTGGAGAAG GCAGTTTCCT
CCTCGTGAAG TACATGGAAT CAGCATGATG CCTGGGTCCT CAGAAACATT ACCAGCTGGA
TTTAGGTTAA CCACAACCTC TGGGCAGTCA AGAAAAATGA CAACAGATGT TGCTTCATCA
AGACTGCAGA GGTTAGACAA CTCCACTGTT CGCACATACT CATGTTGA

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

RefSeq XP_016875583.1
CDS146..3853
Translation

Target ORF information:

RefSeq Version XM_017020094.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X16, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020094.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAACAC ATCTGGGCAT
GAACTTCTTG AAGAAGCTCG GAGAAAGGGA TTACCTTTTG CCCAGTGGGA TGGGCCAACT
GTGGTCGCAT GGCTAGAGCT TTGGTTGGGA ATGCCTGCGT GGTACGTGGC AGCCTGCCGA
GCCAACGTGA AGAGTGGTGC CATCATGTCT GCTTTATCTG ACACTGAGAT CCAGAGAGAA
ATTGGAATCA GCAATCCACT GCATCGCTTA AAACTTCGAT TAGCAATCCA GGAGATGGTT
TCCCTAACAA GTCCTTCAGC TCCTCCAACA TCTCGAACTC CTTCAGGCAA CGTTTGGGTG
ACTCATGAAG AAATGGAAAA TCTTGCAGCT CCAGCAAAAA CGAAAGAATC TGAGGAAGGA
AGCTGGGCCC AGTGTCCGGT TTTTCTACAG ACCCTGGCTT ATGGAGATAT GAATCATGAG
TGGATTGGAA ATGAATGGCT TCCCAGCTTG GGGTTACCTC AGTACAGAAG TTACTTTATG
GAATGCTTGG TAGATGCAAG AATGTTAGAT CACCTAACAA AAAAAGATCT CCGTGTCCAT
TTAAAAATGG TGGATAGTTT CCATCGAACA AGTTTACAAT ATGGAATTAT GTGCTTAAAG
AGGTTGAATT ATGACAGAAA AGAACTAGAA AGAAGACGGG AAGCAAGCCA ACATGAAATA
AAAGACGTGT TGGTGTGGAG CAATGACCGA GTTATTCGCT GGATACAAGC AATTGGACTT
CGAGAATATG CAAATAATAT ACTTGAGAGC GGTGTGCATG GCTCACTTAT AGCCCTGGAT
GAAAACTTTG ACTACAGCAG CTTAGCTTTA TTATTACAGA TTCCAACACA GAACACCCAG
GCAAGGCAGA TTCTTGAAAG AGAATACAAT AACCTCTTGG CCCTGGGAAC TGAAAGGCGA
CTGGATGAAA GTGATGACAA GAACTTCAGA CGTGGATCAA CCTGGAGAAG GCAGTTTCCT
CCTCGTGAAG TACATGGAAT CAGCATGATG CCTGGGTCCT CAGAAACATT ACCAGCTGGA
TTTAGGTTAA CCACAACCTC TGGGCAGTCA AGAAAAATGA CAACAGATGT TGCTTCATCA
AGACTGCAGA GGTTAGACAA CTCCACTGTT CGCACATACT CATGTTGA

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

CloneID OHu84238
Clone ID Related Accession (Same CDS sequence) XM_017020095.1
Accession Version XM_017020095.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3702bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X16
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGACCCTG GCTTATGGAG ATATGAATCA TGAGTGGATT
GGAAATGAAT GGCTTCCCAG CTTGGGGTTA CCTCAGTACA GAAGTTACTT TATGGAATGC
TTGGTAGATG CAAGAATGTT AGATCACCTA ACAAAAAAAG ATCTCCGTGT CCATTTAAAA
ATGGTGGATA GTTTCCATCG AACAAGTTTA CAATATGGAA TTATGTGCTT AAAGAGGTTG
AATTATGACA GAAAAGAACT AGAAAGAAGA CGGGAAGCAA GCCAACATGA AATAAAAGAC
GTGTTGGTGT GGAGCAATGA CCGAGTTATT CGCTGGATAC AAGCAATTGG ACTTCGAGAA
TATGCAAATA ATATACTTGA GAGCGGTGTG CATGGCTCAC TTATAGCCCT GGATGAAAAC
TTTGACTACA GCAGCTTAGC TTTATTATTA CAGATTCCAA CACAGAACAC CCAGGCAAGG
CAGATTCTTG AAAGAGAATA CAATAACCTC TTGGCCCTGG GAACTGAAAG GCGACTGGAT
GAAAGTGATG ACAAGAACTT CAGACGTGGA TCAACCTGGA GAAGGCAGTT TCCTCCTCGT
GAAGTACATG GAATCAGCAT GATGCCTGGG TCCTCAGAAA CATTACCAGC TGGATTTAGG
TTAACCACAA CCTCTGGGCA GTCAAGAAAA ATGACAACAG ATGTTGCTTC ATCAAGACTG
CAGAGGTTAG ACAACTCCAC TGTTCGCACA TACTCATGTT GA

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

RefSeq XP_016875584.1
CDS293..3994
Translation

Target ORF information:

RefSeq Version XM_017020095.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X17, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020095.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGACCCTG GCTTATGGAG ATATGAATCA TGAGTGGATT
GGAAATGAAT GGCTTCCCAG CTTGGGGTTA CCTCAGTACA GAAGTTACTT TATGGAATGC
TTGGTAGATG CAAGAATGTT AGATCACCTA ACAAAAAAAG ATCTCCGTGT CCATTTAAAA
ATGGTGGATA GTTTCCATCG AACAAGTTTA CAATATGGAA TTATGTGCTT AAAGAGGTTG
AATTATGACA GAAAAGAACT AGAAAGAAGA CGGGAAGCAA GCCAACATGA AATAAAAGAC
GTGTTGGTGT GGAGCAATGA CCGAGTTATT CGCTGGATAC AAGCAATTGG ACTTCGAGAA
TATGCAAATA ATATACTTGA GAGCGGTGTG CATGGCTCAC TTATAGCCCT GGATGAAAAC
TTTGACTACA GCAGCTTAGC TTTATTATTA CAGATTCCAA CACAGAACAC CCAGGCAAGG
CAGATTCTTG AAAGAGAATA CAATAACCTC TTGGCCCTGG GAACTGAAAG GCGACTGGAT
GAAAGTGATG ACAAGAACTT CAGACGTGGA TCAACCTGGA GAAGGCAGTT TCCTCCTCGT
GAAGTACATG GAATCAGCAT GATGCCTGGG TCCTCAGAAA CATTACCAGC TGGATTTAGG
TTAACCACAA CCTCTGGGCA GTCAAGAAAA ATGACAACAG ATGTTGCTTC ATCAAGACTG
CAGAGGTTAG ACAACTCCAC TGTTCGCACA TACTCATGTT GA

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

CloneID OHu84239
Clone ID Related Accession (Same CDS sequence) XM_017020096.1
Accession Version XM_017020096.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3699bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X17
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGTGTCCGG TTTTTCTACA GACCCTGGCT TATGGAGATA TGAATCATGA GTGGATTGGA
AATGAATGGC TTCCCAGCTT GGGGTTACCT CAGTACAGAA GTTACTTTAT GGAATGCTTG
GTAGATGCAA GAATGTTAGA TCACCTAACA AAAAAAGATC TCCGTGTCCA TTTAAAAATG
GTGGATAGTT TCCATCGAAC AAGTTTACAA TATGGAATTA TGTGCTTAAA GAGGTTGAAT
TATGACAGAA AAGAACTAGA AAGAAGACGG GAAGCAAGCC AACATGAAAT AAAAGACGTG
TTGGTGTGGA GCAATGACCG AGTTATTCGC TGGATACAAG CAATTGGACT TCGAGAATAT
GCAAATAATA TACTTGAGAG CGGTGTGCAT GGCTCACTTA TAGCCCTGGA TGAAAACTTT
GACTACAGCA GCTTAGCTTT ATTATTACAG ATTCCAACAC AGAACACCCA GGCAAGGCAG
ATTCTTGAAA GAGAATACAA TAACCTCTTG GCCCTGGGAA CTGAAAGGCG ACTGGATGAA
AGTGATGACA AGAACTTCAG ACGTGGATCA ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA
GTACATGGAA TCAGCATGAT GCCTGGGTCC TCAGAAACAT TACCAGCTGG ATTTAGGTTA
ACCACAACCT CTGGGCAGTC AAGAAAAATG ACAACAGATG TTGCTTCATC AAGACTGCAG
AGGTTAGACA ACTCCACTGT TCGCACATAC TCATGTTGA

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

RefSeq XP_016875585.1
CDS293..3991
Translation

Target ORF information:

RefSeq Version XM_017020096.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X18, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020096.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGTGTCCGG TTTTTCTACA GACCCTGGCT TATGGAGATA TGAATCATGA GTGGATTGGA
AATGAATGGC TTCCCAGCTT GGGGTTACCT CAGTACAGAA GTTACTTTAT GGAATGCTTG
GTAGATGCAA GAATGTTAGA TCACCTAACA AAAAAAGATC TCCGTGTCCA TTTAAAAATG
GTGGATAGTT TCCATCGAAC AAGTTTACAA TATGGAATTA TGTGCTTAAA GAGGTTGAAT
TATGACAGAA AAGAACTAGA AAGAAGACGG GAAGCAAGCC AACATGAAAT AAAAGACGTG
TTGGTGTGGA GCAATGACCG AGTTATTCGC TGGATACAAG CAATTGGACT TCGAGAATAT
GCAAATAATA TACTTGAGAG CGGTGTGCAT GGCTCACTTA TAGCCCTGGA TGAAAACTTT
GACTACAGCA GCTTAGCTTT ATTATTACAG ATTCCAACAC AGAACACCCA GGCAAGGCAG
ATTCTTGAAA GAGAATACAA TAACCTCTTG GCCCTGGGAA CTGAAAGGCG ACTGGATGAA
AGTGATGACA AGAACTTCAG ACGTGGATCA ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA
GTACATGGAA TCAGCATGAT GCCTGGGTCC TCAGAAACAT TACCAGCTGG ATTTAGGTTA
ACCACAACCT CTGGGCAGTC AAGAAAAATG ACAACAGATG TTGCTTCATC AAGACTGCAG
AGGTTAGACA ACTCCACTGT TCGCACATAC TCATGTTGA

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

CloneID OHu84240
Clone ID Related Accession (Same CDS sequence) XM_017020097.1
Accession Version XM_017020097.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3693bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X18
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGTTGCTT CATCAAGACT GCAGAGGTTA
GACAACTCCA CTGTTCGCAC ATACTCATGT TGA

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

RefSeq XP_016875586.1
CDS146..3838
Misc Feature(1)1229..1753
Misc Feature(2)1496..1513
Misc Feature(3)2828..3040
Misc Feature(4)2828..3028
Misc Feature(5)3119..3316
Misc Feature(6)3143..3310
Misc Feature(7)3374..3589
Misc Feature(8)3377..3592
Translation

Target ORF information:

RefSeq Version XM_017020097.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X19, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020097.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGTTGCTT CATCAAGACT GCAGAGGTTA
GACAACTCCA CTGTTCGCAC ATACTCATGT TGA

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

CloneID OHu84241
Clone ID Related Accession (Same CDS sequence) XM_017020098.1
Accession Version XM_017020098.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3690bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X19
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTTGTCCG
GTTTTTCTAC AGACCCTGGC TTATGGAGAT ATGAATCATG AGTGGATTGG AAATGAATGG
CTTCCCAGCT TGGGGTTACC TCAGTACAGA AGTTACTTTA TGGAATGCTT GGTAGATGCA
AGAATGTTAG ATCACCTAAC AAAAAAAGAT CTCCGTGTCC ATTTAAAAAT GGTGGATAGT
TTCCATCGAA CAAGTTTACA ATATGGAATT ATGTGCTTAA AGAGGTTGAA TTATGACAGA
AAAGAACTAG AAAGAAGACG GGAAGCAAGC CAACATGAAA TAAAAGACGT GTTGGTGTGG
AGCAATGACC GAGTTATTCG CTGGATACAA GCAATTGGAC TTCGAGAATA TGCAAATAAT
ATACTTGAGA GCGGTGTGCA TGGCTCACTT ATAGCCCTGG ATGAAAACTT TGACTACAGC
AGCTTAGCTT TATTATTACA GATTCCAACA CAGAACACCC AGGCAAGGCA GATTCTTGAA
AGAGAATACA ATAACCTCTT GGCCCTGGGA ACTGAAAGGC GACTGGATGA AAGTGATGAC
AAGAACTTCA GACGTGGATC AACCTGGAGA AGGCAGTTTC CTCCTCGTGA AGTACATGGA
ATCAGCATGA TGCCTGGGTC CTCAGAAACA TTACCAGCTG GATTTAGGTT AACCACAACC
TCTGGGCAGT CAAGAAAAAT GACAACAGAT GTTGCTTCAT CAAGACTGCA GAGGTTAGAC
AACTCCACTG TTCGCACATA CTCATGTTGA

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

RefSeq XP_016875587.1
CDS146..3835
Translation

Target ORF information:

RefSeq Version XM_017020098.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X20, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020098.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTTGTCCG
GTTTTTCTAC AGACCCTGGC TTATGGAGAT ATGAATCATG AGTGGATTGG AAATGAATGG
CTTCCCAGCT TGGGGTTACC TCAGTACAGA AGTTACTTTA TGGAATGCTT GGTAGATGCA
AGAATGTTAG ATCACCTAAC AAAAAAAGAT CTCCGTGTCC ATTTAAAAAT GGTGGATAGT
TTCCATCGAA CAAGTTTACA ATATGGAATT ATGTGCTTAA AGAGGTTGAA TTATGACAGA
AAAGAACTAG AAAGAAGACG GGAAGCAAGC CAACATGAAA TAAAAGACGT GTTGGTGTGG
AGCAATGACC GAGTTATTCG CTGGATACAA GCAATTGGAC TTCGAGAATA TGCAAATAAT
ATACTTGAGA GCGGTGTGCA TGGCTCACTT ATAGCCCTGG ATGAAAACTT TGACTACAGC
AGCTTAGCTT TATTATTACA GATTCCAACA CAGAACACCC AGGCAAGGCA GATTCTTGAA
AGAGAATACA ATAACCTCTT GGCCCTGGGA ACTGAAAGGC GACTGGATGA AAGTGATGAC
AAGAACTTCA GACGTGGATC AACCTGGAGA AGGCAGTTTC CTCCTCGTGA AGTACATGGA
ATCAGCATGA TGCCTGGGTC CTCAGAAACA TTACCAGCTG GATTTAGGTT AACCACAACC
TCTGGGCAGT CAAGAAAAAT GACAACAGAT GTTGCTTCAT CAAGACTGCA GAGGTTAGAC
AACTCCACTG TTCGCACATA CTCATGTTGA

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

CloneID OHu84242
Clone ID Related Accession (Same CDS sequence) XM_017020099.1
Accession Version XM_017020099.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3690bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X20
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAAGC ATGAACTTCT TGAAGAAGCT CGGAGAAAGG GATTACCTTT TGCCCAGTGG
GATGGGCCAA CTGTGGTCGC ATGGCTAGAG CTTTGGTTGG GAATGCCTGC GTGGTACGTG
GCAGCCTGCC GAGCCAACGT GAAGAGTGGT GCCATCATGT CTGCTTTATC TGACACTGAG
ATCCAGAGAG AAATTGGAAT CAGCAATCCA CTGCATCGCT TAAAACTTCG ATTAGCAATC
CAGGAGATGG TTTCCCTAAC AAGTCCTTCA GCTCCTCCAA CATCTCGAAC TCCTTCAGGC
AACGTTTGGG TGACTCATGA AGAAATGGAA AATCTTGCAG CTCCAGCAAA AACGAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

RefSeq XP_016875588.1
CDS293..3982
Translation

Target ORF information:

RefSeq Version XM_017020099.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X21, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020099.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGGTAA GGGAGCGACT GAGGGTTTCT
TTAGAAAGAG TCTCTGCACT GGAAGAAGAA CTAGCTGCTG CTAATCAGGA GATTGTTGCC
TTGCGTGAAC AAAATGTTCA TATACAAAGA AAAATGGCAT CAAGCGAGGG ATCCACAGAG
TCAGAACATC TTGAAGGGAT GGAACCTGGA CAGAAAGTCC ATGAGAAGCG TTTGTCCAAT
GGTTCTATAG ACTCAACCGA TGAAACTAGT CAAATAGTTG AACTACAAGA ATTGCTTGAA
AAGCAAAACT ATGAAATGGC CCAGATGAAA GAACGTTTAG CAGCCCTTTC TTCCCGAGTG
GGAGAGGTGG AACAGGAAGC AGAGACAGCA AGAAAGGATC TCATTAAAAC AGAAGAAATG
AACACCAAGT ATCAAAGGGA CATTAGGGAG GCCATGGCAC AAAAGGAAGA TATGGAAGAA
AGAATTACAA CCCTTGAAAA GCGTTACCTC AGTGCTCAGA GAGAATCTAC CTCCATACAT
GACATGAATG ATAAACTAGA AAATGAGTTA GCAAATAAAG AAGCTATCCT GCGGCAGATG
GAAGAGAAAA ACAGACAGTT ACAAGAACGT CTTGAGCTAG CTGAACAAAA GTTGCAGCAG
ACCATGAGAA AGGCTGAAAC CTTGCCTGAA GTAGAGGCTG AACTGGCTCA GAGAATTGCA
GCCCTAACCA AGGCTGAAGA GAGACATGGA AATATTGAAG AACGTATGAG ACATTTAGAG
GGTCAACTTG AAGAGAAGAA TCAAGAACTT CAAAGAGCTA GGCAAAGAGA GAAAATGAAT
GAGGAGCATA ACAAGAGATT ATCGGATACG GTTGATAGAC TTCTGACTGA ATCCAATGAA
CGCCTACAAC TACACTTAAA GGAAAGAATG GCTGCTCTAG AAGAAAAGAA TGTTTTAATT
CAAGAATCAG AAACTTTCAG AAAGAATCTT GAAGAATCTT TACATGATAA GGAAAGATTA
GCAGAAGAAA TTGAAAAGCT GAGATCTGAA CTTGACCAAT TGAAAATGAG AACTGGCTCT
TTAATTGAAC CCACAATACC AAGAACTCAT CTAGACACCT CAGCTGAGTT GCGGTACTCA
GTGGGATCCC TAGTGGACAG CCAGTCTGAT TACAGAACAA CTAAAGTAAT AAGAAGACCA
AGGAGAGGCC GCATGGGTGT GCGAAGAGAT GAGCCAAAGG TGAAATCTCT TGGGGATCAC
GAGTGGAATA GAACTCAACA GATTGGAGTA CTAAGCAGCC ACCCTTTTGA AAGTGACACT
GAAATGTCTG ATATTGATGA TGATGACAGA GAAACAATTT TTAGCTCAAT GGATCTTCTC
TCTCCAAGTG GTCATTCCGA TGCCCAGACG CTAGCCATGA TGCTTCAGGA ACAATTGGAT
GCCATCAACA AAGAAATCAG GCTAATTCAG GAAGAAAAAG AATCTACAGA GTTGCGTGCT
GAAGAAATTG AAAATAGAGT GGCTAGTGTG AGCCTCGAAG GCCTGAATTT GGCAAGGGTC
CACCCAGGTA CCTCCATTAC TGCCTCTGTT ACAGCTTCAT CGCTGGCCAG TTCATCTCCC
CCCAGTGGAC ACTCAACTCC AAAGCTCACC CCTCGAAGCC CTGCCAGGGA AATGGATCGG
ATGGGAGTCA TGACACTGCC AAGTGATCTG AGGAAACATC GGAGAAAGAT TGCAGTTGTG
GAAGAAGATG GTCGAGAGGA CAAAGCAACA ATTAAATGTG AAACTTCTCC TCCTCCTACC
CCTAGAGCCC TCAGAATGAC TCACACTCTC CCTTCTTCCT ACCACAATGA TGCTCGAAGT
AGTTTATCTG TCTCTCTTGA GCCAGAAAGC CTCGGGCTTG GTAGTGCCAA CAGCAGCCAA
GACTCTCTTC ACAAAGCCCC CAAGAAGAAA GGAATCAAGT CTTCAATAGG ACGTTTGTTT
GGTAAAAAAG AAAAAGCTCG ACTTGGGCAG CTCCGAGGCT TTATGGAGAC TGAAGCTGCA
GCTCAGGAGT CCCTGGGGTT AGGCAAACTC GGAACTCAAG CTGAGAAGGA TCGAAGACTA
AAGAAAAAGC ATGAACTTCT TGAAGAAGCT CGGAGAAAGG GATTACCTTT TGCCCAGTGG
GATGGGCCAA CTGTGGTCGC ATGGCTAGAG CTTTGGTTGG GAATGCCTGC GTGGTACGTG
GCAGCCTGCC GAGCCAACGT GAAGAGTGGT GCCATCATGT CTGCTTTATC TGACACTGAG
ATCCAGAGAG AAATTGGAAT CAGCAATCCA CTGCATCGCT TAAAACTTCG ATTAGCAATC
CAGGAGATGG TTTCCCTAAC AAGTCCTTCA GCTCCTCCAA CATCTCGAAC TCCTTCAGGC
AACGTTTGGG TGACTCATGA AGAAATGGAA AATCTTGCAG CTCCAGCAAA AACGAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

CloneID OHu84243
Clone ID Related Accession (Same CDS sequence) XM_017020100.1
Accession Version XM_017020100.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3690bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X21
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

RefSeq XP_016875589.1
CDS293..3982
Translation

Target ORF information:

RefSeq Version XM_017020100.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X22, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020100.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTAAAGAA
TCTGAGGAAG GAAGCTGGGC CCAGTGTCCG GTTTTTCTAC AGACCCTGGC TTATGGAGAT
ATGAATCATG AGTGGATTGG AAATGAATGG CTTCCCAGCT TGGGGTTACC TCAGTACAGA
AGTTACTTTA TGGAATGCTT GGTAGATGCA AGAATGTTAG ATCACCTAAC AAAAAAAGAT
CTCCGTGTCC ATTTAAAAAT GGTGGATAGT TTCCATCGAA CAAGTTTACA ATATGGAATT
ATGTGCTTAA AGAGGTTGAA TTATGACAGA AAAGAACTAG AAAGAAGACG GGAAGCAAGC
CAACATGAAA TAAAAGACGT GTTGGTGTGG AGCAATGACC GAGTTATTCG CTGGATACAA
GCAATTGGAC TTCGAGAATA TGCAAATAAT ATACTTGAGA GCGGTGTGCA TGGCTCACTT
ATAGCCCTGG ATGAAAACTT TGACTACAGC AGCTTAGCTT TATTATTACA GATTCCAACA
CAGAACACCC AGGCAAGGCA GATTCTTGAA AGAGAATACA ATAACCTCTT GGCCCTGGGA
ACTGAAAGGC GACTGGATGA AAGTGATGAC AAGAACTTCA GACGTGGATC AACCTGGAGA
AGGCAGTTTC CTCCTCGTGA AGTACATGGA ATCAGCATGA TGCCTGGGTC CTCAGAAACA
TTACCAGCTG GATTTAGGTT AACCACAACC TCTGGGCAGT CAAGAAAAAT GACAACAGAT
GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

CloneID OHu84244
Clone ID Related Accession (Same CDS sequence) XM_017020101.1
Accession Version XM_017020101.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3681bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X22
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTTGTCC GGTTTTTCTA
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGTTGCTTCA TCAAGACTGC AGAGGTTAGA CAACTCCACT
GTTCGCACAT ACTCATGTTG A

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

RefSeq XP_016875590.1
CDS146..3826
Translation

Target ORF information:

RefSeq Version XM_017020101.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X23, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020101.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTTGTCC GGTTTTTCTA
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGTTGCTTCA TCAAGACTGC AGAGGTTAGA CAACTCCACT
GTTCGCACAT ACTCATGTTG A

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

CloneID OHu84245
Clone ID Related Accession (Same CDS sequence) XM_017020102.1
Accession Version XM_017020102.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3681bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X23
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGTTGCTTCA TCAAGACTGC AGAGGTTAGA CAACTCCACT
GTTCGCACAT ACTCATGTTG A

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

RefSeq XP_016875591.1
CDS280..3960
Misc Feature(1)1288..1812
Misc Feature(2)1555..1572
Misc Feature(3)2887..3099
Misc Feature(4)2887..3087
Misc Feature(5)3241..3438
Misc Feature(6)3265..3432
Misc Feature(7)3496..3711
Misc Feature(8)3499..3714
Translation

Target ORF information:

RefSeq Version XM_017020102.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X24, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020102.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGTTGCTTCA TCAAGACTGC AGAGGTTAGA CAACTCCACT
GTTCGCACAT ACTCATGTTG A

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

CloneID OHu84246
Clone ID Related Accession (Same CDS sequence) XM_017020103.1
Accession Version XM_017020103.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3681bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X24
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGTGTCC GGTTTTTCTA CAGACCCTGG CTTATGGAGA TATGAATCAT
GAGTGGATTG GAAATGAATG GCTTCCCAGC TTGGGGTTAC CTCAGTACAG AAGTTACTTT
ATGGAATGCT TGGTAGATGC AAGAATGTTA GATCACCTAA CAAAAAAAGA TCTCCGTGTC
CATTTAAAAA TGGTGGATAG TTTCCATCGA ACAAGTTTAC AATATGGAAT TATGTGCTTA
AAGAGGTTGA ATTATGACAG AAAAGAACTA GAAAGAAGAC GGGAAGCAAG CCAACATGAA
ATAAAAGACG TGTTGGTGTG GAGCAATGAC CGAGTTATTC GCTGGATACA AGCAATTGGA
CTTCGAGAAT ATGCAAATAA TATACTTGAG AGCGGTGTGC ATGGCTCACT TATAGCCCTG
GATGAAAACT TTGACTACAG CAGCTTAGCT TTATTATTAC AGATTCCAAC ACAGAACACC
CAGGCAAGGC AGATTCTTGA AAGAGAATAC AATAACCTCT TGGCCCTGGG AACTGAAAGG
CGACTGGATG AAAGTGATGA CAAGAACTTC AGACGTGGAT CAACCTGGAG AAGGCAGTTT
CCTCCTCGTG AAGTACATGG AATCAGCATG ATGCCTGGGT CCTCAGAAAC ATTACCAGCT
GGATTTAGGT TAACCACAAC CTCTGGGCAG TCAAGAAAAA TGACAACAGA TGATGGCGTC
TTTTCAGTCT ACTCTACCTA A

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

RefSeq XP_016875592.1
CDS293..3973
Translation

Target ORF information:

RefSeq Version XM_017020103.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X25, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020103.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGTGTCC GGTTTTTCTA CAGACCCTGG CTTATGGAGA TATGAATCAT
GAGTGGATTG GAAATGAATG GCTTCCCAGC TTGGGGTTAC CTCAGTACAG AAGTTACTTT
ATGGAATGCT TGGTAGATGC AAGAATGTTA GATCACCTAA CAAAAAAAGA TCTCCGTGTC
CATTTAAAAA TGGTGGATAG TTTCCATCGA ACAAGTTTAC AATATGGAAT TATGTGCTTA
AAGAGGTTGA ATTATGACAG AAAAGAACTA GAAAGAAGAC GGGAAGCAAG CCAACATGAA
ATAAAAGACG TGTTGGTGTG GAGCAATGAC CGAGTTATTC GCTGGATACA AGCAATTGGA
CTTCGAGAAT ATGCAAATAA TATACTTGAG AGCGGTGTGC ATGGCTCACT TATAGCCCTG
GATGAAAACT TTGACTACAG CAGCTTAGCT TTATTATTAC AGATTCCAAC ACAGAACACC
CAGGCAAGGC AGATTCTTGA AAGAGAATAC AATAACCTCT TGGCCCTGGG AACTGAAAGG
CGACTGGATG AAAGTGATGA CAAGAACTTC AGACGTGGAT CAACCTGGAG AAGGCAGTTT
CCTCCTCGTG AAGTACATGG AATCAGCATG ATGCCTGGGT CCTCAGAAAC ATTACCAGCT
GGATTTAGGT TAACCACAAC CTCTGGGCAG TCAAGAAAAA TGACAACAGA TGATGGCGTC
TTTTCAGTCT ACTCTACCTA A

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

CloneID OHu84247
Clone ID Related Accession (Same CDS sequence) XM_017020104.1
Accession Version XM_017020104.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3672bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X25
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

RefSeq XP_016875593.1
CDS293..3964
Translation

Target ORF information:

RefSeq Version XM_017020104.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X26, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020104.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

CloneID OHu84248
Clone ID Related Accession (Same CDS sequence) XM_017020105.1
Accession Version XM_017020105.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3669bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X26
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGTGTCCGG TTTTTCTACA GACCCTGGCT TATGGAGATA TGAATCATGA GTGGATTGGA
AATGAATGGC TTCCCAGCTT GGGGTTACCT CAGTACAGAA GTTACTTTAT GGAATGCTTG
GTAGATGCAA GAATGTTAGA TCACCTAACA AAAAAAGATC TCCGTGTCCA TTTAAAAATG
GTGGATAGTT TCCATCGAAC AAGTTTACAA TATGGAATTA TGTGCTTAAA GAGGTTGAAT
TATGACAGAA AAGAACTAGA AAGAAGACGG GAAGCAAGCC AACATGAAAT AAAAGACGTG
TTGGTGTGGA GCAATGACCG AGTTATTCGC TGGATACAAG CAATTGGACT TCGAGAATAT
GCAAATAATA TACTTGAGAG CGGTGTGCAT GGCTCACTTA TAGCCCTGGA TGAAAACTTT
GACTACAGCA GCTTAGCTTT ATTATTACAG ATTCCAACAC AGAACACCCA GGCAAGGCAG
ATTCTTGAAA GAGAATACAA TAACCTCTTG GCCCTGGGAA CTGAAAGGCG ACTGGATGAA
AGTGATGACA AGAACTTCAG ACGTGGATCA ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA
GTACATGGAA TCAGCATGAT GCCTGGGTCC TCAGAAACAT TACCAGCTGG ATTTAGGTTA
ACCACAACCT CTGGGCAGTC AAGAAAAATG ACAACAGATG ATGGCGTCTT TTCAGTCTAC
TCTACCTAA

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

RefSeq XP_016875594.1
CDS293..3961
Translation

Target ORF information:

RefSeq Version XM_017020105.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X27, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020105.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG ATTGTTGCCT TGCGTGAACA AAATGTTCAT
ATACAAAGAA AAATGGCATC AAGCGAGGGA TCCACAGAGT CAGAACATCT TGAAGGGATG
GAACCTGGAC AGAAAGTCCA TGAGAAGCGT TTGTCCAATG GTTCTATAGA CTCAACCGAT
GAAACTAGTC AAATAGTTGA ACTACAAGAA TTGCTTGAAA AGCAAAACTA TGAAATGGCC
CAGATGAAAG AACGTTTAGC AGCCCTTTCT TCCCGAGTGG GAGAGGTGGA ACAGGAAGCA
GAGACAGCAA GAAAGGATCT CATTAAAACA GAAGAAATGA ACACCAAGTA TCAAAGGGAC
ATTAGGGAGG CCATGGCACA AAAGGAAGAT ATGGAAGAAA GAATTACAAC CCTTGAAAAG
CGTTACCTCA GTGCTCAGAG AGAATCTACC TCCATACATG ACATGAATGA TAAACTAGAA
AATGAGTTAG CAAATAAAGA AGCTATCCTG CGGCAGATGG AAGAGAAAAA CAGACAGTTA
CAAGAACGTC TTGAGCTAGC TGAACAAAAG TTGCAGCAGA CCATGAGAAA GGCTGAAACC
TTGCCTGAAG TAGAGGCTGA ACTGGCTCAG AGAATTGCAG CCCTAACCAA GGCTGAAGAG
AGACATGGAA ATATTGAAGA ACGTATGAGA CATTTAGAGG GTCAACTTGA AGAGAAGAAT
CAAGAACTTC AAAGAGCTAG GCAAAGAGAG AAAATGAATG AGGAGCATAA CAAGAGATTA
TCGGATACGG TTGATAGACT TCTGACTGAA TCCAATGAAC GCCTACAACT ACACTTAAAG
GAAAGAATGG CTGCTCTAGA AGAAAAGAAT GTTTTAATTC AAGAATCAGA AACTTTCAGA
AAGAATCTTG AAGAATCTTT ACATGATAAG GAAAGATTAG CAGAAGAAAT TGAAAAGCTG
AGATCTGAAC TTGACCAATT GAAAATGAGA ACTGGCTCTT TAATTGAACC CACAATACCA
AGAACTCATC TAGACACCTC AGCTGAGTTG CGGTACTCAG TGGGATCCCT AGTGGACAGC
CAGTCTGATT ACAGAACAAC TAAAGTAATA AGAAGACCAA GGAGAGGCCG CATGGGTGTG
CGAAGAGATG AGCCAAAGGT GAAATCTCTT GGGGATCACG AGTGGAATAG AACTCAACAG
ATTGGAGTAC TAAGCAGCCA CCCTTTTGAA AGTGACACTG AAATGTCTGA TATTGATGAT
GATGACAGAG AAACAATTTT TAGCTCAATG GATCTTCTCT CTCCAAGTGG TCATTCCGAT
GCCCAGACGC TAGCCATGAT GCTTCAGGAA CAATTGGATG CCATCAACAA AGAAATCAGG
CTAATTCAGG AAGAAAAAGA ATCTACAGAG TTGCGTGCTG AAGAAATTGA AAATAGAGTG
GCTAGTGTGA GCCTCGAAGG CCTGAATTTG GCAAGGGTCC ACCCAGGTAC CTCCATTACT
GCCTCTGTTA CAGCTTCATC GCTGGCCAGT TCATCTCCCC CCAGTGGACA CTCAACTCCA
AAGCTCACCC CTCGAAGCCC TGCCAGGGAA ATGGATCGGA TGGGAGTCAT GACACTGCCA
AGTGATCTGA GGAAACATCG GAGAAAGATT GCAGTTGTGG AAGAAGATGG TCGAGAGGAC
AAAGCAACAA TTAAATGTGA AACTTCTCCT CCTCCTACCC CTAGAGCCCT CAGAATGACT
CACACTCTCC CTTCTTCCTA CCACAATGAT GCTCGAAGTA GTTTATCTGT CTCTCTTGAG
CCAGAAAGCC TCGGGCTTGG TAGTGCCAAC AGCAGCCAAG ACTCTCTTCA CAAAGCCCCC
AAGAAGAAAG GAATCAAGTC TTCAATAGGA CGTTTGTTTG GTAAAAAAGA AAAAGCTCGA
CTTGGGCAGC TCCGAGGCTT TATGGAGACT GAAGCTGCAG CTCAGGAGTC CCTGGGGTTA
GGCAAACTCG GAACTCAAGC TGAGAAGGAT CGAAGACTAA AGAAAAAGCA TGAACTTCTT
GAAGAAGCTC GGAGAAAGGG ATTACCTTTT GCCCAGTGGG ATGGGCCAAC TGTGGTCGCA
TGGCTAGAGC TTTGGTTGGG AATGCCTGCG TGGTACGTGG CAGCCTGCCG AGCCAACGTG
AAGAGTGGTG CCATCATGTC TGCTTTATCT GACACTGAGA TCCAGAGAGA AATTGGAATC
AGCAATCCAC TGCATCGCTT AAAACTTCGA TTAGCAATCC AGGAGATGGT TTCCCTAACA
AGTCCTTCAG CTCCTCCAAC ATCTCGAACT CCTTCAGGCA ACGTTTGGGT GACTCATGAA
GAAATGGAAA ATCTTGCAGC TCCAGCAAAA ACGAAAGAAT CTGAGGAAGG AAGCTGGGCC
CAGTGTCCGG TTTTTCTACA GACCCTGGCT TATGGAGATA TGAATCATGA GTGGATTGGA
AATGAATGGC TTCCCAGCTT GGGGTTACCT CAGTACAGAA GTTACTTTAT GGAATGCTTG
GTAGATGCAA GAATGTTAGA TCACCTAACA AAAAAAGATC TCCGTGTCCA TTTAAAAATG
GTGGATAGTT TCCATCGAAC AAGTTTACAA TATGGAATTA TGTGCTTAAA GAGGTTGAAT
TATGACAGAA AAGAACTAGA AAGAAGACGG GAAGCAAGCC AACATGAAAT AAAAGACGTG
TTGGTGTGGA GCAATGACCG AGTTATTCGC TGGATACAAG CAATTGGACT TCGAGAATAT
GCAAATAATA TACTTGAGAG CGGTGTGCAT GGCTCACTTA TAGCCCTGGA TGAAAACTTT
GACTACAGCA GCTTAGCTTT ATTATTACAG ATTCCAACAC AGAACACCCA GGCAAGGCAG
ATTCTTGAAA GAGAATACAA TAACCTCTTG GCCCTGGGAA CTGAAAGGCG ACTGGATGAA
AGTGATGACA AGAACTTCAG ACGTGGATCA ACCTGGAGAA GGCAGTTTCC TCCTCGTGAA
GTACATGGAA TCAGCATGAT GCCTGGGTCC TCAGAAACAT TACCAGCTGG ATTTAGGTTA
ACCACAACCT CTGGGCAGTC AAGAAAAATG ACAACAGATG ATGGCGTCTT TTCAGTCTAC
TCTACCTAA

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

CloneID OHu84249
Clone ID Related Accession (Same CDS sequence) XM_017020106.1
Accession Version XM_017020106.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X27
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGTTGCTT CATCAAGACT GCAGAGGTTA GACAACTCCA CTGTTCGCAC ATACTCATGT
TGA

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

RefSeq XP_016875595.1
CDS293..3955
Translation

Target ORF information:

RefSeq Version XM_017020106.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X28, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020106.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGTTGCTT CATCAAGACT GCAGAGGTTA GACAACTCCA CTGTTCGCAC ATACTCATGT
TGA

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

CloneID OHu84250
Clone ID Related Accession (Same CDS sequence) XM_017020107.1
Accession Version XM_017020107.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3663bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X28
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGATGGCG TCTTTTCAGT CTACTCTACC
TAA

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

RefSeq XP_016875596.1
CDS146..3808
Translation

Target ORF information:

RefSeq Version XM_017020107.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X29, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020107.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTAAAGA ATCTGAGGAA
GGAAGCTGGG CCCAGACCCT GGCTTATGGA GATATGAATC ATGAGTGGAT TGGAAATGAA
TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC AGAAGTTACT TTATGGAATG CTTGGTAGAT
GCAAGAATGT TAGATCACCT AACAAAAAAA GATCTCCGTG TCCATTTAAA AATGGTGGAT
AGTTTCCATC GAACAAGTTT ACAATATGGA ATTATGTGCT TAAAGAGGTT GAATTATGAC
AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA AGCCAACATG AAATAAAAGA CGTGTTGGTG
TGGAGCAATG ACCGAGTTAT TCGCTGGATA CAAGCAATTG GACTTCGAGA ATATGCAAAT
AATATACTTG AGAGCGGTGT GCATGGCTCA CTTATAGCCC TGGATGAAAA CTTTGACTAC
AGCAGCTTAG CTTTATTATT ACAGATTCCA ACACAGAACA CCCAGGCAAG GCAGATTCTT
GAAAGAGAAT ACAATAACCT CTTGGCCCTG GGAACTGAAA GGCGACTGGA TGAAAGTGAT
GACAAGAACT TCAGACGTGG ATCAACCTGG AGAAGGCAGT TTCCTCCTCG TGAAGTACAT
GGAATCAGCA TGATGCCTGG GTCCTCAGAA ACATTACCAG CTGGATTTAG GTTAACCACA
ACCTCTGGGC AGTCAAGAAA AATGACAACA GATGATGGCG TCTTTTCAGT CTACTCTACC
TAA

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

CloneID OHu84251
Clone ID Related Accession (Same CDS sequence) XM_017020108.1
Accession Version XM_017020108.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3660bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X29
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTTGTCCG
GTTTTTCTAC AGACCCTGGC TTATGGAGAT ATGAATCATG AGTGGATTGG AAATGAATGG
CTTCCCAGCT TGGGGTTACC TCAGTACAGA AGTTACTTTA TGGAATGCTT GGTAGATGCA
AGAATGTTAG ATCACCTAAC AAAAAAAGAT CTCCGTGTCC ATTTAAAAAT GGTGGATAGT
TTCCATCGAA CAAGTTTACA ATATGGAATT ATGTGCTTAA AGAGGTTGAA TTATGACAGA
AAAGAACTAG AAAGAAGACG GGAAGCAAGC CAACATGAAA TAAAAGACGT GTTGGTGTGG
AGCAATGACC GAGTTATTCG CTGGATACAA GCAATTGGAC TTCGAGAATA TGCAAATAAT
ATACTTGAGA GCGGTGTGCA TGGCTCACTT ATAGCCCTGG ATGAAAACTT TGACTACAGC
AGCTTAGCTT TATTATTACA GATTCCAACA CAGAACACCC AGGCAAGGCA GATTCTTGAA
AGAGAATACA ATAACCTCTT GGCCCTGGGA ACTGAAAGGC GACTGGATGA AAGTGATGAC
AAGAACTTCA GACGTGGATC AACCTGGAGA AGGCAGTTTC CTCCTCGTGA AGTACATGGA
ATCAGCATGA TGCCTGGGTC CTCAGAAACA TTACCAGCTG GATTTAGGTT AACCACAACC
TCTGGGCAGT CAAGAAAAAT GACAACAGAT GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

RefSeq XP_016875597.1
CDS146..3805
Translation

Target ORF information:

RefSeq Version XM_017020108.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X30, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020108.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AACACATCTG GGCATGAACT TCTTGAAGAA GCTCGGAGAA AGGGATTACC TTTTGCCCAG
TGGGATGGGC CAACTGTGGT CGCATGGCTA GAGCTTTGGT TGGGAATGCC TGCGTGGTAC
GTGGCAGCCT GCCGAGCCAA CGTGAAGAGT GGTGCCATCA TGTCTGCTTT ATCTGACACT
GAGATCCAGA GAGAAATTGG AATCAGCAAT CCACTGCATC GCTTAAAACT TCGATTAGCA
ATCCAGGAGA TGGTTTCCCT AACAAGTCCT TCAGCTCCTC CAACATCTCG AACTTGTCCG
GTTTTTCTAC AGACCCTGGC TTATGGAGAT ATGAATCATG AGTGGATTGG AAATGAATGG
CTTCCCAGCT TGGGGTTACC TCAGTACAGA AGTTACTTTA TGGAATGCTT GGTAGATGCA
AGAATGTTAG ATCACCTAAC AAAAAAAGAT CTCCGTGTCC ATTTAAAAAT GGTGGATAGT
TTCCATCGAA CAAGTTTACA ATATGGAATT ATGTGCTTAA AGAGGTTGAA TTATGACAGA
AAAGAACTAG AAAGAAGACG GGAAGCAAGC CAACATGAAA TAAAAGACGT GTTGGTGTGG
AGCAATGACC GAGTTATTCG CTGGATACAA GCAATTGGAC TTCGAGAATA TGCAAATAAT
ATACTTGAGA GCGGTGTGCA TGGCTCACTT ATAGCCCTGG ATGAAAACTT TGACTACAGC
AGCTTAGCTT TATTATTACA GATTCCAACA CAGAACACCC AGGCAAGGCA GATTCTTGAA
AGAGAATACA ATAACCTCTT GGCCCTGGGA ACTGAAAGGC GACTGGATGA AAGTGATGAC
AAGAACTTCA GACGTGGATC AACCTGGAGA AGGCAGTTTC CTCCTCGTGA AGTACATGGA
ATCAGCATGA TGCCTGGGTC CTCAGAAACA TTACCAGCTG GATTTAGGTT AACCACAACC
TCTGGGCAGT CAAGAAAAAT GACAACAGAT GATGGCGTCT TTTCAGTCTA CTCTACCTAA

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

CloneID OHu84252
Clone ID Related Accession (Same CDS sequence) XM_017020109.1
Accession Version XM_017020109.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3651bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X30
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTTGTCC GGTTTTTCTA
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGATGGCGTC TTTTCAGTCT ACTCTACCTA A

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

RefSeq XP_016875598.1
CDS293..3943
Translation

Target ORF information:

RefSeq Version XM_017020109.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X31, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020109.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTTGTCC GGTTTTTCTA
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGATGGCGTC TTTTCAGTCT ACTCTACCTA A

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

CloneID OHu84253
Clone ID Related Accession (Same CDS sequence) XM_017020110.1
Accession Version XM_017020110.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X31
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGATTG TTGCCTTGCG TGAACAAAAT
GTTCATATAC AAAGAAAAAT GGCATCAAGC GAGGGATCCA CAGAGTCAGA ACATCTTGAA
GGGATGGAAC CTGGACAGAA AGTCCATGAG AAGCGTTTGT CCAATGGTTC TATAGACTCA
ACCGATGAAA CTAGTCAAAT AGTTGAACTA CAAGAATTGC TTGAAAAGCA AAACTATGAA
ATGGCCCAGA TGAAAGAACG TTTAGCAGCC CTTTCTTCCC GAGTGGGAGA GGTGGAACAG
GAAGCAGAGA CAGCAAGAAA GGATCTCATT AAAACAGAAG AAATGAACAC CAAGTATCAA
AGGGACATTA GGGAGGCCAT GGCACAAAAG GAAGATATGG AAGAAAGAAT TACAACCCTT
GAAAAGCGTT ACCTCAGTGC TCAGAGAGAA TCTACCTCCA TACATGACAT GAATGATAAA
CTAGAAAATG AGTTAGCAAA TAAAGAAGCT ATCCTGCGGC AGATGGAAGA GAAAAACAGA
CAGTTACAAG AACGTCTTGA GCTAGCTGAA CAAAAGTTGC AGCAGACCAT GAGAAAGGCT
GAAACCTTGC CTGAAGTAGA GGCTGAACTG GCTCAGAGAA TTGCAGCCCT AACCAAGGCT
GAAGAGAGAC ATGGAAATAT TGAAGAACGT ATGAGACATT TAGAGGGTCA ACTTGAAGAG
AAGAATCAAG AACTTCAAAG AGCTAGGCAA AGAGAGAAAA TGAATGAGGA GCATAACAAG
AGATTATCGG ATACGGTTGA TAGACTTCTG ACTGAATCCA ATGAACGCCT ACAACTACAC
TTAAAGGAAA GAATGGCTGC TCTAGAAGAA AAGAATGTTT TAATTCAAGA ATCAGAAACT
TTCAGAAAGA ATCTTGAAGA ATCTTTACAT GATAAGGAAA GATTAGCAGA AGAAATTGAA
AAGCTGAGAT CTGAACTTGA CCAATTGAAA ATGAGAACTG GCTCTTTAAT TGAACCCACA
ATACCAAGAA CTCATCTAGA CACCTCAGCT GAGTTGCGGT ACTCAGTGGG ATCCCTAGTG
GACAGCCAGT CTGATTACAG AACAACTAAA GTAATAAGAA GACCAAGGAG AGGCCGCATG
GGTGTGCGAA GAGATGAGCC AAAGGTGAAA TCTCTTGGGG ATCACGAGTG GAATAGAACT
CAACAGATTG GAGTACTAAG CAGCCACCCT TTTGAAAGTG ACACTGAAAT GTCTGATATT
GATGATGATG ACAGAGAAAC AATTTTTAGC TCAATGGATC TTCTCTCTCC AAGTGGTCAT
TCCGATGCCC AGACGCTAGC CATGATGCTT CAGGAACAAT TGGATGCCAT CAACAAAGAA
ATCAGGCTAA TTCAGGAAGA AAAAGAATCT ACAGAGTTGC GTGCTGAAGA AATTGAAAAT
AGAGTGGCTA GTGTGAGCCT CGAAGGCCTG AATTTGGCAA GGGTCCACCC AGGTACCTCC
ATTACTGCCT CTGTTACAGC TTCATCGCTG GCCAGTTCAT CTCCCCCCAG TGGACACTCA
ACTCCAAAGC TCACCCCTCG AAGCCCTGCC AGGGAAATGG ATCGGATGGG AGTCATGACA
CTGCCAAGTG ATCTGAGGAA ACATCGGAGA AAGATTGCAG TTGTGGAAGA AGATGGTCGA
GAGGACAAAG CAACAATTAA ATGTGAAACT TCTCCTCCTC CTACCCCTAG AGCCCTCAGA
ATGACTCACA CTCTCCCTTC TTCCTACCAC AATGATGCTC GAAGTAGTTT ATCTGTCTCT
CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT GCCAACAGCA GCCAAGACTC TCTTCACAAA
GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA ATAGGACGTT TGTTTGGTAA AAAAGAAAAA
GCTCGACTTG GGCAGCTCCG AGGCTTTATG GAGACTGAAG CTGCAGCTCA GGAGTCCCTG
GGGTTAGGCA AACTCGGAAC TCAAGCTGAG AAGGATCGAA GACTAAAGAA AAAGCATGAA
CTTCTTGAAG AAGCTCGGAG AAAGGGATTA CCTTTTGCCC AGTGGGATGG GCCAACTGTG
GTCGCATGGC TAGAGCTTTG GTTGGGAATG CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC
AACGTGAAGA GTGGTGCCAT CATGTCTGCT TTATCTGACA CTGAGATCCA GAGAGAAATT
GGAATCAGCA ATCCACTGCA TCGCTTAAAA CTTCGATTAG CAATCCAGGA GATGGTTTCC
CTAACAAGTC CTTCAGCTCC TCCAACATCT CGAACTCCTT CAGGCAACGT TTGGGTGACT
CATGAAGAAA TGGAAAATCT TGCAGCTCCA GCAAAAACGA AAGAATCTGA GGAAGGAAGC
TGGGCCCAGT GTCCGGTTTT TCTACAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGTTGC TTCATCAAGA
CTGCAGAGGT TAGACAACTC CACTGTTCGC ACATACTCAT GTTGA

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

RefSeq XP_016875599.1
CDS580..4224
Translation

Target ORF information:

RefSeq Version XM_017020110.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X32, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020110.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG AATTTGCTGC ACTGACAAAA GAATTAAATG CCTGCAGGGA ACAACTTCTA
GAAAAGGAAG AAGAAATCTC TGAACTTAAA GCTGAAAGAA ACAACACAAG ACTATTACTG
GAGCATTTGG AGTGCCTTGT GTCACGACAT GAAAGATCAC TAAGAATGAC GGTGGTAAAA
CGGCAAGCCC AGTCTCCCTC AGGAGTATCC AGTGAAGTTG AAGTTCTCAA GGCACTGAAA
TCTTTGTTTG AGCACCACAA GGCCTTGGAT GAAAAGATTG TTGCCTTGCG TGAACAAAAT
GTTCATATAC AAAGAAAAAT GGCATCAAGC GAGGGATCCA CAGAGTCAGA ACATCTTGAA
GGGATGGAAC CTGGACAGAA AGTCCATGAG AAGCGTTTGT CCAATGGTTC TATAGACTCA
ACCGATGAAA CTAGTCAAAT AGTTGAACTA CAAGAATTGC TTGAAAAGCA AAACTATGAA
ATGGCCCAGA TGAAAGAACG TTTAGCAGCC CTTTCTTCCC GAGTGGGAGA GGTGGAACAG
GAAGCAGAGA CAGCAAGAAA GGATCTCATT AAAACAGAAG AAATGAACAC CAAGTATCAA
AGGGACATTA GGGAGGCCAT GGCACAAAAG GAAGATATGG AAGAAAGAAT TACAACCCTT
GAAAAGCGTT ACCTCAGTGC TCAGAGAGAA TCTACCTCCA TACATGACAT GAATGATAAA
CTAGAAAATG AGTTAGCAAA TAAAGAAGCT ATCCTGCGGC AGATGGAAGA GAAAAACAGA
CAGTTACAAG AACGTCTTGA GCTAGCTGAA CAAAAGTTGC AGCAGACCAT GAGAAAGGCT
GAAACCTTGC CTGAAGTAGA GGCTGAACTG GCTCAGAGAA TTGCAGCCCT AACCAAGGCT
GAAGAGAGAC ATGGAAATAT TGAAGAACGT ATGAGACATT TAGAGGGTCA ACTTGAAGAG
AAGAATCAAG AACTTCAAAG AGCTAGGCAA AGAGAGAAAA TGAATGAGGA GCATAACAAG
AGATTATCGG ATACGGTTGA TAGACTTCTG ACTGAATCCA ATGAACGCCT ACAACTACAC
TTAAAGGAAA GAATGGCTGC TCTAGAAGAA AAGAATGTTT TAATTCAAGA ATCAGAAACT
TTCAGAAAGA ATCTTGAAGA ATCTTTACAT GATAAGGAAA GATTAGCAGA AGAAATTGAA
AAGCTGAGAT CTGAACTTGA CCAATTGAAA ATGAGAACTG GCTCTTTAAT TGAACCCACA
ATACCAAGAA CTCATCTAGA CACCTCAGCT GAGTTGCGGT ACTCAGTGGG ATCCCTAGTG
GACAGCCAGT CTGATTACAG AACAACTAAA GTAATAAGAA GACCAAGGAG AGGCCGCATG
GGTGTGCGAA GAGATGAGCC AAAGGTGAAA TCTCTTGGGG ATCACGAGTG GAATAGAACT
CAACAGATTG GAGTACTAAG CAGCCACCCT TTTGAAAGTG ACACTGAAAT GTCTGATATT
GATGATGATG ACAGAGAAAC AATTTTTAGC TCAATGGATC TTCTCTCTCC AAGTGGTCAT
TCCGATGCCC AGACGCTAGC CATGATGCTT CAGGAACAAT TGGATGCCAT CAACAAAGAA
ATCAGGCTAA TTCAGGAAGA AAAAGAATCT ACAGAGTTGC GTGCTGAAGA AATTGAAAAT
AGAGTGGCTA GTGTGAGCCT CGAAGGCCTG AATTTGGCAA GGGTCCACCC AGGTACCTCC
ATTACTGCCT CTGTTACAGC TTCATCGCTG GCCAGTTCAT CTCCCCCCAG TGGACACTCA
ACTCCAAAGC TCACCCCTCG AAGCCCTGCC AGGGAAATGG ATCGGATGGG AGTCATGACA
CTGCCAAGTG ATCTGAGGAA ACATCGGAGA AAGATTGCAG TTGTGGAAGA AGATGGTCGA
GAGGACAAAG CAACAATTAA ATGTGAAACT TCTCCTCCTC CTACCCCTAG AGCCCTCAGA
ATGACTCACA CTCTCCCTTC TTCCTACCAC AATGATGCTC GAAGTAGTTT ATCTGTCTCT
CTTGAGCCAG AAAGCCTCGG GCTTGGTAGT GCCAACAGCA GCCAAGACTC TCTTCACAAA
GCCCCCAAGA AGAAAGGAAT CAAGTCTTCA ATAGGACGTT TGTTTGGTAA AAAAGAAAAA
GCTCGACTTG GGCAGCTCCG AGGCTTTATG GAGACTGAAG CTGCAGCTCA GGAGTCCCTG
GGGTTAGGCA AACTCGGAAC TCAAGCTGAG AAGGATCGAA GACTAAAGAA AAAGCATGAA
CTTCTTGAAG AAGCTCGGAG AAAGGGATTA CCTTTTGCCC AGTGGGATGG GCCAACTGTG
GTCGCATGGC TAGAGCTTTG GTTGGGAATG CCTGCGTGGT ACGTGGCAGC CTGCCGAGCC
AACGTGAAGA GTGGTGCCAT CATGTCTGCT TTATCTGACA CTGAGATCCA GAGAGAAATT
GGAATCAGCA ATCCACTGCA TCGCTTAAAA CTTCGATTAG CAATCCAGGA GATGGTTTCC
CTAACAAGTC CTTCAGCTCC TCCAACATCT CGAACTCCTT CAGGCAACGT TTGGGTGACT
CATGAAGAAA TGGAAAATCT TGCAGCTCCA GCAAAAACGA AAGAATCTGA GGAAGGAAGC
TGGGCCCAGT GTCCGGTTTT TCTACAGACC CTGGCTTATG GAGATATGAA TCATGAGTGG
ATTGGAAATG AATGGCTTCC CAGCTTGGGG TTACCTCAGT ACAGAAGTTA CTTTATGGAA
TGCTTGGTAG ATGCAAGAAT GTTAGATCAC CTAACAAAAA AAGATCTCCG TGTCCATTTA
AAAATGGTGG ATAGTTTCCA TCGAACAAGT TTACAATATG GAATTATGTG CTTAAAGAGG
TTGAATTATG ACAGAAAAGA ACTAGAAAGA AGACGGGAAG CAAGCCAACA TGAAATAAAA
GACGTGTTGG TGTGGAGCAA TGACCGAGTT ATTCGCTGGA TACAAGCAAT TGGACTTCGA
GAATATGCAA ATAATATACT TGAGAGCGGT GTGCATGGCT CACTTATAGC CCTGGATGAA
AACTTTGACT ACAGCAGCTT AGCTTTATTA TTACAGATTC CAACACAGAA CACCCAGGCA
AGGCAGATTC TTGAAAGAGA ATACAATAAC CTCTTGGCCC TGGGAACTGA AAGGCGACTG
GATGAAAGTG ATGACAAGAA CTTCAGACGT GGATCAACCT GGAGAAGGCA GTTTCCTCCT
CGTGAAGTAC ATGGAATCAG CATGATGCCT GGGTCCTCAG AAACATTACC AGCTGGATTT
AGGTTAACCA CAACCTCTGG GCAGTCAAGA AAAATGACAA CAGATGTTGC TTCATCAAGA
CTGCAGAGGT TAGACAACTC CACTGTTCGC ACATACTCAT GTTGA

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

CloneID OHu84254
Clone ID Related Accession (Same CDS sequence) XM_017020111.1
Accession Version XM_017020111.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X32
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGATGGCG TCTTTTCAGT CTACTCTACC TAA

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

RefSeq XP_016875600.1
CDS293..3925
Translation

Target ORF information:

RefSeq Version XM_017020111.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X33, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020111.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGATGTGTG AAGTGATGCC CACGATTAAT GAGGACACCC CAATGAGCCA AAGGGGGTCC 
CAAAGCAGTG GCTCGGACTC AGACTCCCAT TTTGAGCAGC TGATGGTGAA TATGCTAGAT
GAAAGGGATC GTCTTCTAGA CACCCTTCGG GAGACCCAGG AAAGCCTCTC ACTTGCCCAG
CAAAGACTTC AGGATGTCAT CTATGACCGA GACTCACTCC AGAGACAGCT CAATTCAGCC
CTGCCACAGG ATATCGAATC CCTAACAGGA GGGCTGGCTG GTTCTAAGGG GGCTGATCCA
CCGGAATTTG CTGCACTGAC AAAAGAATTA AATGCCTGCA GGGAACAACT TCTAGAAAAG
GAAGAAGAAA TCTCTGAACT TAAAGCTGAA AGAAACAACA CAAGACTATT ACTGGAGCAT
TTGGAGTGCC TTGTGTCACG ACATGAAAGA TCACTAAGAA TGACGGTGGT AAAACGGCAA
GCCCAGTCTC CCTCAGGAGT ATCCAGTGAA GTTGAAGTTC TCAAGGCACT GAAATCTTTG
TTTGAGCACC ACAAGGCCTT GGATGAAAAG GTAAGGGAGC GACTGAGGGT TTCTTTAGAA
AGAGTCTCTG CACTGGAAGA AGAACTAGCT GCTGCTAATC AGGAGATTGT TGCCTTGCGT
GAACAAAATG TTCATATACA AAGAAAAATG GCATCAAGCG AGGGATCCAC AGAGTCAGAA
CATCTTGAAG GGATGGAACC TGGACAGAAA GTCCATGAGA AGCGTTTGTC CAATGGTTCT
ATAGACTCAA CCGATGAAAC TAGTCAAATA GTTGAACTAC AAGAATTGCT TGAAAAGCAA
AACTATGAAA TGGCCCAGAT GAAAGAACGT TTAGCAGCCC TTTCTTCCCG AGTGGGAGAG
GTGGAACAGG AAGCAGAGAC AGCAAGAAAG GATCTCATTA AAACAGAAGA AATGAACACC
AAGTATCAAA GGGACATTAG GGAGGCCATG GCACAAAAGG AAGATATGGA AGAAAGAATT
ACAACCCTTG AAAAGCGTTA CCTCAGTGCT CAGAGAGAAT CTACCTCCAT ACATGACATG
AATGATAAAC TAGAAAATGA GTTAGCAAAT AAAGAAGCTA TCCTGCGGCA GATGGAAGAG
AAAAACAGAC AGTTACAAGA ACGTCTTGAG CTAGCTGAAC AAAAGTTGCA GCAGACCATG
AGAAAGGCTG AAACCTTGCC TGAAGTAGAG GCTGAACTGG CTCAGAGAAT TGCAGCCCTA
ACCAAGGCTG AAGAGAGACA TGGAAATATT GAAGAACGTA TGAGACATTT AGAGGGTCAA
CTTGAAGAGA AGAATCAAGA ACTTCAAAGA GCTAGGCAAA GAGAGAAAAT GAATGAGGAG
CATAACAAGA GATTATCGGA TACGGTTGAT AGACTTCTGA CTGAATCCAA TGAACGCCTA
CAACTACACT TAAAGGAAAG AATGGCTGCT CTAGAAGAAA AGAATGTTTT AATTCAAGAA
TCAGAAACTT TCAGAAAGAA TCTTGAAGAA TCTTTACATG ATAAGGAAAG ATTAGCAGAA
GAAATTGAAA AGCTGAGATC TGAACTTGAC CAATTGAAAA TGAGAACTGG CTCTTTAATT
GAACCCACAA TACCAAGAAC TCATCTAGAC ACCTCAGCTG AGTTGCGGTA CTCAGTGGGA
TCCCTAGTGG ACAGCCAGTC TGATTACAGA ACAACTAAAG TAATAAGAAG ACCAAGGAGA
GGCCGCATGG GTGTGCGAAG AGATGAGCCA AAGGTGAAAT CTCTTGGGGA TCACGAGTGG
AATAGAACTC AACAGATTGG AGTACTAAGC AGCCACCCTT TTGAAAGTGA CACTGAAATG
TCTGATATTG ATGATGATGA CAGAGAAACA ATTTTTAGCT CAATGGATCT TCTCTCTCCA
AGTGGTCATT CCGATGCCCA GACGCTAGCC ATGATGCTTC AGGAACAATT GGATGCCATC
AACAAAGAAA TCAGGCTAAT TCAGGAAGAA AAAGAATCTA CAGAGTTGCG TGCTGAAGAA
ATTGAAAATA GAGTGGCTAG TGTGAGCCTC GAAGGCCTGA ATTTGGCAAG GGTCCACCCA
GGTACCTCCA TTACTGCCTC TGTTACAGCT TCATCGCTGG CCAGTTCATC TCCCCCCAGT
GGACACTCAA CTCCAAAGCT CACCCCTCGA AGCCCTGCCA GGGAAATGGA TCGGATGGGA
GTCATGACAC TGCCAAGTGA TCTGAGGAAA CATCGGAGAA AGATTGCAGT TGTGGAAGAA
GATGGTCGAG AGGACAAAGC AACAATTAAA TGTGAAACTT CTCCTCCTCC TACCCCTAGA
GCCCTCAGAA TGACTCACAC TCTCCCTTCT TCCTACCACA ATGATGCTCG AAGTAGTTTA
TCTGTCTCTC TTGAGCCAGA AAGCCTCGGG CTTGGTAGTG CCAACAGCAG CCAAGACTCT
CTTCACAAAG CCCCCAAGAA GAAAGGAATC AAGTCTTCAA TAGGACGTTT GTTTGGTAAA
AAAGAAAAAG CTCGACTTGG GCAGCTCCGA GGCTTTATGG AGACTGAAGC TGCAGCTCAG
GAGTCCCTGG GGTTAGGCAA ACTCGGAACT CAAGCTGAGA AGGATCGAAG ACTAAAGAAA
AAGCATGAAC TTCTTGAAGA AGCTCGGAGA AAGGGATTAC CTTTTGCCCA GTGGGATGGG
CCAACTGTGG TCGCATGGCT AGAGCTTTGG TTGGGAATGC CTGCGTGGTA CGTGGCAGCC
TGCCGAGCCA ACGTGAAGAG TGGTGCCATC ATGTCTGCTT TATCTGACAC TGAGATCCAG
AGAGAAATTG GAATCAGCAA TCCACTGCAT CGCTTAAAAC TTCGATTAGC AATCCAGGAG
ATGGTTTCCC TAACAAGTCC TTCAGCTCCT CCAACATCTC GAACTACCCT GGCTTATGGA
GATATGAATC ATGAGTGGAT TGGAAATGAA TGGCTTCCCA GCTTGGGGTT ACCTCAGTAC
AGAAGTTACT TTATGGAATG CTTGGTAGAT GCAAGAATGT TAGATCACCT AACAAAAAAA
GATCTCCGTG TCCATTTAAA AATGGTGGAT AGTTTCCATC GAACAAGTTT ACAATATGGA
ATTATGTGCT TAAAGAGGTT GAATTATGAC AGAAAAGAAC TAGAAAGAAG ACGGGAAGCA
AGCCAACATG AAATAAAAGA CGTGTTGGTG TGGAGCAATG ACCGAGTTAT TCGCTGGATA
CAAGCAATTG GACTTCGAGA ATATGCAAAT AATATACTTG AGAGCGGTGT GCATGGCTCA
CTTATAGCCC TGGATGAAAA CTTTGACTAC AGCAGCTTAG CTTTATTATT ACAGATTCCA
ACACAGAACA CCCAGGCAAG GCAGATTCTT GAAAGAGAAT ACAATAACCT CTTGGCCCTG
GGAACTGAAA GGCGACTGGA TGAAAGTGAT GACAAGAACT TCAGACGTGG ATCAACCTGG
AGAAGGCAGT TTCCTCCTCG TGAAGTACAT GGAATCAGCA TGATGCCTGG GTCCTCAGAA
ACATTACCAG CTGGATTTAG GTTAACCACA ACCTCTGGGC AGTCAAGAAA AATGACAACA
GATGATGGCG TCTTTTCAGT CTACTCTACC TAA

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

CloneID OHu84255
Clone ID Related Accession (Same CDS sequence) XM_017020112.1
Accession Version XM_017020112.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X34
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA GCATGAACTT CTTGAAGAAG CTCGGAGAAA GGGATTACCT
TTTGCCCAGT GGGATGGGCC AACTGTGGTC GCATGGCTAG AGCTTTGGTT GGGAATGCCT
GCGTGGTACG TGGCAGCCTG CCGAGCCAAC GTGAAGAGTG GTGCCATCAT GTCTGCTTTA
TCTGACACTG AGATCCAGAG AGAAATTGGA ATCAGCAATC CACTGCATCG CTTAAAACTT
CGATTAGCAA TCCAGGAGAT GGTTTCCCTA ACAAGTCCTT CAGCTCCTCC AACATCTCGA
ACTCCTTCAG GCAACGTTTG GGTGACTCAT GAAGAAATGG AAAATCTTGC AGCTCCAGCA
AAAACGAAAG AATCTGAGGA AGGAAGCTGG GCCCAGTGTC CGGTTTTTCT ACAGACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

RefSeq XP_016875601.1
CDS340..3891
Translation

Target ORF information:

RefSeq Version XM_017020112.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X35, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020112.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA GCATGAACTT CTTGAAGAAG CTCGGAGAAA GGGATTACCT
TTTGCCCAGT GGGATGGGCC AACTGTGGTC GCATGGCTAG AGCTTTGGTT GGGAATGCCT
GCGTGGTACG TGGCAGCCTG CCGAGCCAAC GTGAAGAGTG GTGCCATCAT GTCTGCTTTA
TCTGACACTG AGATCCAGAG AGAAATTGGA ATCAGCAATC CACTGCATCG CTTAAAACTT
CGATTAGCAA TCCAGGAGAT GGTTTCCCTA ACAAGTCCTT CAGCTCCTCC AACATCTCGA
ACTCCTTCAG GCAACGTTTG GGTGACTCAT GAAGAAATGG AAAATCTTGC AGCTCCAGCA
AAAACGAAAG AATCTGAGGA AGGAAGCTGG GCCCAGTGTC CGGTTTTTCT ACAGACCCTG
GCTTATGGAG ATATGAATCA TGAGTGGATT GGAAATGAAT GGCTTCCCAG CTTGGGGTTA
CCTCAGTACA GAAGTTACTT TATGGAATGC TTGGTAGATG CAAGAATGTT AGATCACCTA
ACAAAAAAAG ATCTCCGTGT CCATTTAAAA ATGGTGGATA GTTTCCATCG AACAAGTTTA
CAATATGGAA TTATGTGCTT AAAGAGGTTG AATTATGACA GAAAAGAACT AGAAAGAAGA
CGGGAAGCAA GCCAACATGA AATAAAAGAC GTGTTGGTGT GGAGCAATGA CCGAGTTATT
CGCTGGATAC AAGCAATTGG ACTTCGAGAA TATGCAAATA ATATACTTGA GAGCGGTGTG
CATGGCTCAC TTATAGCCCT GGATGAAAAC TTTGACTACA GCAGCTTAGC TTTATTATTA
CAGATTCCAA CACAGAACAC CCAGGCAAGG CAGATTCTTG AAAGAGAATA CAATAACCTC
TTGGCCCTGG GAACTGAAAG GCGACTGGAT GAAAGTGATG ACAAGAACTT CAGACGTGGA
TCAACCTGGA GAAGGCAGTT TCCTCCTCGT GAAGTACATG GAATCAGCAT GATGCCTGGG
TCCTCAGAAA CATTACCAGC TGGATTTAGG TTAACCACAA CCTCTGGGCA GTCAAGAAAA
ATGACAACAG ATGTTGCTTC ATCAAGACTG CAGAGGTTAG ACAACTCCAC TGTTCGCACA
TACTCATGTT GA

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

CloneID OHu84256
Clone ID Related Accession (Same CDS sequence) XM_017020113.1
Accession Version XM_017020113.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X35
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) 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 Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA GCATGAACTT CTTGAAGAAG CTCGGAGAAA GGGATTACCT
TTTGCCCAGT GGGATGGGCC AACTGTGGTC GCATGGCTAG AGCTTTGGTT GGGAATGCCT
GCGTGGTACG TGGCAGCCTG CCGAGCCAAC GTGAAGAGTG GTGCCATCAT GTCTGCTTTA
TCTGACACTG AGATCCAGAG AGAAATTGGA ATCAGCAATC CACTGCATCG CTTAAAACTT
CGATTAGCAA TCCAGGAGAT GGTTTCCCTA ACAAGTCCTT CAGCTCCTCC AACATCTCGA
ACTCCTTCAG GCAACGTTTG GGTGACTCAT GAAGAAATGG AAAATCTTGC AGCTCCAGCA
AAAACGAAAG AATCTGAGGA AGGAAGCTGG GCCCAGACCC TGGCTTATGG AGATATGAAT
CATGAGTGGA TTGGAAATGA ATGGCTTCCC AGCTTGGGGT TACCTCAGTA CAGAAGTTAC
TTTATGGAAT GCTTGGTAGA TGCAAGAATG TTAGATCACC TAACAAAAAA AGATCTCCGT
GTCCATTTAA AAATGGTGGA TAGTTTCCAT CGAACAAGTT TACAATATGG AATTATGTGC
TTAAAGAGGT TGAATTATGA CAGAAAAGAA CTAGAAAGAA GACGGGAAGC AAGCCAACAT
GAAATAAAAG ACGTGTTGGT GTGGAGCAAT GACCGAGTTA TTCGCTGGAT ACAAGCAATT
GGACTTCGAG AATATGCAAA TAATATACTT GAGAGCGGTG TGCATGGCTC ACTTATAGCC
CTGGATGAAA ACTTTGACTA CAGCAGCTTA GCTTTATTAT TACAGATTCC AACACAGAAC
ACCCAGGCAA GGCAGATTCT TGAAAGAGAA TACAATAACC TCTTGGCCCT GGGAACTGAA
AGGCGACTGG ATGAAAGTGA TGACAAGAAC TTCAGACGTG GATCAACCTG GAGAAGGCAG
TTTCCTCCTC GTGAAGTACA TGGAATCAGC ATGATGCCTG GGTCCTCAGA AACATTACCA
GCTGGATTTA GGTTAACCAC AACCTCTGGG CAGTCAAGAA AAATGACAAC AGATGTTGCT
TCATCAAGAC TGCAGAGGTT AGACAACTCC ACTGTTCGCA CATACTCATG TTGA

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

RefSeq XP_016875602.1
CDS340..3873
Translation

Target ORF information:

RefSeq Version XM_017020113.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X36, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020113.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA GCATGAACTT CTTGAAGAAG CTCGGAGAAA GGGATTACCT
TTTGCCCAGT GGGATGGGCC AACTGTGGTC GCATGGCTAG AGCTTTGGTT GGGAATGCCT
GCGTGGTACG TGGCAGCCTG CCGAGCCAAC GTGAAGAGTG GTGCCATCAT GTCTGCTTTA
TCTGACACTG AGATCCAGAG AGAAATTGGA ATCAGCAATC CACTGCATCG CTTAAAACTT
CGATTAGCAA TCCAGGAGAT GGTTTCCCTA ACAAGTCCTT CAGCTCCTCC AACATCTCGA
ACTCCTTCAG GCAACGTTTG GGTGACTCAT GAAGAAATGG AAAATCTTGC AGCTCCAGCA
AAAACGAAAG AATCTGAGGA AGGAAGCTGG GCCCAGACCC TGGCTTATGG AGATATGAAT
CATGAGTGGA TTGGAAATGA ATGGCTTCCC AGCTTGGGGT TACCTCAGTA CAGAAGTTAC
TTTATGGAAT GCTTGGTAGA TGCAAGAATG TTAGATCACC TAACAAAAAA AGATCTCCGT
GTCCATTTAA AAATGGTGGA TAGTTTCCAT CGAACAAGTT TACAATATGG AATTATGTGC
TTAAAGAGGT TGAATTATGA CAGAAAAGAA CTAGAAAGAA GACGGGAAGC AAGCCAACAT
GAAATAAAAG ACGTGTTGGT GTGGAGCAAT GACCGAGTTA TTCGCTGGAT ACAAGCAATT
GGACTTCGAG AATATGCAAA TAATATACTT GAGAGCGGTG TGCATGGCTC ACTTATAGCC
CTGGATGAAA ACTTTGACTA CAGCAGCTTA GCTTTATTAT TACAGATTCC AACACAGAAC
ACCCAGGCAA GGCAGATTCT TGAAAGAGAA TACAATAACC TCTTGGCCCT GGGAACTGAA
AGGCGACTGG ATGAAAGTGA TGACAAGAAC TTCAGACGTG GATCAACCTG GAGAAGGCAG
TTTCCTCCTC GTGAAGTACA TGGAATCAGC ATGATGCCTG GGTCCTCAGA AACATTACCA
GCTGGATTTA GGTTAACCAC AACCTCTGGG CAGTCAAGAA AAATGACAAC AGATGTTGCT
TCATCAAGAC TGCAGAGGTT AGACAACTCC ACTGTTCGCA CATACTCATG TTGA

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

CloneID OHu84257
Clone ID Related Accession (Same CDS sequence) XM_017020114.1
Accession Version XM_017020114.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
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 2016-06-06
Organism Homo sapiens(Human)
Product liprin-alpha-2 isoform X36
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000012.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA CACATCTGGG CATGAACTTC TTGAAGAAGC TCGGAGAAAG
GGATTACCTT TTGCCCAGTG GGATGGGCCA ACTGTGGTCG CATGGCTAGA GCTTTGGTTG
GGAATGCCTG CGTGGTACGT GGCAGCCTGC CGAGCCAACG TGAAGAGTGG TGCCATCATG
TCTGCTTTAT CTGACACTGA GATCCAGAGA GAAATTGGAA TCAGCAATCC ACTGCATCGC
TTAAAACTTC GATTAGCAAT CCAGGAGATG GTTTCCCTAA CAAGTCCTTC AGCTCCTCCA
ACATCTCGAA CTCCTTCAGG CAACGTTTGG GTGACTCATG AAGAAATGGA AAATCTTGCA
GCTCCAGCAA AAACGAAAGA ATCTGAGGAA GGAAGCTGGG CCCAGTGTCC GGTTTTTCTA
CAGACCCTGG CTTATGGAGA TATGAATCAT GAGTGGATTG GAAATGAATG GCTTCCCAGC
TTGGGGTTAC CTCAGTACAG AAGTTACTTT ATGGAATGCT TGGTAGATGC AAGAATGTTA
GATCACCTAA CAAAAAAAGA TCTCCGTGTC CATTTAAAAA TGGTGGATAG TTTCCATCGA
ACAAGTTTAC AATATGGAAT TATGTGCTTA AAGAGGTTGA ATTATGACAG AAAAGAACTA
GAAAGAAGAC GGGAAGCAAG CCAACATGAA ATAAAAGACG TGTTGGTGTG GAGCAATGAC
CGAGTTATTC GCTGGATACA AGCAATTGGA CTTCGAGAAT ATGCAAATAA TATACTTGAG
AGCGGTGTGC ATGGCTCACT TATAGCCCTG GATGAAAACT TTGACTACAG CAGCTTAGCT
TTATTATTAC AGATTCCAAC ACAGAACACC CAGGCAAGGC AGATTCTTGA AAGAGAATAC
AATAACCTCT TGGCCCTGGG AACTGAAAGG CGACTGGATG AAAGTGATGA CAAGAACTTC
AGACGTGGAT CAACCTGGAG AAGGCAGTTT CCTCCTCGTG AAGTACATGG AATCAGCATG
ATGCCTGGGT CCTCAGAAAC ATTACCAGCT GGATTTAGGT TAACCACAAC CTCTGGGCAG
TCAAGAAAAA TGACAACAGA TGATGGCGTC TTTTCAGTCT ACTCTACCTA A

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

RefSeq XP_016875603.1
CDS340..3870
Translation

Target ORF information:

RefSeq Version XM_017020114.1
Organism Homo sapiens(Human)
Definition Homo sapiens PTPRF interacting protein alpha 2 (PPFIA2), transcript variant X37, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017020114.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
ATGATTTTCT CGGATATGAA CACCGTTTCT GGCTCCCCTA AAGTGCATCC TCCTAATGGG 
ACCCGGTTTT ACACTTTTCA AGAATTTGCT GCACTGACAA AAGAATTAAA TGCCTGCAGG
GAACAACTTC TAGAAAAGGA AGAAGAAATC TCTGAACTTA AAGCTGAAAG AAACAACACA
AGACTATTAC TGGAGCATTT GGAGTGCCTT GTGTCACGAC ATGAAAGATC ACTAAGAATG
ACGGTGGTAA AACGGCAAGC CCAGTCTCCC TCAGGAGTAT CCAGTGAAGT TGAAGTTCTC
AAGGCACTGA AATCTTTGTT TGAGCACCAC AAGGCCTTGG ATGAAAAGGT AAGGGAGCGA
CTGAGGGTTT CTTTAGAAAG AGTCTCTGCA CTGGAAGAAG AACTAGCTGC TGCTAATCAG
GAGATTGTTG CCTTGCGTGA ACAAAATGTT CATATACAAA GAAAAATGGC ATCAAGCGAG
GGATCCACAG AGTCAGAACA TCTTGAAGGG ATGGAACCTG GACAGAAAGT CCATGAGAAG
CGTTTGTCCA ATGGTTCTAT AGACTCAACC GATGAAACTA GTCAAATAGT TGAACTACAA
GAATTGCTTG AAAAGCAAAA CTATGAAATG GCCCAGATGA AAGAACGTTT AGCAGCCCTT
TCTTCCCGAG TGGGAGAGGT GGAACAGGAA GCAGAGACAG CAAGAAAGGA TCTCATTAAA
ACAGAAGAAA TGAACACCAA GTATCAAAGG GACATTAGGG AGGCCATGGC ACAAAAGGAA
GATATGGAAG AAAGAATTAC AACCCTTGAA AAGCGTTACC TCAGTGCTCA GAGAGAATCT
ACCTCCATAC ATGACATGAA TGATAAACTA GAAAATGAGT TAGCAAATAA AGAAGCTATC
CTGCGGCAGA TGGAAGAGAA AAACAGACAG TTACAAGAAC GTCTTGAGCT AGCTGAACAA
AAGTTGCAGC AGACCATGAG AAAGGCTGAA ACCTTGCCTG AAGTAGAGGC TGAACTGGCT
CAGAGAATTG CAGCCCTAAC CAAGGCTGAA GAGAGACATG GAAATATTGA AGAACGTATG
AGACATTTAG AGGGTCAACT TGAAGAGAAG AATCAAGAAC TTCAAAGAGC TAGGCAAAGA
GAGAAAATGA ATGAGGAGCA TAACAAGAGA TTATCGGATA CGGTTGATAG ACTTCTGACT
GAATCCAATG AACGCCTACA ACTACACTTA AAGGAAAGAA TGGCTGCTCT AGAAGAAAAG
AATGTTTTAA TTCAAGAATC AGAAACTTTC AGAAAGAATC TTGAAGAATC TTTACATGAT
AAGGAAAGAT TAGCAGAAGA AATTGAAAAG CTGAGATCTG AACTTGACCA ATTGAAAATG
AGAACTGGCT CTTTAATTGA ACCCACAATA CCAAGAACTC ATCTAGACAC CTCAGCTGAG
TTGCGGTACT CAGTGGGATC CCTAGTGGAC AGCCAGTCTG ATTACAGAAC AACTAAAGTA
ATAAGAAGAC CAAGGAGAGG CCGCATGGGT GTGCGAAGAG ATGAGCCAAA GGTGAAATCT
CTTGGGGATC ACGAGTGGAA TAGAACTCAA CAGATTGGAG TACTAAGCAG CCACCCTTTT
GAAAGTGACA CTGAAATGTC TGATATTGAT GATGATGACA GAGAAACAAT TTTTAGCTCA
ATGGATCTTC TCTCTCCAAG TGGTCATTCC GATGCCCAGA CGCTAGCCAT GATGCTTCAG
GAACAATTGG ATGCCATCAA CAAAGAAATC AGGCTAATTC AGGAAGAAAA AGAATCTACA
GAGTTGCGTG CTGAAGAAAT TGAAAATAGA GTGGCTAGTG TGAGCCTCGA AGGCCTGAAT
TTGGCAAGGG TCCACCCAGG TACCTCCATT ACTGCCTCTG TTACAGCTTC ATCGCTGGCC
AGTTCATCTC CCCCCAGTGG ACACTCAACT CCAAAGCTCA CCCCTCGAAG CCCTGCCAGG
GAAATGGATC GGATGGGAGT CATGACACTG CCAAGTGATC TGAGGAAACA TCGGAGAAAG
ATTGCAGTTG TGGAAGAAGA TGGTCGAGAG GACAAAGCAA CAATTAAATG TGAAACTTCT
CCTCCTCCTA CCCCTAGAGC CCTCAGAATG ACTCACACTC TCCCTTCTTC CTACCACAAT
GATGCTCGAA GTAGTTTATC TGTCTCTCTT GAGCCAGAAA GCCTCGGGCT TGGTAGTGCC
AACAGCAGCC AAGACTCTCT TCACAAAGCC CCCAAGAAGA AAGGAATCAA GTCTTCAATA
GGACGTTTGT TTGGTAAAAA AGAAAAAGCT CGACTTGGGC AGCTCCGAGG CTTTATGGAG
ACTGAAGCTG CAGCTCAGGA GTCCCTGGGG TTAGGCAAAC TCGGAACTCA AGCTGAGAAG
GATCGAAGAC TAAAGAAAAA CACATCTGGG CATGAACTTC TTGAAGAAGC TCGGAGAAAG
GGATTACCTT TTGCCCAGTG GGATGGGCCA ACTGTGGTCG CATGGCTAGA GCTTTGGTTG
GGAATGCCTG CGTGGTACGT GGCAGCCTGC CGAGCCAACG TGAAGAGTGG TGCCATCATG
TCTGC