PITPNM2 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	PITPNM2
Entrez Gene ID	57605
Full Name	phosphatidylinositol transfer protein membrane associated 2
Synonyms	NIR-3,NIR3,RDGB2,RDGBA2
General protein information	Preferred Names phosphatidylinositol transfer protein membrane associated 2 Names membrane-associated phosphatidylinositol transfer protein 2 PYK2 N-terminal domain-interacting receptor 3 retinal degeneration B alpha 2
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 12 Map Location: 12q24.31
Summary	PITPNM2 belongs to a family of membrane-associated phosphatidylinositol transfer domain-containing proteins that share homology with the Drosophila retinal degeneration B (rdgB) protein (Ocaka et al., 2005 [PubMed 15627748]).[supplied by OMIM, Mar 2008].
Disorder MIM:	608920

mRNA and Protein(s)

mRNA	Protein	Name
XM_024449099.1	XP_024304867.1	membrane-associated phosphatidylinositol transfer protein 2 isoform X1
XM_024449101.1	XP_024304869.1	membrane-associated phosphatidylinositol transfer protein 2 isoform X3
XM_024449100.1	XP_024304868.1	membrane-associated phosphatidylinositol transfer protein 2 isoform X2
NM_020845.2	NP_065896.1	membrane-associated phosphatidylinositol transfer protein 2 isoform 1
NM_001300801.1	NP_001287730.1	membrane-associated phosphatidylinositol transfer protein 2 isoform 2
XM_011538590.2	XP_011536892.1	membrane-associated phosphatidylinositol transfer protein 2 isoform X1
XM_024449098.1	XP_024304866.1	membrane-associated phosphatidylinositol transfer protein 2 isoform X1

Pathways from BioSystems

Homologies

Drosophila melanogaster (fruit fly)	rdgB	NP_001014740.1
Homo sapiens (human)	PITPNM2	NP_065896.1
Gallus gallus (chicken)	PITPNM2	XP_004945602.1
Pan troglodytes (chimpanzee)	PITPNM2	XP_003314044.1
	PITPNM2	XP_001100187.1
Canis lupus familiaris (dog)	PITPNM2	XP_005636195.1
Danio rerio (zebrafish)	LOC100333901	XP_002663715.3
Caenorhabditis elegans (roundworm)	pitp-1	NP_497726.2
Bos taurus (cattle)	PITPNM2	NP_001178312.1
Mus musculus (house mouse)	Pitpnm2	NP_035386.1
Rattus norvegicus (Norway rat)	Pitpnm2	NP_001100609.1
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP000033	XP_311130.5
Xenopus tropicalis (tropical clawed frog)	pitpnm2	NP_001135661.1

Gene Ontology
Bibliography

Related articles in PubMed

Whole-exome sequencing of individuals from an isolated population implicates rare risk variants in bipolar disorder.
Lescai F, Als TD, Li Q, Nyegaard M, Andorsdottir G, Biskopst? M, Hedemand A, Fiorentino A, O'Brien N, Jarram A, Liang J, Grove J, Pallesen J, Eickhardt E, Mattheisen M, Bolund L, Demontis D, Wang AG, McQuillin A, Mors O, Wang J, B?rglum AD
Translational psychiatry7(2)e1034(2017 02)

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)

Biological insights from 108 schizophrenia-associated genetic loci.

Nature511(7510)421-7(2014 Jul)

Genome-wide association analysis identifies 13 new risk loci for schizophrenia.
Ripke S, O'Dushlaine C, Chambert K, Moran JL, K?hler AK, Akterin S, Bergen SE, Collins AL, Crowley JJ, Fromer M, Kim Y, Lee SH, Magnusson PK, Sanchez N, Stahl EA, Williams S, Wray NR, Xia K, Bettella F, Borglum AD, Bulik-Sullivan BK, Cormican P, Craddock N, de Leeuw C, Durmishi N, Gill M, Golimbet V, Hamshere ML, Holmans P, Hougaard DM, Kendler KS, Lin K, Morris DW, Mors O, Mortensen PB, Neale BM, O'Neill FA, Owen MJ, Milovancevic MP, Posthuma D, Powell J, Richards AL, Riley BP, Ruderfer D, Rujescu D, Sigurdsson E, Silagadze T, Smit AB, Stefansson H, Steinberg S, Suvisaari J, Tosato S, Verhage M, Walters JT, , Levinson DF, Gejman PV, Kendler KS, Laurent C, Mowry BJ, O'Donovan MC, Owen MJ, Pulver AE, Riley BP, Schwab SG, Wildenauer DB, Dudbridge F, Holmans P, Shi J, Albus M, Alexander M, Campion D, Cohen D, Dikeos D, Duan J, Eichhammer P, Godard S, Hansen M, Lerer FB, Liang KY, Maier W, Mallet J, Nertney DA, Nestadt G, Norton N, O'Neill FA, Papadimitriou GN, Ribble R, Sanders AR, Silverman JM, Walsh D, Williams NM, Wormley B, , Arranz MJ, Bakker S, Bender S, Bramon E, Collier D, Crespo-Facorro B, Hall J, Iyegbe C, Jablensky A, Kahn RS, Kalaydjieva L, Lawrie S, Lewis CM, Lin K, Linszen DH, Mata I, McIntosh A, Murray RM, Ophoff RA, Powell J, Rujescu D, Van Os J, Walshe M, Weisbrod M, Wiersma D, , Donnelly P, Barroso I, Blackwell JM, Bramon E, Brown MA, Casas JP, Corvin AP, Deloukas P, Duncanson A, Jankowski J, Markus HS, Mathew CG, Palmer CN, Plomin R, Rautanen A, Sawcer SJ, Trembath RC, Viswanathan AC, Wood NW, Spencer CC, Band G, Bellenguez C, Freeman C, Hellenthal G, Giannoulatou E, Pirinen M, Pearson RD, Strange A, Su Z, Vukcevic D, Donnelly P, Langford C, Hunt SE, Edkins S, Gwilliam R, Blackburn H, Bumpstead SJ, Dronov S, Gillman M, Gray E, Hammond N, Jayakumar A, McCann OT, Liddle J, Potter SC, Ravindrarajah R, Ricketts M, Tashakkori-Ghanbaria A, Waller MJ, Weston P, Widaa S, Whittaker P, Barroso I, Deloukas P, Mathew CG, Blackwell JM, Brown MA, Corvin AP, McCarthy MI, Spencer CC, Bramon E, Corvin AP, O'Donovan MC, Stefansson K, Scolnick E, Purcell S, McCarroll SA, Sklar P, Hultman CM, Sullivan PF
Nature genetics45(10)1150-9(2013 Oct)

Duffy-null-associated low neutrophil counts influence HIV-1 susceptibility in high-risk South African black women.
Ramsuran V, Kulkarni H, He W, Mlisana K, Wright EJ, Werner L, Castiblanco J, Dhanda R, Le T, Dolan MJ, Guan W, Weiss RA, Clark RA, Karim SS, Ahuja SK, Ndung'u T
Clinical infectious diseases : an official publication of the Infectious Diseases Society of America52(10)1248-56(2011 May)

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

PITPNM2 was associated with bipolar disorder.
Title: Whole-exome sequencing of individuals from an isolated population implicates rare risk variants in bipolar disorder.

The following PITPNM2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PITPNM2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu17437	NM_020845.2 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$519.50-$727.30 $1039.00
OHu103764	XM_024449100.1 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OHu103765	XM_024449101.1 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu46729	NM_001300801.1 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu70703	XM_024449098.1 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu70703	XM_024449099.1 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00
OHu70708	XM_011538590.2 Latest version!	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00

ORF Online Only Promotion

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

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

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

Reference Sequences (Refseq)

PITPNM2 ( NM_020845.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_065896.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu17437
Clone ID Related Accession (Same CDS sequence)	NM_020845.2
Accession Version	NM_020845.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4050bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-03
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB040890.2, AL133612.1, BC050567.1 and BC025360.1. On Dec 2, 2005 this sequence version replaced NM_020845.1. Transcript Variant: This variant (1) encodes the longer isoform (1). ##Evidence-Data-START## CDS exon combination :: AF334585.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGCGGATG TGCTCCAGAC CCACAATGCA GCCTTCCAAG AGCATGGCGC CCCCTCCTCG 
CCGGGCACTG CCCCTGCCAG TCGTGGCTTC CGCCGAGCCA GTGAGATCAG CATCGCCAGC 
CAGGTGTCAG GCATGGCTGA GAGCTACACG GCATCCAGCA TCGCCCAGAA GGCCCCCGAT 
GCGCTCAGCC ATACCCCCAG CGTCAGGCGT CTGTCCCTGC TCGCCCTGCC CGCCCCCAGC 
CCCACCACCC CTGGCCCCCA CCCTCCAGCC AGGAAGGCAA GCCCTGGCCT GGAGAGGGCC 
CCTGGCCTCC CTGAGCTGGA CATTGGAGAA GTCGCTGCAA AGTGGTGGGG CCAGAAGCGG 
ATCGACTACG CCCTGTACTG CCCTGACGCC CTCACGGCCT TCCCCACGGT GGCTCTGCCT 
CACCTCTTCC ACGCCAGCTA CTGGGAGTCA ACAGACGTGG TCTCCTTTCT GCTGAGACAG 
GTCATGAGGC ATGACAACTC CAGCATCTTG GAGCTGGATG GCAAGGAAGT GTCGGTGTTC 
ACCCCCTCAA AGCCAAGGGA GAAGTGGCAG CGCAAGCGGA CCCACGTGAA GCTGCGGAAC 
GTGACGGCCA ACCACCGGAT CAATGATGCC CTTGCCAATG AGGACGGCCC CCAGGTTCTG 
ACGGGCAGGT TCATGTATGG GCCCCTGGAC ATGGTCACCC TGACTGGGGA GAAGGTGGAT 
GTGCACATCA TGACCCAGCC GCCCTCAGGC GAGTGGCTCT ACCTGGATAC GCTGGTGACC 
AACAACAGTG GGCGTGTCTC CTACACCATC CCTGAGTCGC ACCGCCTGGG CGTGGGTGTC 
TACCCTATCA AGATGGTGGT CAGGGGAGAC CACACGTTTG CCGACAGCTA CATCACCGTG 
CTGCCCAAGG GCACAGAGTT CGTGGTCTTC AGCATCGACG GTTCCTTTGC CGCTAGCGTG 
TCCATCATGG GCAGCGACCC CAAGGTGCGG GCCGGGGCCG TGGACGTGGT GCGGCACTGG 
CAGGACCTGG GCTACCTCAT CATCTACGTG ACGGGCCGGC CCGACATGCA GAAGCAGCGG 
GTGGTGGCGT GGCTGGCCCA GCACAACTTC CCCCATGGCG TGGTGTCCTT CTGTGACGGC 
CTGGTGCATG ACCCGCTGCG GCACAAGGCC AACTTCCTGA AGCTGCTCAT CTCCGAGCTG 
CACCTGCGCG TGCACGCGGC CTATGGCTCC ACCAAGGACG TGGCGGTGTA CAGCGCCATT 
AGCCTGTCCC CCATGCAGAT CTACATCGTG GGCCGGCCCA CCAAGAAGCT GCAGCAGCAG 
TGCCAGTTCA TCACGGATGG CTACGCGGCC CACCTGGCGC AGCTGAAGTA CAGCCACCGG 
GCGCGGCCCG CTCGCAACAC GGCCACCCGC ATGGCGCTGC GCAAGGGCAG CTTCGGCCTG 
CCCGGCCAGG GCGACTTTCT GCGCTCCCGG AACCACCTGC TTCGCACCAT CTCGGCCCAG 
CCCAGCGGGC CCAGCCACCG GCACGAGCGG ACACAGAGCC AGGCGGATGG CGAGCAGCGG 
GGCCAGCGCA GCATGAGTGT GGCGGCCGGC TGCTGGGGCC GCGCCATGAC TGGCCGCCTG 
GAGCCGGGGG CAGCCGCGGG CCCCAAGTAG

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

RefSeq	NP_065896.1
CDS	140..4189
Translation	MIIKEYRIPLPMTVEEYRIAQLYMIQKKSRNETYGEGSGVEILENRPYTDGPGGSGQYTHKVYHVGMHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	NM_020845.2
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 1, mRNA.

Target ORF information:

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

NM_020845.2

ORF Insert Sequence:

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGCGGATG TGCTCCAGAC CCACAATGCA GCCTTCCAAG AGCATGGCGC CCCCTCCTCG 
CCGGGCACTG CCCCTGCCAG TCGTGGCTTC CGCCGAGCCA GTGAGATCAG CATCGCCAGC 
CAGGTGTCAG GCATGGCTGA GAGCTACACG GCATCCAGCA TCGCCCAGAA GGCCCCCGAT 
GCGCTCAGCC ATACCCCCAG CGTCAGGCGT CTGTCCCTGC TCGCCCTGCC CGCCCCCAGC 
CCCACCACCC CTGGCCCCCA CCCTCCAGCC AGGAAGGCAA GCCCTGGCCT GGAGAGGGCC 
CCTGGCCTCC CTGAGCTGGA CATTGGAGAA GTCGCTGCAA AGTGGTGGGG CCAGAAGCGG 
ATCGACTACG CCCTGTACTG CCCTGACGCC CTCACGGCCT TCCCCACGGT GGCTCTGCCT 
CACCTCTTCC ACGCCAGCTA CTGGGAGTCA ACAGACGTGG TCTCCTTTCT GCTGAGACAG 
GTCATGAGGC ATGACAACTC CAGCATCTTG GAGCTGGATG GCAAGGAAGT GTCGGTGTTC 
ACCCCCTCAA AGCCAAGGGA GAAGTGGCAG CGCAAGCGGA CCCACGTGAA GCTGCGGAAC 
GTGACGGCCA ACCACCGGAT CAATGATGCC CTTGCCAATG AGGACGGCCC CCAGGTTCTG 
ACGGGCAGGT TCATGTATGG GCCCCTGGAC ATGGTCACCC TGACTGGGGA GAAGGTGGAT 
GTGCACATCA TGACCCAGCC GCCCTCAGGC GAGTGGCTCT ACCTGGATAC GCTGGTGACC 
AACAACAGTG GGCGTGTCTC CTACACCATC CCTGAGTCGC ACCGCCTGGG CGTGGGTGTC 
TACCCTATCA AGATGGTGGT CAGGGGAGAC CACACGTTTG CCGACAGCTA CATCACCGTG 
CTGCCCAAGG GCACAGAGTT CGTGGTCTTC AGCATCGACG GTTCCTTTGC CGCTAGCGTG 
TCCATCATGG GCAGCGACCC CAAGGTGCGG GCCGGGGCCG TGGACGTGGT GCGGCACTGG 
CAGGACCTGG GCTACCTCAT CATCTACGTG ACGGGCCGGC CCGACATGCA GAAGCAGCGG 
GTGGTGGCGT GGCTGGCCCA GCACAACTTC CCCCATGGCG TGGTGTCCTT CTGTGACGGC 
CTGGTGCATG ACCCGCTGCG GCACAAGGCC AACTTCCTGA AGCTGCTCAT CTCCGAGCTG 
CACCTGCGCG TGCACGCGGC CTATGGCTCC ACCAAGGACG TGGCGGTGTA CAGCGCCATT 
AGCCTGTCCC CCATGCAGAT CTACATCGTG GGCCGGCCCA CCAAGAAGCT GCAGCAGCAG 
TGCCAGTTCA TCACGGATGG CTACGCGGCC CACCTGGCGC AGCTGAAGTA CAGCCACCGG 
GCGCGGCCCG CTCGCAACAC GGCCACCCGC ATGGCGCTGC GCAAGGGCAG CTTCGGCCTG 
CCCGGCCAGG GCGACTTTCT GCGCTCCCGG AACCACCTGC TTCGCACCAT CTCGGCCCAG 
CCCAGCGGGC CCAGCCACCG GCACGAGCGG ACACAGAGCC AGGCGGATGG CGAGCAGCGG 
GGCCAGCGCA GCATGAGTGT GGCGGCCGGC TGCTGGGGCC GCGCCATGAC TGGCCGCCTG 
GAGCCGGGGG CAGCCGCGGG CCCCAAGTAG

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

PITPNM2 ( XM_024449100.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304868.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu103764
Clone ID Related Accession (Same CDS sequence)	XM_024449100.1
Accession Version	XM_024449100.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4110bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform X2
Comment	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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCACATTC CCAGCTGGTT CCGCTCCATC CTGCCCAAGG CAGCCCTGCG GGTGGTGGAG 
GAGTCTTGGA ATGCCTACCC CTACACCCGA ACCAGGTTCA CCTGTCCTTT CGTGGAGAAA 
TTCTCCATCG ACATTGAAAC CTTTTATAAA ACTGATGCTG GAGAAAACCC CGACGTGTTC 
AACCTCTCTC CTGTGGAAAA GAACCAGCTG ACAATCGACT TCATCGACAT TGTCAAAGAC 
CCTGTGCCCC ACAACGAGTA TAAGACAGAA GAGGACCCCA AGCTGTTCCA GTCAACCAAG 
ACCCAGCGGG GGCCCCTGTC CGAGAACTGG ATCGAGGAGT ACAAGAAGCA GGTCTTCCCC 
ATCATGTGCG CATACAAGCT CTGCAAGGTG GAGTTCCGCT ACTGGGGCAT GCAGTCCAAG 
ATCGAGAGGT TCATCCACGA CACCGGACTA CGGAGGGTGA TGGTGCGGGC TCACCGGCAG 
GCCTGGTGCT GGCAGGACGA GTGGTATGGG CTGAGCATGG AGAACATCCG GGAGCTGGAG 
AAGGAGGCAC AGCTCATGCT TTCCCGTAAG ATGGCCCAGT TCAATGAGGA TGGTGAGGAG 
GCCACTGAGC TCGTCAAGCA CGAAGCCGTC TCGGACCAGA CCTCTGGGGA GCCCCCGGAG 
CCCAGCAGCA GCAATGGGGA GCCCCTAGTG GGGCGCGGCC TCAAGAAACA GTGGTCCACA 
TCCTCCAAGT CGTCTCGGTC GTCCAAGCGG GGAGCGAGTC CTTCCCGCCA CAGCATCTCA 
GAGTGGAGGA TGCAGAGTAT TGCCAGGGAC TCGGATGAGA GCTCAGATGA TGAGTTCTTC 
GATGCGCACG AGGACCTGTC CGACACAGAG GAAATGTTCC CCAAGGACAT CACCAAGTGG 
AGCTCCAATG ACCTCATGGA CAAGATCGAG AGCCCAGAGC CGGAAGACAC ACAAGATGGT 
CTGTACCGCC AGGGTGCCCC TGAGTTCAGG GTGGCCTCCA GTGTGGAGCA GCTGAACATC 
ATAGAGGACG AGGTTAGCCA GCCGCTGGCT GCACCGCCCT CCAAGATCCA CGTGCTGCTA 
CTGGTGCTGC ACGGAGGCAC CATCCTGGAC ACAGGCGCCG GGGACCCCAG CTCCAAGAAG 
GGCGATGCTA ACACCATCGC CAACGTGTTC GACACCGTCA TGCGCGTGCA CTACCCCAGC 
GCCCTGGGCC GCCTTGCCAT CCGCCTGGTG CCCTGCCCGC CCGTCTGCTC TGACGCCTTT 
GCCCTGGTCT CCAACCTCAG CCCCTACAGC CATGACGAAG GCTGTCTGTC CAGCAGTCAG 
GACCACATTC CCCTGGCTGC CCTCCCCCTG CTGGCCACCT CCTCCCCCCA GTACCAGGAG 
GCAGTTGCCA CAGTGATTCA GCGAGCCAAC CTTGCCTATG GGGACTTCAT CAAGTCCCAG 
GAGGGCATGA CCTTCAATGG GCAGGTCTGC CTGATTGGGG ACTGCGTCGG GGGCATCCTG 
GCATTTGATG CCCTGTGCTA CAGTAACCAG CCGGTGTCTG AGAGTCAGAG CAGCAGCCGC 
CGGGGCAGCG TGGTCAGCAT GCAGGACAAT GACCTGCTGT CCCCGGGCAT CCTGATGAAT 
GCAGCACACT GCTGCGGTGG TGGCGGTGGC GGCGGTGGCG GTGGTGGCAG CAGTGGTGGT 
GGTGGCAGTA GTGGTGGCTC CAGCCTGGAG AGCAGTCGGC ACCTGAGCCG AAGCAACGTC 
GACATCCCCC GCAGCAACGG CACTGAGGAC CCCAAAAGGC AACTGCCCCG CAAGAGGAGC 
GACTCATCCA CCTACGAGCT GGATACCATC CAGCAGCACC AGGCCTTCCT GTCCAGCCTC 
CATGCCAGCG TGCTGAGGAC TGAGCCCTGC TCACGCCATT CCAGCAGCTC CACCATGCTG 
GATGGCACAG GTGCCCTGGG CAGGTTTGAC TTTGAGATCA CCGACCTCTT CCTCTTCGGG 
TGCCCGCTGG GGCTGGTCCT GGCCTTGAGG AAGACTGTCA TCCCAGCCCT GGATGTTTTC 
CAGCTGCGGC CGGCCTGCCA GCAAGTCTAC AACCTCTTCC ACCCCGCGGA CCCGTCAGCT 
TCACGCCTGG AGCCGCTGCT GGAACGGCGC TTTCACGCCC TGCCGCCTTT CAGCGTCCCC 
CGCTACCAAC GCTACCCGCT GGGGGATGGC TGCTCCACGC TGCTGGTCGA GACCGTGCAG 
AGAAACCCTG AGCTGGTCCT GGAGGGCGGC CCCCTGGCCC CTCTCCCCCA CGGGGACGGC 
TTCCTGGAAA CCAGTATGCC TGTTCCCGCG CCCACCTGGC AAGACGGGCC CCGCCCGGGC 
TGTGCCGAGT GTGTGTACCC TCCCCTGCTC GTGGTGACGT CTGCTTCGTT GGTTGACCTG 
GTCCTCAGGG ACACCCCCCA ATCCATGCCC TCCTTGGCCA CTCACAGTTC GTGGGACCTG 
GGTGCGGATG TGCTCCAGAC CCACAATGCA GCCTTCCAAG AGCATGGCGC CCCCTCCTCG 
CCGGGCACTG CCCCTGCCAG TCGTGGCTTC CGCCGAGCCA GTGAGATCAG CATCGCCAGC 
CAGGTGTCAG GCATGGCTGA GAGCTACACG GCATCCAGCA TCGCCCAGAA GGCCCCCGAT 
GCGCTCAGCC ATACCCCCAG CGTCAGGCGT CTGTCCCTGC TCGCCCTGCC CGCCCCCAGC 
CCCACCACCC CTGGCCCCCA CCCTCCAGCC AGGAAGGCAA GCCCTGGCCT GGAGAGGGCC 
CCTGGCCTCC CTGAGCTGGA CATTGGAGAA GTCGCTGCAA AGTGGTGGGG CCAGAAGCGG 
ATCGACTACG CCCTGTACTG CCCTGACGCC CTCACGGCCT TCCCCACGGT GGCTCTGCCT 
CACCTCTTCC ACGCCAGCTA CTGGGAGTCA ACAGACGTGG TCTCCTTTCT GCTGAGACAG 
GTCATGAGGC ATGACAACTC CAGCATCTTG GAGCTGGATG GCAAGGAAGT GTCGGTGTTC 
ACCCCCTCAA AGCCAAGGGA GAAGTGGCAG CGCAAGCGGA CCCACGTGAA GCTGCGGAAC 
GTGACGGCCA ACCACCGGAT CAATGATGCC CTTGCCAATG AGGACGGCCC CCAGGTTCTG 
ACGGGCAGGT TCATGTATGG GCCCCTGGAC ATGGTCACCC TGACTGGGGA GAAGGTGGAT 
GTGCACATCA TGACCCAGCC GCCCTCAGGC GAGTGGCTCT ACCTGGATAC GCTGGTGACC 
AACAACAGTG GGCGTGTCTC CTACACCATC CCTGAGTCGC ACCGCCTGGG CGTGGGTGTC 
TACCCTATCA AGATGGTGGT CAGGGGAGAC CACACGTTTG CCGACAGCTA CATCACCGTG 
CTGCCCAAGG GCACAGAGTT CGTGGTCTTC AGCATCGACG GTTCCTTTGC CGCTAGCGTG 
TCCATCATGG GCAGCGACCC CAAGGTGCGG GCCGGGGCCG TGGACGTGGT GCGGCACTGG 
CAGGACCTGG GCTACCTCAT CATCTACGTG ACGGGCCGGC CCGACATGCA GAAGCAGCGG 
GTGGTGGCGT GGCTGGCCCA GCACAACTTC CCCCATGGCG TGGTGTCCTT CTGTGACGGC 
CTGGTGCATG ACCCGCTGCG GCACAAGGCC AACTTCCTGA AGCTGCTCAT CTCCGAGCTG 
CACCTGCGCG TGCACGCGGC CTATGGCTCC ACCAAGGACG TGGCGGTGTA CAGCGCCATT 
AGCCTGTCCC CCATGCAGAT CTACATCGTG GGCCGGCCCA CCAAGAAGCT GCAGCAGCAG 
TGCCAGTTCA TCACGGATGG CTACGCGGCC CACCTGGCGC AGCTGAAGTA CAGCCACCGG 
GCGCGGCCCG CTCGCAACAC GGCCACCCGC ATGGCGCTGC GCAAGGGCAG CTTCGGCCTG 
CCCGGCCAGG GCGACTTTCT GCGCTCCCGG AACCACCTGC TTCGCACCAT CTCGGCCCAG 
CCCAGCGGGC CCAGCCACCG GCACGAGCGG ACACAGAGCC AGGCGGATGG CGAGCAGCGG 
GGCCAGCGCA GCATGAGTGT GGCGGCCGGC TGCTGGGGCC GCGCCATGAC TGGCCGCCTG 
GAGCCGGGGG CAGCCGCGGG CCCCAAGTAG

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

RefSeq	XP_024304868.1
CDS	362..4471
Translation	MHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAECVYPPLLVVTSASLVDLVLRDTPQSMPSLATHSSWDLGADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	XM_024449100.1
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X3, mRNA.

Target ORF information:

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

XM_024449100.1

ORF Insert Sequence:

ATGCACATTC CCAGCTGGTT CCGCTCCATC CTGCCCAAGG CAGCCCTGCG GGTGGTGGAG 
GAGTCTTGGA ATGCCTACCC CTACACCCGA ACCAGGTTCA CCTGTCCTTT CGTGGAGAAA 
TTCTCCATCG ACATTGAAAC CTTTTATAAA ACTGATGCTG GAGAAAACCC CGACGTGTTC 
AACCTCTCTC CTGTGGAAAA GAACCAGCTG ACAATCGACT TCATCGACAT TGTCAAAGAC 
CCTGTGCCCC ACAACGAGTA TAAGACAGAA GAGGACCCCA AGCTGTTCCA GTCAACCAAG 
ACCCAGCGGG GGCCCCTGTC CGAGAACTGG ATCGAGGAGT ACAAGAAGCA GGTCTTCCCC 
ATCATGTGCG CATACAAGCT CTGCAAGGTG GAGTTCCGCT ACTGGGGCAT GCAGTCCAAG 
ATCGAGAGGT TCATCCACGA CACCGGACTA CGGAGGGTGA TGGTGCGGGC TCACCGGCAG 
GCCTGGTGCT GGCAGGACGA GTGGTATGGG CTGAGCATGG AGAACATCCG GGAGCTGGAG 
AAGGAGGCAC AGCTCATGCT TTCCCGTAAG ATGGCCCAGT TCAATGAGGA TGGTGAGGAG 
GCCACTGAGC TCGTCAAGCA CGAAGCCGTC TCGGACCAGA CCTCTGGGGA GCCCCCGGAG 
CCCAGCAGCA GCAATGGGGA GCCCCTAGTG GGGCGCGGCC TCAAGAAACA GTGGTCCACA 
TCCTCCAAGT CGTCTCGGTC GTCCAAGCGG GGAGCGAGTC CTTCCCGCCA CAGCATCTCA 
GAGTGGAGGA TGCAGAGTAT TGCCAGGGAC TCGGATGAGA GCTCAGATGA TGAGTTCTTC 
GATGCGCACG AGGACCTGTC CGACACAGAG GAAATGTTCC CCAAGGACAT CACCAAGTGG 
AGCTCCAATG ACCTCATGGA CAAGATCGAG AGCCCAGAGC CGGAAGACAC ACAAGATGGT 
CTGTACCGCC AGGGTGCCCC TGAGTTCAGG GTGGCCTCCA GTGTGGAGCA GCTGAACATC 
ATAGAGGACG AGGTTAGCCA GCCGCTGGCT GCACCGCCCT CCAAGATCCA CGTGCTGCTA 
CTGGTGCTGC ACGGAGGCAC CATCCTGGAC ACAGGCGCCG GGGACCCCAG CTCCAAGAAG 
GGCGATGCTA ACACCATCGC CAACGTGTTC GACACCGTCA TGCGCGTGCA CTACCCCAGC 
GCCCTGGGCC GCCTTGCCAT CCGCCTGGTG CCCTGCCCGC CCGTCTGCTC TGACGCCTTT 
GCCCTGGTCT CCAACCTCAG CCCCTACAGC CATGACGAAG GCTGTCTGTC CAGCAGTCAG 
GACCACATTC CCCTGGCTGC CCTCCCCCTG CTGGCCACCT CCTCCCCCCA GTACCAGGAG 
GCAGTTGCCA CAGTGATTCA GCGAGCCAAC CTTGCCTATG GGGACTTCAT CAAGTCCCAG 
GAGGGCATGA CCTTCAATGG GCAGGTCTGC CTGATTGGGG ACTGCGTCGG GGGCATCCTG 
GCATTTGATG CCCTGTGCTA CAGTAACCAG CCGGTGTCTG AGAGTCAGAG CAGCAGCCGC 
CGGGGCAGCG TGGTCAGCAT GCAGGACAAT GACCTGCTGT CCCCGGGCAT CCTGATGAAT 
GCAGCACACT GCTGCGGTGG TGGCGGTGGC GGCGGTGGCG GTGGTGGCAG CAGTGGTGGT 
GGTGGCAGTA GTGGTGGCTC CAGCCTGGAG AGCAGTCGGC ACCTGAGCCG AAGCAACGTC 
GACATCCCCC GCAGCAACGG CACTGAGGAC CCCAAAAGGC AACTGCCCCG CAAGAGGAGC 
GACTCATCCA CCTACGAGCT GGATACCATC CAGCAGCACC AGGCCTTCCT GTCCAGCCTC 
CATGCCAGCG TGCTGAGGAC TGAGCCCTGC TCACGCCATT CCAGCAGCTC CACCATGCTG 
GATGGCACAG GTGCCCTGGG CAGGTTTGAC TTTGAGATCA CCGACCTCTT CCTCTTCGGG 
TGCCCGCTGG GGCTGGTCCT GGCCTTGAGG AAGACTGTCA TCCCAGCCCT GGATGTTTTC 
CAGCTGCGGC CGGCCTGCCA GCAAGTCTAC AACCTCTTCC ACCCCGCGGA CCCGTCAGCT 
TCACGCCTGG AGCCGCTGCT GGAACGGCGC TTTCACGCCC TGCCGCCTTT CAGCGTCCCC 
CGCTACCAAC GCTACCCGCT GGGGGATGGC TGCTCCACGC TGCTGGTCGA GACCGTGCAG 
AGAAACCCTG AGCTGGTCCT GGAGGGCGGC CCCCTGGCCC CTCTCCCCCA CGGGGACGGC 
TTCCTGGAAA CCAGTATGCC TGTTCCCGCG CCCACCTGGC AAGACGGGCC CCGCCCGGGC 
TGTGCCGAGT GTGTGTACCC TCCCCTGCTC GTGGTGACGT CTGCTTCGTT GGTTGACCTG 
GTCCTCAGGG ACACCCCCCA ATCCATGCCC TCCTTGGCCA CTCACAGTTC GTGGGACCTG 
GGTGCGGATG TGCTCCAGAC CCACAATGCA GCCTTCCAAG AGCATGGCGC CCCCTCCTCG 
CCGGGCACTG CCCCTGCCAG TCGTGGCTTC CGCCGAGCCA GTGAGATCAG CATCGCCAGC 
CAGGTGTCAG GCATGGCTGA GAGCTACACG GCATCCAGCA TCGCCCAGAA GGCCCCCGAT 
GCGCTCAGCC ATACCCCCAG CGTCAGGCGT CTGTCCCTGC TCGCCCTGCC CGCCCCCAGC 
CCCACCACCC CTGGCCCCCA CCCTCCAGCC AGGAAGGCAA GCCCTGGCCT GGAGAGGGCC 
CCTGGCCTCC CTGAGCTGGA CATTGGAGAA GTCGCTGCAA AGTGGTGGGG CCAGAAGCGG 
ATCGACTACG CCCTGTACTG CCCTGACGCC CTCACGGCCT TCCCCACGGT GGCTCTGCCT 
CACCTCTTCC ACGCCAGCTA CTGGGAGTCA ACAGACGTGG TCTCCTTTCT GCTGAGACAG 
GTCATGAGGC ATGACAACTC CAGCATCTTG GAGCTGGATG GCAAGGAAGT GTCGGTGTTC 
ACCCCCTCAA AGCCAAGGGA GAAGTGGCAG CGCAAGCGGA CCCACGTGAA GCTGCGGAAC 
GTGACGGCCA ACCACCGGAT CAATGATGCC CTTGCCAATG AGGACGGCCC CCAGGTTCTG 
ACGGGCAGGT TCATGTATGG GCCCCTGGAC ATGGTCACCC TGACTGGGGA GAAGGTGGAT 
GTGCACATCA TGACCCAGCC GCCCTCAGGC GAGTGGCTCT ACCTGGATAC GCTGGTGACC 
AACAACAGTG GGCGTGTCTC CTACACCATC CCTGAGTCGC ACCGCCTGGG CGTGGGTGTC 
TACCCTATCA AGATGGTGGT CAGGGGAGAC CACACGTTTG CCGACAGCTA CATCACCGTG 
CTGCCCAAGG GCACAGAGTT CGTGGTCTTC AGCATCGACG GTTCCTTTGC CGCTAGCGTG 
TCCATCATGG GCAGCGACCC CAAGGTGCGG GCCGGGGCCG TGGACGTGGT GCGGCACTGG 
CAGGACCTGG GCTACCTCAT CATCTACGTG ACGGGCCGGC CCGACATGCA GAAGCAGCGG 
GTGGTGGCGT GGCTGGCCCA GCACAACTTC CCCCATGGCG TGGTGTCCTT CTGTGACGGC 
CTGGTGCATG ACCCGCTGCG GCACAAGGCC AACTTCCTGA AGCTGCTCAT CTCCGAGCTG 
CACCTGCGCG TGCACGCGGC CTATGGCTCC ACCAAGGACG TGGCGGTGTA CAGCGCCATT 
AGCCTGTCCC CCATGCAGAT CTACATCGTG GGCCGGCCCA CCAAGAAGCT GCAGCAGCAG 
TGCCAGTTCA TCACGGATGG CTACGCGGCC CACCTGGCGC AGCTGAAGTA CAGCCACCGG 
GCGCGGCCCG CTCGCAACAC GGCCACCCGC ATGGCGCTGC GCAAGGGCAG CTTCGGCCTG 
CCCGGCCAGG GCGACTTTCT GCGCTCCCGG AACCACCTGC TTCGCACCAT CTCGGCCCAG 
CCCAGCGGGC CCAGCCACCG GCACGAGCGG ACACAGAGCC AGGCGGATGG CGAGCAGCGG 
GGCCAGCGCA GCATGAGTGT GGCGGCCGGC TGCTGGGGCC GCGCCATGAC TGGCCGCCTG 
GAGCCGGGGG CAGCCGCGGG CCCCAAGTAG

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

PITPNM2 ( XM_024449101.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304869.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu103765
Clone ID Related Accession (Same CDS sequence)	XM_024449101.1
Accession Version	XM_024449101.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3156bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform X3
Comment	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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGGCCGT GGCCGACAAG ATGGCCCCGC GGGAGGCAGG CGGAGCTCAG TGTGTCCAAT 
AAAACTGTCT TGGACGAGGT TAGCCAGCCG CTGGCTGCAC CGCCCTCCAA GATCCACGTG 
CTGCTACTGG TGCTGCACGG AGGCACCATC CTGGACACAG GCGCCGGGGA CCCCAGCTCC 
AAGAAGGGCG ATGCTAACAC CATCGCCAAC GTGTTCGACA CCGTCATGCG CGTGCACTAC 
CCCAGCGCCC TGGGCCGCCT TGCCATCCGC CTGGTGCCCT GCCCGCCCGT CTGCTCTGAC 
GCCTTTGCCC TGGTCTCCAA CCTCAGCCCC TACAGCCATG ACGAAGGCTG TCTGTCCAGC 
AGTCAGGACC ACATTCCCCT GGCTGCCCTC CCCCTGCTGG CCACCTCCTC CCCCCAGTAC 
CAGGAGGCAG TTGCCACAGT GATTCAGCGA GCCAACCTTG CCTATGGGGA CTTCATCAAG 
TCCCAGGAGG GCATGACCTT CAATGGGCAG GTCTGCCTGA TTGGGGACTG CGTCGGGGGC 
ATCCTGGCAT TTGATGCCCT GTGCTACAGT AACCAGCCGG TGTCTGAGAG TCAGAGCAGC 
AGCCGCCGGG GCAGCGTGGT CAGCATGCAG GACAATGACC TGCTGTCCCC GGGCATCCTG 
ATGAATGCAG CACACTGCTG CGGTGGTGGC GGTGGCGGCG GTGGCGGTGG TGGCAGCAGT 
GGTGGTGGTG GCAGTAGTGG TGGCTCCAGC CTGGAGAGCA GTCGGCACCT GAGCCGAAGC 
AACGTCGACA TCCCCCGCAG CAACGGCACT GAGGACCCCA AAAGGCAACT GCCCCGCAAG 
AGGAGCGACT CATCCACCTA CGAGCTGGAT ACCATCCAGC AGCACCAGGC CTTCCTGTCC 
AGCCTCCATG CCAGCGTGCT GAGGACTGAG CCCTGCTCAC GCCATTCCAG CAGCTCCACC 
ATGCTGGATG GCACAGGTGC CCTGGGCAGG TTTGACTTTG AGATCACCGA CCTCTTCCTC 
TTCGGGTGCC CGCTGGGGCT GGTCCTGGCC TTGAGGAAGA CTGTCATCCC AGCCCTGGAT 
GTTTTCCAGC TGCGGCCGGC CTGCCAGCAA GTCTACAACC TCTTCCACCC CGCGGACCCG 
TCAGCTTCAC GCCTGGAGCC GCTGCTGGAA CGGCGCTTTC ACGCCCTGCC GCCTTTCAGC 
GTCCCCCGCT ACCAACGCTA CCCGCTGGGG GATGGCTGCT CCACGCTGCT GGTCGAGACC 
GTGCAGAGAA ACCCTGAGCT GGTCCTGGAG GGCGGCCCCC TGGCCCCTCT CCCCCACGGG 
GACGGCTTCC TGGAAACCAG TATGCCTGTT CCCGCGCCCA CCTGGCAAGA CGGGCCCCGC 
CCGGGCTGTG CCGAGTGTGT GTACCCTCCC CTGCTCGTGG TGACGTCTGC TTCGTTGGTT 
GACCTGGTCC TCAGGGACAC CCCCCAATCC ATGCCCTCCT TGGCCACTCA CAGTTCGTGG 
GACCTGGGTG CGGATGTGCT CCAGACCCAC AATGCAGCCT TCCAAGAGCA TGGCGCCCCC 
TCCTCGCCGG GCACTGCCCC TGCCAGTCGT GGCTTCCGCC GAGCCAGTGA GATCAGCATC 
GCCAGCCAGG TGTCAGGCAT GGCTGAGAGC TACACGGCAT CCAGCATCGC CCAGAAGGCC 
CCCGATGCGC TCAGCCATAC CCCCAGCGTC AGGCGTCTGT CCCTGCTCGC CCTGCCCGCC 
CCCAGCCCCA CCACCCCTGG CCCCCACCCT CCAGCCAGGA AGGCAAGCCC TGGCCTGGAG 
AGGGCCCCTG GCCTCCCTGA GCTGGACATT GGAGAAGTCG CTGCAAAGTG GTGGGGCCAG 
AAGCGGATCG ACTACGCCCT GTACTGCCCT GACGCCCTCA CGGCCTTCCC CACGGTGGCT 
CTGCCTCACC TCTTCCACGC CAGCTACTGG GAGTCAACAG ACGTGGTCTC CTTTCTGCTG 
AGACAGGTCA TGAGGCATGA CAACTCCAGC ATCTTGGAGC TGGATGGCAA GGAAGTGTCG 
GTGTTCACCC CCTCAAAGCC AAGGGAGAAG TGGCAGCGCA AGCGGACCCA CGTGAAGCTG 
CGGAACGTGA CGGCCAACCA CCGGATCAAT GATGCCCTTG CCAATGAGGA CGGCCCCCAG 
GTTCTGACGG GCAGGTTCAT GTATGGGCCC CTGGACATGG TCACCCTGAC TGGGGAGAAG 
GTGGATGTGC ACATCATGAC CCAGCCGCCC TCAGGCGAGT GGCTCTACCT GGATACGCTG 
GTGACCAACA ACAGTGGGCG TGTCTCCTAC ACCATCCCTG AGTCGCACCG CCTGGGCGTG 
GGTGTCTACC CTATCAAGAT GGTGGTCAGG GGAGACCACA CGTTTGCCGA CAGCTACATC 
ACCGTGCTGC CCAAGGGCAC AGAGTTCGTG GTCTTCAGCA TCGACGGTTC CTTTGCCGCT 
AGCGTGTCCA TCATGGGCAG CGACCCCAAG GTGCGGGCCG GGGCCGTGGA CGTGGTGCGG 
CACTGGCAGG ACCTGGGCTA CCTCATCATC TACGTGACGG GCCGGCCCGA CATGCAGAAG 
CAGCGGGTGG TGGCGTGGCT GGCCCAGCAC AACTTCCCCC ATGGCGTGGT GTCCTTCTGT 
GACGGCCTGG TGCATGACCC GCTGCGGCAC AAGGCCAACT TCCTGAAGCT GCTCATCTCC 
GAGCTGCACC TGCGCGTGCA CGCGGCCTAT GGCTCCACCA AGGACGTGGC GGTGTACAGC 
GCCATTAGCC TGTCCCCCAT GCAGATCTAC ATCGTGGGCC GGCCCACCAA GAAGCTGCAG 
CAGCAGTGCC AGTTCATCAC GGATGGCTAC GCGGCCCACC TGGCGCAGCT GAAGTACAGC 
CACCGGGCGC GGCCCGCTCG CAACACGGCC ACCCGCATGG CGCTGCGCAA GGGCAGCTTC 
GGCCTGCCCG GCCAGGGCGA CTTTCTGCGC TCCCGGAACC ACCTGCTTCG CACCATCTCG 
GCCCAGCCCA GCGGGCCCAG CCACCGGCAC GAGCGGACAC AGAGCCAGGC GGATGGCGAG 
CAGCGGGGCC AGCGCAGCAT GAGTGTGGCG GCCGGCTGCT GGGGCCGCGC CATGACTGGC 
CGCCTGGAGC CGGGGGCAGC CGCGGGCCCC AAGTAG

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

RefSeq	XP_024304869.1
CDS	499..3654
Translation	MWPWPTRWPRGRQAELSVSNKTVLDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAECVYPPLLVVTSASLVDLVLRDTPQSMPSLATHSSWDLGADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	XM_024449101.1
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X4, mRNA.

Target ORF information:

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

XM_024449101.1

ORF Insert Sequence:

ATGTGGCCGT GGCCGACAAG ATGGCCCCGC GGGAGGCAGG CGGAGCTCAG TGTGTCCAAT 
AAAACTGTCT TGGACGAGGT TAGCCAGCCG CTGGCTGCAC CGCCCTCCAA GATCCACGTG 
CTGCTACTGG TGCTGCACGG AGGCACCATC CTGGACACAG GCGCCGGGGA CCCCAGCTCC 
AAGAAGGGCG ATGCTAACAC CATCGCCAAC GTGTTCGACA CCGTCATGCG CGTGCACTAC 
CCCAGCGCCC TGGGCCGCCT TGCCATCCGC CTGGTGCCCT GCCCGCCCGT CTGCTCTGAC 
GCCTTTGCCC TGGTCTCCAA CCTCAGCCCC TACAGCCATG ACGAAGGCTG TCTGTCCAGC 
AGTCAGGACC ACATTCCCCT GGCTGCCCTC CCCCTGCTGG CCACCTCCTC CCCCCAGTAC 
CAGGAGGCAG TTGCCACAGT GATTCAGCGA GCCAACCTTG CCTATGGGGA CTTCATCAAG 
TCCCAGGAGG GCATGACCTT CAATGGGCAG GTCTGCCTGA TTGGGGACTG CGTCGGGGGC 
ATCCTGGCAT TTGATGCCCT GTGCTACAGT AACCAGCCGG TGTCTGAGAG TCAGAGCAGC 
AGCCGCCGGG GCAGCGTGGT CAGCATGCAG GACAATGACC TGCTGTCCCC GGGCATCCTG 
ATGAATGCAG CACACTGCTG CGGTGGTGGC GGTGGCGGCG GTGGCGGTGG TGGCAGCAGT 
GGTGGTGGTG GCAGTAGTGG TGGCTCCAGC CTGGAGAGCA GTCGGCACCT GAGCCGAAGC 
AACGTCGACA TCCCCCGCAG CAACGGCACT GAGGACCCCA AAAGGCAACT GCCCCGCAAG 
AGGAGCGACT CATCCACCTA CGAGCTGGAT ACCATCCAGC AGCACCAGGC CTTCCTGTCC 
AGCCTCCATG CCAGCGTGCT GAGGACTGAG CCCTGCTCAC GCCATTCCAG CAGCTCCACC 
ATGCTGGATG GCACAGGTGC CCTGGGCAGG TTTGACTTTG AGATCACCGA CCTCTTCCTC 
TTCGGGTGCC CGCTGGGGCT GGTCCTGGCC TTGAGGAAGA CTGTCATCCC AGCCCTGGAT 
GTTTTCCAGC TGCGGCCGGC CTGCCAGCAA GTCTACAACC TCTTCCACCC CGCGGACCCG 
TCAGCTTCAC GCCTGGAGCC GCTGCTGGAA CGGCGCTTTC ACGCCCTGCC GCCTTTCAGC 
GTCCCCCGCT ACCAACGCTA CCCGCTGGGG GATGGCTGCT CCACGCTGCT GGTCGAGACC 
GTGCAGAGAA ACCCTGAGCT GGTCCTGGAG GGCGGCCCCC TGGCCCCTCT CCCCCACGGG 
GACGGCTTCC TGGAAACCAG TATGCCTGTT CCCGCGCCCA CCTGGCAAGA CGGGCCCCGC 
CCGGGCTGTG CCGAGTGTGT GTACCCTCCC CTGCTCGTGG TGACGTCTGC TTCGTTGGTT 
GACCTGGTCC TCAGGGACAC CCCCCAATCC ATGCCCTCCT TGGCCACTCA CAGTTCGTGG 
GACCTGGGTG CGGATGTGCT CCAGACCCAC AATGCAGCCT TCCAAGAGCA TGGCGCCCCC 
TCCTCGCCGG GCACTGCCCC TGCCAGTCGT GGCTTCCGCC GAGCCAGTGA GATCAGCATC 
GCCAGCCAGG TGTCAGGCAT GGCTGAGAGC TACACGGCAT CCAGCATCGC CCAGAAGGCC 
CCCGATGCGC TCAGCCATAC CCCCAGCGTC AGGCGTCTGT CCCTGCTCGC CCTGCCCGCC 
CCCAGCCCCA CCACCCCTGG CCCCCACCCT CCAGCCAGGA AGGCAAGCCC TGGCCTGGAG 
AGGGCCCCTG GCCTCCCTGA GCTGGACATT GGAGAAGTCG CTGCAAAGTG GTGGGGCCAG 
AAGCGGATCG ACTACGCCCT GTACTGCCCT GACGCCCTCA CGGCCTTCCC CACGGTGGCT 
CTGCCTCACC TCTTCCACGC CAGCTACTGG GAGTCAACAG ACGTGGTCTC CTTTCTGCTG 
AGACAGGTCA TGAGGCATGA CAACTCCAGC ATCTTGGAGC TGGATGGCAA GGAAGTGTCG 
GTGTTCACCC CCTCAAAGCC AAGGGAGAAG TGGCAGCGCA AGCGGACCCA CGTGAAGCTG 
CGGAACGTGA CGGCCAACCA CCGGATCAAT GATGCCCTTG CCAATGAGGA CGGCCCCCAG 
GTTCTGACGG GCAGGTTCAT GTATGGGCCC CTGGACATGG TCACCCTGAC TGGGGAGAAG 
GTGGATGTGC ACATCATGAC CCAGCCGCCC TCAGGCGAGT GGCTCTACCT GGATACGCTG 
GTGACCAACA ACAGTGGGCG TGTCTCCTAC ACCATCCCTG AGTCGCACCG CCTGGGCGTG 
GGTGTCTACC CTATCAAGAT GGTGGTCAGG GGAGACCACA CGTTTGCCGA CAGCTACATC 
ACCGTGCTGC CCAAGGGCAC AGAGTTCGTG GTCTTCAGCA TCGACGGTTC CTTTGCCGCT 
AGCGTGTCCA TCATGGGCAG CGACCCCAAG GTGCGGGCCG GGGCCGTGGA CGTGGTGCGG 
CACTGGCAGG ACCTGGGCTA CCTCATCATC TACGTGACGG GCCGGCCCGA CATGCAGAAG 
CAGCGGGTGG TGGCGTGGCT GGCCCAGCAC AACTTCCCCC ATGGCGTGGT GTCCTTCTGT 
GACGGCCTGG TGCATGACCC GCTGCGGCAC AAGGCCAACT TCCTGAAGCT GCTCATCTCC 
GAGCTGCACC TGCGCGTGCA CGCGGCCTAT GGCTCCACCA AGGACGTGGC GGTGTACAGC 
GCCATTAGCC TGTCCCCCAT GCAGATCTAC ATCGTGGGCC GGCCCACCAA GAAGCTGCAG 
CAGCAGTGCC AGTTCATCAC GGATGGCTAC GCGGCCCACC TGGCGCAGCT GAAGTACAGC 
CACCGGGCGC GGCCCGCTCG CAACACGGCC ACCCGCATGG CGCTGCGCAA GGGCAGCTTC 
GGCCTGCCCG GCCAGGGCGA CTTTCTGCGC TCCCGGAACC ACCTGCTTCG CACCATCTCG 
GCCCAGCCCA GCGGGCCCAG CCACCGGCAC GAGCGGACAC AGAGCCAGGC GGATGGCGAG 
CAGCGGGGCC AGCGCAGCAT GAGTGTGGCG GCCGGCTGCT GGGGCCGCGC CATGACTGGC 
CGCCTGGAGC CGGGGGCAGC CGCGGGCCCC AAGTAG

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

PITPNM2 ( NM_001300801.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001287730.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 2, mRNA.

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CloneID	OHu46729
Clone ID Related Accession (Same CDS sequence)	NM_001300801.1
Accession Version	NM_001300801.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4032bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-08-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB040890.2, AC026362.38, H25884.1 and BC025360.1. On Jul 12, 2014 this sequence version replaced XM_005253585.1. Transcript Variant: This variant (2) lacks an alternate exon and contains an alternate in-frame exon, compared to variant 1. The encoded protein (isoform 2) is shorter, compared to isoform 1. ##Evidence-Data-START## Transcript exon combination :: AB040890.2 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END##

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTCG GATGTGCTCC AGACCCACAA TGCAGCCTTC 
CAAGAGCATG GCGCCCCCTC CTCGCCGGGC ACTGCCCCTG CCAGTCGTGG CTTCCGCCGA 
GCCAGTGAGA TCAGCATCGC CAGCCAGGTG TCAGGCATGG CTGAGAGCTA CACGGCATCC 
AGCATCGCCC AGATCGCTGC AAAGTGGTGG GGCCAGAAGC GGATCGACTA CGCCCTGTAC 
TGCCCTGACG CCCTCACGGC CTTCCCCACG GTGGCTCTGC CTCACCTCTT CCACGCCAGC 
TACTGGGAGT CAACAGACGT GGTCTCCTTT CTGCTGAGAC AGGTCATGAG GCATGACAAC 
TCCAGCATCT TGGAGCTGGA TGGCAAGGAA GTGTCGGTGT TCACCCCCTC AAAGCCAAGG 
GAGAAGTGGC AGCGCAAGCG GACCCACGTG AAGCTGCGGA ACGTGACGGC CAACCACCGG 
ATCAATGATG CCCTTGCCAA TGAGGACGGC CCCCAGGTTC TGACGGGCAG GTTCATGTAT 
GGGCCCCTGG ACATGGTCAC CCTGACTGGG GAGAAGGTGG ATGTGCACAT CATGACCCAG 
CCGCCCTCAG GCGAGTGGCT CTACCTGGAT ACGCTGGTGA CCAACAACAG TGGGCGTGTC 
TCCTACACCA TCCCTGAGTC GCACCGCCTG GGCGTGGGTG TCTACCCTAT CAAGATGGTG 
GTCAGGGGAG ACCACACGTT TGCCGACAGC TACATCACCG TGCTGCCCAA GGGCACAGAG 
TTCGTGGTCT TCAGCATCGA CGGTTCCTTT GCCGCTAGCG TGTCCATCAT GGGCAGCGAC 
CCCAAGGTGC GGGCCGGGGC CGTGGACGTG GTGCGGCACT GGCAGGACCT GGGCTACCTC 
ATCATCTACG TGACGGGCCG GCCCGACATG CAGAAGCAGC GGGTGGTGGC GTGGCTGGCC 
CAGCACAACT TCCCCCATGG CGTGGTGTCC TTCTGTGACG GCCTGGTGCA TGACCCGCTG 
CGGCACAAGG CCAACTTCCT GAAGCTGCTC ATCTCCGAGC TGCACCTGCG CGTGCACGCG 
GCCTATGGCT CCACCAAGGA CGTGGCGGTG TACAGCGCCA TTAGCCTGTC CCCCATGCAG 
ATCTACATCG TGGGCCGGCC CACCAAGAAG CTGCAGCAGC AGTGCCAGTT CATCACGGAT 
GGCTACGCGG CCCACCTGGC GCAGCTGAAG TACAGCCACC GGGCGCGGCC CGCTCGCAAC 
ACGGCCACCC GCATGGCGCT GCGCAAGGGC AGCTTCGGCC TGCCCGGCCA GGGCGACTTT 
CTGCGCTCCC GGAACCACCT GCTTCGCACC ATCTCGGCCC AGCCCAGCGG GCCCAGCCAC 
CGGCACGAGC GGACACAGAG CCAGGCGGAT GGCGAGCAGC GGGGCCAGCG CAGCATGAGT 
GTGGCGGCCG GCTGCTGGGG CCGCGCCATG ACTGGCCGCC TGGAGCCGGG GGCAGCCGCG 
GGCCCCAAGT AG

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

RefSeq	NP_001287730.1
CDS	201..4232
Translation	MIIKEYRIPLPMTVEEYRIAQLYMIQKKSRNETYGEGSGVEILENRPYTDGPGGSGQYTHKVYHVGMHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAESDVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQIAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	NM_001300801.1
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant 2, mRNA.

Target ORF information:

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

NM_001300801.1

ORF Insert Sequence:

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTCG GATGTGCTCC AGACCCACAA TGCAGCCTTC 
CAAGAGCATG GCGCCCCCTC CTCGCCGGGC ACTGCCCCTG CCAGTCGTGG CTTCCGCCGA 
GCCAGTGAGA TCAGCATCGC CAGCCAGGTG TCAGGCATGG CTGAGAGCTA CACGGCATCC 
AGCATCGCCC AGATCGCTGC AAAGTGGTGG GGCCAGAAGC GGATCGACTA CGCCCTGTAC 
TGCCCTGACG CCCTCACGGC CTTCCCCACG GTGGCTCTGC CTCACCTCTT CCACGCCAGC 
TACTGGGAGT CAACAGACGT GGTCTCCTTT CTGCTGAGAC AGGTCATGAG GCATGACAAC 
TCCAGCATCT TGGAGCTGGA TGGCAAGGAA GTGTCGGTGT TCACCCCCTC AAAGCCAAGG 
GAGAAGTGGC AGCGCAAGCG GACCCACGTG AAGCTGCGGA ACGTGACGGC CAACCACCGG 
ATCAATGATG CCCTTGCCAA TGAGGACGGC CCCCAGGTTC TGACGGGCAG GTTCATGTAT 
GGGCCCCTGG ACATGGTCAC CCTGACTGGG GAGAAGGTGG ATGTGCACAT CATGACCCAG 
CCGCCCTCAG GCGAGTGGCT CTACCTGGAT ACGCTGGTGA CCAACAACAG TGGGCGTGTC 
TCCTACACCA TCCCTGAGTC GCACCGCCTG GGCGTGGGTG TCTACCCTAT CAAGATGGTG 
GTCAGGGGAG ACCACACGTT TGCCGACAGC TACATCACCG TGCTGCCCAA GGGCACAGAG 
TTCGTGGTCT TCAGCATCGA CGGTTCCTTT GCCGCTAGCG TGTCCATCAT GGGCAGCGAC 
CCCAAGGTGC GGGCCGGGGC CGTGGACGTG GTGCGGCACT GGCAGGACCT GGGCTACCTC 
ATCATCTACG TGACGGGCCG GCCCGACATG CAGAAGCAGC GGGTGGTGGC GTGGCTGGCC 
CAGCACAACT TCCCCCATGG CGTGGTGTCC TTCTGTGACG GCCTGGTGCA TGACCCGCTG 
CGGCACAAGG CCAACTTCCT GAAGCTGCTC ATCTCCGAGC TGCACCTGCG CGTGCACGCG 
GCCTATGGCT CCACCAAGGA CGTGGCGGTG TACAGCGCCA TTAGCCTGTC CCCCATGCAG 
ATCTACATCG TGGGCCGGCC CACCAAGAAG CTGCAGCAGC AGTGCCAGTT CATCACGGAT 
GGCTACGCGG CCCACCTGGC GCAGCTGAAG TACAGCCACC GGGCGCGGCC CGCTCGCAAC 
ACGGCCACCC GCATGGCGCT GCGCAAGGGC AGCTTCGGCC TGCCCGGCCA GGGCGACTTT 
CTGCGCTCCC GGAACCACCT GCTTCGCACC ATCTCGGCCC AGCCCAGCGG GCCCAGCCAC 
CGGCACGAGC GGACACAGAG CCAGGCGGAT GGCGAGCAGC GGGGCCAGCG CAGCATGAGT 
GTGGCGGCCG GCTGCTGGGG CCGCGCCATG ACTGGCCGCC TGGAGCCGGG GGCAGCCGCG 
GGCCCCAAGT AG

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

PITPNM2 ( XM_024449099.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304867.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu70703
Clone ID Related Accession (Same CDS sequence)	XM_024449099.1 , XM_024449098.1
Accession Version	XM_024449099.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4308bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform X1
Comment	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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTGT GTGTACCCTC CCCTGCTCGT GGTGACGTCT 
GCTTCGTTGG TTGACCTGGT CCTCAGGGAC ACCCCCCAAT CCATGCCCTC CTTGGCCACT 
CACAGTTCGT GGGACCTGGG TGCGGATGTG CTCCAGACCC ACAATGCAGC CTTCCAAGAG 
CATGGCGCCC CCTCCTCGCC GGGCACTGCC CCTGCCAGTC GTGGCTTCCG CCGAGCCAGT 
GAGATCAGCA TCGCCAGCCA GGTGTCAGGC ATGGCTGAGA GCTACACGGC ATCCAGCATC 
GCCCAGAAGG CCCCCGATGC GCTCAGCCAT ACCCCCAGCG TCAGGCGTCT GTCCCTGCTC 
GCCCTGCCCG CCCCCAGCCC CACCACCCCT GGCCCCCACC CTCCAGCCAG GAAGGCAAGC 
CCTGGCCTGG AGAGGGCCCC TGGCCTCCCT GAGCTGGACA TTGGAGAAGT CGCTGCAAAG 
TGGTGGGGCC AGAAGCGGAT CGACTACGCC CTGTACTGCC CTGACGCCCT CACGGCCTTC 
CCCACGGTGG CTCTGCCTCA CCTCTTCCAC GCCAGCTACT GGGAGTCAAC AGACGTGGTC 
TCCTTTCTGC TGAGACAGGT CATGAGGCAT GACAACTCCA GCATCTTGGA GCTGGATGGC 
AAGGAAGTGT CGGTGTTCAC CCCCTCAAAG CCAAGGGAGA AGTGGCAGCG CAAGCGGACC 
CACGTGAAGC TGCGGAACGT GACGGCCAAC CACCGGATCA ATGATGCCCT TGCCAATGAG 
GACGGCCCCC AGGTTCTGAC GGGCAGGTTC ATGTATGGGC CCCTGGACAT GGTCACCCTG 
ACTGGGGAGA AGGTGGATGT GCACATCATG ACCCAGCCGC CCTCAGGCGA GTGGCTCTAC 
CTGGATACGC TGGTGACCAA CAACAGTGGG CGTGTCTCCT ACACCATCCC TGAGTCGCAC 
CGCCTGGGCG TGGGTGTCTA CCCTATCAAG ATGGTGGTCA GGGGAGACCA CACGTTTGCC 
GACAGCTACA TCACCGTGCT GCCCAAGGGC ACAGAGTTCG TGGTCTTCAG CATCGACGGT 
TCCTTTGCCG CTAGCGTGTC CATCATGGGC AGCGACCCCA AGGTGCGGGC CGGGGCCGTG 
GACGTGGTGC GGCACTGGCA GGACCTGGGC TACCTCATCA TCTACGTGAC GGGCCGGCCC 
GACATGCAGA AGCAGCGGGT GGTGGCGTGG CTGGCCCAGC ACAACTTCCC CCATGGCGTG 
GTGTCCTTCT GTGACGGCCT GGTGCATGAC CCGCTGCGGC ACAAGGCCAA CTTCCTGAAG 
CTGCTCATCT CCGAGCTGCA CCTGCGCGTG CACGCGGCCT ATGGCTCCAC CAAGGACGTG 
GCGGTGTACA GCGCCATTAG CCTGTCCCCC ATGCAGATCT ACATCGTGGG CCGGCCCACC 
AAGAAGCTGC AGCAGCAGTG CCAGTTCATC ACGGATGGCT ACGCGGCCCA CCTGGCGCAG 
CTGAAGTACA GCCACCGGGC GCGGCCCGCT CGCAACACGG CCACCCGCAT GGCGCTGCGC 
AAGGGCAGCT TCGGCCTGCC CGGCCAGGGC GACTTTCTGC GCTCCCGGAA CCACCTGCTT 
CGCACCATCT CGGCCCAGCC CAGCGGGCCC AGCCACCGGC ACGAGCGGAC ACAGAGCCAG 
GCGGATGGCG AGCAGCGGGG CCAGCGCAGC ATGAGTGTGG CGGCCGGCTG CTGGGGCCGC 
GCCATGACTG GCCGCCTGGA GCCGGGGGCA GCCGCGGGCC CCAAGTAG

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

RefSeq	XP_024304867.1
CDS	236..4543
Translation	MIIKEYRIPLPMTVEEYRIAQLYMIQKKSRNETYGEGSGVEILENRPYTDGPGGSGQYTHKVYHVGMHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAECVYPPLLVVTSASLVDLVLRDTPQSMPSLATHSSWDLGADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	XM_024449099.1
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X2, mRNA.

Target ORF information:

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

XM_024449099.1

ORF Insert Sequence:

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTGT GTGTACCCTC CCCTGCTCGT GGTGACGTCT 
GCTTCGTTGG TTGACCTGGT CCTCAGGGAC ACCCCCCAAT CCATGCCCTC CTTGGCCACT 
CACAGTTCGT GGGACCTGGG TGCGGATGTG CTCCAGACCC ACAATGCAGC CTTCCAAGAG 
CATGGCGCCC CCTCCTCGCC GGGCACTGCC CCTGCCAGTC GTGGCTTCCG CCGAGCCAGT 
GAGATCAGCA TCGCCAGCCA GGTGTCAGGC ATGGCTGAGA GCTACACGGC ATCCAGCATC 
GCCCAGAAGG CCCCCGATGC GCTCAGCCAT ACCCCCAGCG TCAGGCGTCT GTCCCTGCTC 
GCCCTGCCCG CCCCCAGCCC CACCACCCCT GGCCCCCACC CTCCAGCCAG GAAGGCAAGC 
CCTGGCCTGG AGAGGGCCCC TGGCCTCCCT GAGCTGGACA TTGGAGAAGT CGCTGCAAAG 
TGGTGGGGCC AGAAGCGGAT CGACTACGCC CTGTACTGCC CTGACGCCCT CACGGCCTTC 
CCCACGGTGG CTCTGCCTCA CCTCTTCCAC GCCAGCTACT GGGAGTCAAC AGACGTGGTC 
TCCTTTCTGC TGAGACAGGT CATGAGGCAT GACAACTCCA GCATCTTGGA GCTGGATGGC 
AAGGAAGTGT CGGTGTTCAC CCCCTCAAAG CCAAGGGAGA AGTGGCAGCG CAAGCGGACC 
CACGTGAAGC TGCGGAACGT GACGGCCAAC CACCGGATCA ATGATGCCCT TGCCAATGAG 
GACGGCCCCC AGGTTCTGAC GGGCAGGTTC ATGTATGGGC CCCTGGACAT GGTCACCCTG 
ACTGGGGAGA AGGTGGATGT GCACATCATG ACCCAGCCGC CCTCAGGCGA GTGGCTCTAC 
CTGGATACGC TGGTGACCAA CAACAGTGGG CGTGTCTCCT ACACCATCCC TGAGTCGCAC 
CGCCTGGGCG TGGGTGTCTA CCCTATCAAG ATGGTGGTCA GGGGAGACCA CACGTTTGCC 
GACAGCTACA TCACCGTGCT GCCCAAGGGC ACAGAGTTCG TGGTCTTCAG CATCGACGGT 
TCCTTTGCCG CTAGCGTGTC CATCATGGGC AGCGACCCCA AGGTGCGGGC CGGGGCCGTG 
GACGTGGTGC GGCACTGGCA GGACCTGGGC TACCTCATCA TCTACGTGAC GGGCCGGCCC 
GACATGCAGA AGCAGCGGGT GGTGGCGTGG CTGGCCCAGC ACAACTTCCC CCATGGCGTG 
GTGTCCTTCT GTGACGGCCT GGTGCATGAC CCGCTGCGGC ACAAGGCCAA CTTCCTGAAG 
CTGCTCATCT CCGAGCTGCA CCTGCGCGTG CACGCGGCCT ATGGCTCCAC CAAGGACGTG 
GCGGTGTACA GCGCCATTAG CCTGTCCCCC ATGCAGATCT ACATCGTGGG CCGGCCCACC 
AAGAAGCTGC AGCAGCAGTG CCAGTTCATC ACGGATGGCT ACGCGGCCCA CCTGGCGCAG 
CTGAAGTACA GCCACCGGGC GCGGCCCGCT CGCAACACGG CCACCCGCAT GGCGCTGCGC 
AAGGGCAGCT TCGGCCTGCC CGGCCAGGGC GACTTTCTGC GCTCCCGGAA CCACCTGCTT 
CGCACCATCT CGGCCCAGCC CAGCGGGCCC AGCCACCGGC ACGAGCGGAC ACAGAGCCAG 
GCGGATGGCG AGCAGCGGGG CCAGCGCAGC ATGAGTGTGG CGGCCGGCTG CTGGGGCCGC 
GCCATGACTG GCCGCCTGGA GCCGGGGGCA GCCGCGGGCC CCAAGTAG

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

PITPNM2 ( XM_024449098.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304866.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu70703
Clone ID Related Accession (Same CDS sequence)	XM_024449099.1 , XM_024449098.1
Accession Version	XM_024449098.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4308bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform X1
Comment	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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTGT GTGTACCCTC CCCTGCTCGT GGTGACGTCT 
GCTTCGTTGG TTGACCTGGT CCTCAGGGAC ACCCCCCAAT CCATGCCCTC CTTGGCCACT 
CACAGTTCGT GGGACCTGGG TGCGGATGTG CTCCAGACCC ACAATGCAGC CTTCCAAGAG 
CATGGCGCCC CCTCCTCGCC GGGCACTGCC CCTGCCAGTC GTGGCTTCCG CCGAGCCAGT 
GAGATCAGCA TCGCCAGCCA GGTGTCAGGC ATGGCTGAGA GCTACACGGC ATCCAGCATC 
GCCCAGAAGG CCCCCGATGC GCTCAGCCAT ACCCCCAGCG TCAGGCGTCT GTCCCTGCTC 
GCCCTGCCCG CCCCCAGCCC CACCACCCCT GGCCCCCACC CTCCAGCCAG GAAGGCAAGC 
CCTGGCCTGG AGAGGGCCCC TGGCCTCCCT GAGCTGGACA TTGGAGAAGT CGCTGCAAAG 
TGGTGGGGCC AGAAGCGGAT CGACTACGCC CTGTACTGCC CTGACGCCCT CACGGCCTTC 
CCCACGGTGG CTCTGCCTCA CCTCTTCCAC GCCAGCTACT GGGAGTCAAC AGACGTGGTC 
TCCTTTCTGC TGAGACAGGT CATGAGGCAT GACAACTCCA GCATCTTGGA GCTGGATGGC 
AAGGAAGTGT CGGTGTTCAC CCCCTCAAAG CCAAGGGAGA AGTGGCAGCG CAAGCGGACC 
CACGTGAAGC TGCGGAACGT GACGGCCAAC CACCGGATCA ATGATGCCCT TGCCAATGAG 
GACGGCCCCC AGGTTCTGAC GGGCAGGTTC ATGTATGGGC CCCTGGACAT GGTCACCCTG 
ACTGGGGAGA AGGTGGATGT GCACATCATG ACCCAGCCGC CCTCAGGCGA GTGGCTCTAC 
CTGGATACGC TGGTGACCAA CAACAGTGGG CGTGTCTCCT ACACCATCCC TGAGTCGCAC 
CGCCTGGGCG TGGGTGTCTA CCCTATCAAG ATGGTGGTCA GGGGAGACCA CACGTTTGCC 
GACAGCTACA TCACCGTGCT GCCCAAGGGC ACAGAGTTCG TGGTCTTCAG CATCGACGGT 
TCCTTTGCCG CTAGCGTGTC CATCATGGGC AGCGACCCCA AGGTGCGGGC CGGGGCCGTG 
GACGTGGTGC GGCACTGGCA GGACCTGGGC TACCTCATCA TCTACGTGAC GGGCCGGCCC 
GACATGCAGA AGCAGCGGGT GGTGGCGTGG CTGGCCCAGC ACAACTTCCC CCATGGCGTG 
GTGTCCTTCT GTGACGGCCT GGTGCATGAC CCGCTGCGGC ACAAGGCCAA CTTCCTGAAG 
CTGCTCATCT CCGAGCTGCA CCTGCGCGTG CACGCGGCCT ATGGCTCCAC CAAGGACGTG 
GCGGTGTACA GCGCCATTAG CCTGTCCCCC ATGCAGATCT ACATCGTGGG CCGGCCCACC 
AAGAAGCTGC AGCAGCAGTG CCAGTTCATC ACGGATGGCT ACGCGGCCCA CCTGGCGCAG 
CTGAAGTACA GCCACCGGGC GCGGCCCGCT CGCAACACGG CCACCCGCAT GGCGCTGCGC 
AAGGGCAGCT TCGGCCTGCC CGGCCAGGGC GACTTTCTGC GCTCCCGGAA CCACCTGCTT 
CGCACCATCT CGGCCCAGCC CAGCGGGCCC AGCCACCGGC ACGAGCGGAC ACAGAGCCAG 
GCGGATGGCG AGCAGCGGGG CCAGCGCAGC ATGAGTGTGG CGGCCGGCTG CTGGGGCCGC 
GCCATGACTG GCCGCCTGGA GCCGGGGGCA GCCGCGGGCC CCAAGTAG

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

RefSeq	XP_024304866.1
CDS	440..4747
Translation	MIIKEYRIPLPMTVEEYRIAQLYMIQKKSRNETYGEGSGVEILENRPYTDGPGGSGQYTHKVYHVGMHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAECVYPPLLVVTSASLVDLVLRDTPQSMPSLATHSSWDLGADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	XM_024449098.1
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.

Target ORF information:

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

XM_024449098.1

ORF Insert Sequence:

ATGATTATAA AGGAATATCG GATTCCTCTG CCAATGACCG TGGAGGAGTA CCGCATCGCC 
CAGCTGTACA TGATACAGAA GAAGAGCCGT AACGAGACAT ATGGCGAAGG CAGCGGCGTG 
GAGATCCTGG AGAACCGGCC GTACACAGAT GGCCCAGGCG GCTCTGGGCA GTACACACAC 
AAGGTGTATC ATGTGGGCAT GCACATTCCC AGCTGGTTCC GCTCCATCCT GCCCAAGGCA 
GCCCTGCGGG TGGTGGAGGA GTCTTGGAAT GCCTACCCCT ACACCCGAAC CAGGTTCACC 
TGTCCTTTCG TGGAGAAATT CTCCATCGAC ATTGAAACCT TTTATAAAAC TGATGCTGGA 
GAAAACCCCG ACGTGTTCAA CCTCTCTCCT GTGGAAAAGA ACCAGCTGAC AATCGACTTC 
ATCGACATTG TCAAAGACCC TGTGCCCCAC AACGAGTATA AGACAGAAGA GGACCCCAAG 
CTGTTCCAGT CAACCAAGAC CCAGCGGGGG CCCCTGTCCG AGAACTGGAT CGAGGAGTAC 
AAGAAGCAGG TCTTCCCCAT CATGTGCGCA TACAAGCTCT GCAAGGTGGA GTTCCGCTAC 
TGGGGCATGC AGTCCAAGAT CGAGAGGTTC ATCCACGACA CCGGACTACG GAGGGTGATG 
GTGCGGGCTC ACCGGCAGGC CTGGTGCTGG CAGGACGAGT GGTATGGGCT GAGCATGGAG 
AACATCCGGG AGCTGGAGAA GGAGGCACAG CTCATGCTTT CCCGTAAGAT GGCCCAGTTC 
AATGAGGATG GTGAGGAGGC CACTGAGCTC GTCAAGCACG AAGCCGTCTC GGACCAGACC 
TCTGGGGAGC CCCCGGAGCC CAGCAGCAGC AATGGGGAGC CCCTAGTGGG GCGCGGCCTC 
AAGAAACAGT GGTCCACATC CTCCAAGTCG TCTCGGTCGT CCAAGCGGGG AGCGAGTCCT 
TCCCGCCACA GCATCTCAGA GTGGAGGATG CAGAGTATTG CCAGGGACTC GGATGAGAGC 
TCAGATGATG AGTTCTTCGA TGCGCACGAG GACCTGTCCG ACACAGAGGA AATGTTCCCC 
AAGGACATCA CCAAGTGGAG CTCCAATGAC CTCATGGACA AGATCGAGAG CCCAGAGCCG 
GAAGACACAC AAGATGGTCT GTACCGCCAG GGTGCCCCTG AGTTCAGGGT GGCCTCCAGT 
GTGGAGCAGC TGAACATCAT AGAGGACGAG GTTAGCCAGC CGCTGGCTGC ACCGCCCTCC 
AAGATCCACG TGCTGCTACT GGTGCTGCAC GGAGGCACCA TCCTGGACAC AGGCGCCGGG 
GACCCCAGCT CCAAGAAGGG CGATGCTAAC ACCATCGCCA ACGTGTTCGA CACCGTCATG 
CGCGTGCACT ACCCCAGCGC CCTGGGCCGC CTTGCCATCC GCCTGGTGCC CTGCCCGCCC 
GTCTGCTCTG ACGCCTTTGC CCTGGTCTCC AACCTCAGCC CCTACAGCCA TGACGAAGGC 
TGTCTGTCCA GCAGTCAGGA CCACATTCCC CTGGCTGCCC TCCCCCTGCT GGCCACCTCC 
TCCCCCCAGT ACCAGGAGGC AGTTGCCACA GTGATTCAGC GAGCCAACCT TGCCTATGGG 
GACTTCATCA AGTCCCAGGA GGGCATGACC TTCAATGGGC AGGTCTGCCT GATTGGGGAC 
TGCGTCGGGG GCATCCTGGC ATTTGATGCC CTGTGCTACA GTAACCAGCC GGTGTCTGAG 
AGTCAGAGCA GCAGCCGCCG GGGCAGCGTG GTCAGCATGC AGGACAATGA CCTGCTGTCC 
CCGGGCATCC TGATGAATGC AGCACACTGC TGCGGTGGTG GCGGTGGCGG CGGTGGCGGT 
GGTGGCAGCA GTGGTGGTGG TGGCAGTAGT GGTGGCTCCA GCCTGGAGAG CAGTCGGCAC 
CTGAGCCGAA GCAACGTCGA CATCCCCCGC AGCAACGGCA CTGAGGACCC CAAAAGGCAA 
CTGCCCCGCA AGAGGAGCGA CTCATCCACC TACGAGCTGG ATACCATCCA GCAGCACCAG 
GCCTTCCTGT CCAGCCTCCA TGCCAGCGTG CTGAGGACTG AGCCCTGCTC ACGCCATTCC 
AGCAGCTCCA CCATGCTGGA TGGCACAGGT GCCCTGGGCA GGTTTGACTT TGAGATCACC 
GACCTCTTCC TCTTCGGGTG CCCGCTGGGG CTGGTCCTGG CCTTGAGGAA GACTGTCATC 
CCAGCCCTGG ATGTTTTCCA GCTGCGGCCG GCCTGCCAGC AAGTCTACAA CCTCTTCCAC 
CCCGCGGACC CGTCAGCTTC ACGCCTGGAG CCGCTGCTGG AACGGCGCTT TCACGCCCTG 
CCGCCTTTCA GCGTCCCCCG CTACCAACGC TACCCGCTGG GGGATGGCTG CTCCACGCTG 
CTGGTCGAGA CCGTGCAGAG AAACCCTGAG CTGGTCCTGG AGGGCGGCCC CCTGGCCCCT 
CTCCCCCACG GGGACGGCTT CCTGGAAACC AGTATGCCTG TTCCCGCGCC CACCTGGCAA 
GACGGGCCCC GCCCGGGCTG TGCCGAGTGT GTGTACCCTC CCCTGCTCGT GGTGACGTCT 
GCTTCGTTGG TTGACCTGGT CCTCAGGGAC ACCCCCCAAT CCATGCCCTC CTTGGCCACT 
CACAGTTCGT GGGACCTGGG TGCGGATGTG CTCCAGACCC ACAATGCAGC CTTCCAAGAG 
CATGGCGCCC CCTCCTCGCC GGGCACTGCC CCTGCCAGTC GTGGCTTCCG CCGAGCCAGT 
GAGATCAGCA TCGCCAGCCA GGTGTCAGGC ATGGCTGAGA GCTACACGGC ATCCAGCATC 
GCCCAGAAGG CCCCCGATGC GCTCAGCCAT ACCCCCAGCG TCAGGCGTCT GTCCCTGCTC 
GCCCTGCCCG CCCCCAGCCC CACCACCCCT GGCCCCCACC CTCCAGCCAG GAAGGCAAGC 
CCTGGCCTGG AGAGGGCCCC TGGCCTCCCT GAGCTGGACA TTGGAGAAGT CGCTGCAAAG 
TGGTGGGGCC AGAAGCGGAT CGACTACGCC CTGTACTGCC CTGACGCCCT CACGGCCTTC 
CCCACGGTGG CTCTGCCTCA CCTCTTCCAC GCCAGCTACT GGGAGTCAAC AGACGTGGTC 
TCCTTTCTGC TGAGACAGGT CATGAGGCAT GACAACTCCA GCATCTTGGA GCTGGATGGC 
AAGGAAGTGT CGGTGTTCAC CCCCTCAAAG CCAAGGGAGA AGTGGCAGCG CAAGCGGACC 
CACGTGAAGC TGCGGAACGT GACGGCCAAC CACCGGATCA ATGATGCCCT TGCCAATGAG 
GACGGCCCCC AGGTTCTGAC GGGCAGGTTC ATGTATGGGC CCCTGGACAT GGTCACCCTG 
ACTGGGGAGA AGGTGGATGT GCACATCATG ACCCAGCCGC CCTCAGGCGA GTGGCTCTAC 
CTGGATACGC TGGTGACCAA CAACAGTGGG CGTGTCTCCT ACACCATCCC TGAGTCGCAC 
CGCCTGGGCG TGGGTGTCTA CCCTATCAAG ATGGTGGTCA GGGGAGACCA CACGTTTGCC 
GACAGCTACA TCACCGTGCT GCCCAAGGGC ACAGAGTTCG TGGTCTTCAG CATCGACGGT 
TCCTTTGCCG CTAGCGTGTC CATCATGGGC AGCGACCCCA AGGTGCGGGC CGGGGCCGTG 
GACGTGGTGC GGCACTGGCA GGACCTGGGC TACCTCATCA TCTACGTGAC GGGCCGGCCC 
GACATGCAGA AGCAGCGGGT GGTGGCGTGG CTGGCCCAGC ACAACTTCCC CCATGGCGTG 
GTGTCCTTCT GTGACGGCCT GGTGCATGAC CCGCTGCGGC ACAAGGCCAA CTTCCTGAAG 
CTGCTCATCT CCGAGCTGCA CCTGCGCGTG CACGCGGCCT ATGGCTCCAC CAAGGACGTG 
GCGGTGTACA GCGCCATTAG CCTGTCCCCC ATGCAGATCT ACATCGTGGG CCGGCCCACC 
AAGAAGCTGC AGCAGCAGTG CCAGTTCATC ACGGATGGCT ACGCGGCCCA CCTGGCGCAG 
CTGAAGTACA GCCACCGGGC GCGGCCCGCT CGCAACACGG CCACCCGCAT GGCGCTGCGC 
AAGGGCAGCT TCGGCCTGCC CGGCCAGGGC GACTTTCTGC GCTCCCGGAA CCACCTGCTT 
CGCACCATCT CGGCCCAGCC CAGCGGGCCC AGCCACCGGC ACGAGCGGAC ACAGAGCCAG 
GCGGATGGCG AGCAGCGGGG CCAGCGCAGC ATGAGTGTGG CGGCCGGCTG CTGGGGCCGC 
GCCATGACTG GCCGCCTGGA GCCGGGGGCA GCCGCGGGCC CCAAGTAG

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

PITPNM2 ( XM_011538590.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011536892.1 Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.

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CloneID	OHu70708
Clone ID Related Accession (Same CDS sequence)	XM_011538590.2
Accession Version	XM_011538590.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4149bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	membrane-associated phosphatidylinositol transfer protein 2 isoform X1
Comment	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 On Jun 6, 2016 this sequence version replaced XM_011538590.1. ##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##

ATGCACATTC CCAGCTGGTT CCGCTCCATC CTGCCCAAGG CAGCCCTGCG GGTGGTGGAG 
GAGTCTTGGA ATGCCTACCC CTACACCCGA ACCAGGTTCA CCTGTCCTTT CGTGGAGAAA 
TTCTCCATCG ACATTGAAAC CTTTTATAAA ACTGATGCTG GAGAAAACCC CGACGTGTTC 
AACCTCTCTC CTGTGGAAAA GAACCAGCTG ACAATCGACT TCATCGACAT TGTCAAAGAC 
CCTGTGCCCC ACAACGAGTA TAAGACAGAA GAGGACCCCA AGCTGTTCCA GTCAACCAAG 
ACCCAGCGGG GGCCCCTGTC CGAGAACTGG ATCGAGGAGT ACAAGAAGCA GGTCTTCCCC 
ATCATGTGCG CATACAAGCT CTGCAAGGTG GAGTTCCGCT ACTGGGGCAT GCAGTCCAAG 
ATCGAGAGGT TCATCCACGA CACCGGACTA CGGAGGGTGA TGGTGCGGGC TCACCGGCAG 
GCCTGGTGCT GGCAGGACGA GTGGTATGGG CTGAGCATGG AGAACATCCG GGAGCTGGAG 
AAGGAGGCAC AGCTCATGCT TTCCCGTAAG ATGGCCCAGT TCAATGAGGA TGGTGAGGAG 
GCCACTGAGC TCGTCAAGCA CGAAGCCGTC TCGGACCAGA CCTCTGGGGA GCCCCCGGAG 
CCCAGCAGCA GCAATGGGGA GCCCCTAGTG GGGCGCGGCC TCAAGAAACA GTGGTCCACA 
TCCTCCAAGT CGTCTCGGTC GTCCAAGCGG GGAGCGAGTC CTTCCCGCCA CAGCATCTCA 
GAGTGGAGGA TGCAGAGTAT TGCCAGGGAC TCGGATGAGA GCTCAGATGA TGAGTTCTTC 
GATGCGCACG AGGACCTGTC CGACACAGAG GAAATGTTCC CCAAGGACAT CACCAAGTGG 
AGCTCCAATG ACCTCATGGA CAAGATCGAG AGCCCAGAGC CGGAAGACAC ACAAGATGGT 
CTGTACCGCC AGGGTGCCCC TGAGTTCAGG GTGGCCTCCA GTGTGGAGCA GCTGAACATC 
ATAGAGGACG AGGTTAGCCA GCCGCTGGCT GCACCGCCCT CCAAGATCCA CGTGCTGCTA 
CTGGTGCTGC ACGGAGGCAC CATCCTGGAC ACAGGCGCCG GGGACCCCAG CTCCAAGAAG 
GGCGATGCTA ACACCATCGC CAACGTGTTC GACACCGTCA TGCGCGTGCA CTACCCCAGC 
GCCCTGGGCC GCCTTGCCAT CCGCCTGGTG CCCTGCCCGC CCGTCTGCTC TGACGCCTTT 
GCCCTGGTCT CCAACCTCAG CCCCTACAGC CATGACGAAG GCTGTCTGTC CAGCAGTCAG 
GACCACATTC CCCTGGCTGC CCTCCCCCTG CTGGCCACCT CCTCCCCCCA GTACCAGGAG 
GCAGTTGCCA CAGTGATTCA GCGAGCCAAC CTTGCCTATG GGGACTTCAT CAAGTCCCAG 
GAGGGCATGA CCTTCAATGG GCAGGTCTGC CTGATTGGGG ACTGCGTCGG GGGCATCCTG 
GCATTTGATG CCCTGTGCTA CAGTAACCAG CCGGTGTCTG AGAGTCAGAG CAGCAGCCGC 
CGGGGCAGCG TGGTCAGCAT GCAGGACAAT GACCTGCTGT CCCCGGGCAT CCTGATGAAT 
GCAGCACACT GCTGCGGTGG TGGCGGTGGC GGCGGTGGCG GTGGTGGCAG CAGTGGTGGT 
GGTGGCAGTA GTGGTGGCTC CAGCCTGGAG AGCAGTCGGC ACCTGAGCCG AAGCAACGTC 
GACATCCCCC GCAGCAACGG CACTGAGGAC CCCAAAAGGC AACTGCCCCG CAAGAGGAGC 
GACTCATCCA CCTACGAGCT GGATACCATC CAGCAGCACC AGGCCTTCCT GTCCAGCCTC 
CATGCCAGCG TGCTGAGGAC TGAGCCCTGC TCACGCCATT CCAGCAGCTC CACCATGCTG 
GATGGCACAG GTGCCCTGGG CAGGTTTGAC TTTGAGATCA CCGACCTCTT CCTCTTCGGG 
TGCCCGCTGG GGCTGGTCCT GGCCTTGAGG AAGACTGTCA TCCCAGCCCT GGATGGGCCA 
GCCCCAGCTC TGCAGCCAAC ACCCCCACCC CCAGTTTTCC AGCTGCGGCC GGCCTGCCAG 
CAAGTCTACA ACCTCTTCCA CCCCGCGGAC CCGTCAGCTT CACGCCTGGA GCCGCTGCTG 
GAACGGCGCT TTCACGCCCT GCCGCCTTTC AGCGTCCCCC GCTACCAACG CTACCCGCTG 
GGGGATGGCT GCTCCACGCT GCTGGTCGAG ACCGTGCAGA GAAACCCTGA GCTGGTCCTG 
GAGGGCGGCC CCCTGGCCCC TCTCCCCCAC GGGGACGGCT TCCTGGAAAC CAGTATGCCT 
GTTCCCGCGC CCACCTGGCA AGACGGGCCC CGCCCGGGCT GTGCCGAGTG TGTGTACCCT 
CCCCTGCTCG TGGTGACGTC TGCTTCGTTG GTTGACCTGG TCCTCAGGGA CACCCCCCAA 
TCCATGCCCT CCTTGGCCAC TCACAGTTCG TGGGACCTGG GTGCGGATGT GCTCCAGACC 
CACAATGCAG CCTTCCAAGA GCATGGCGCC CCCTCCTCGC CGGGCACTGC CCCTGCCAGT 
CGTGGCTTCC GCCGAGCCAG TGAGATCAGC ATCGCCAGCC AGGTGTCAGG CATGGCTGAG 
AGCTACACGG CATCCAGCAT CGCCCAGAAG GCCCCCGATG CGCTCAGCCA TACCCCCAGC 
GTCAGGCGTC TGTCCCTGCT CGCCCTGCCC GCCCCCAGCC CCACCACCCC TGGCCCCCAC 
CCTCCAGCCA GGAAGGCAAG CCCTGGCCTG GAGAGGGCCC CTGGCCTCCC TGAGCTGGAC 
ATTGGAGAAG TCGCTGCAAA GTGGTGGGGC CAGAAGCGGA TCGACTACGC CCTGTACTGC 
CCTGACGCCC TCACGGCCTT CCCCACGGTG GCTCTGCCTC ACCTCTTCCA CGCCAGCTAC 
TGGGAGTCAA CAGACGTGGT CTCCTTTCTG CTGAGACAGG TCATGAGGCA TGACAACTCC 
AGCATCTTGG AGCTGGATGG CAAGGAAGTG TCGGTGTTCA CCCCCTCAAA GCCAAGGGAG 
AAGTGGCAGC GCAAGCGGAC CCACGTGAAG CTGCGGAACG TGACGGCCAA CCACCGGATC 
AATGATGCCC TTGCCAATGA GGACGGCCCC CAGGTTCTGA CGGGCAGGTT CATGTATGGG 
CCCCTGGACA TGGTCACCCT GACTGGGGAG AAGGTGGATG TGCACATCAT GACCCAGCCG 
CCCTCAGGCG AGTGGCTCTA CCTGGATACG CTGGTGACCA ACAACAGTGG GCGTGTCTCC 
TACACCATCC CTGAGTCGCA CCGCCTGGGC GTGGGTGTCT ACCCTATCAA GATGGTGGTC 
AGGGGAGACC ACACGTTTGC CGACAGCTAC ATCACCGTGC TGCCCAAGGG CACAGAGTTC 
GTGGTCTTCA GCATCGACGG TTCCTTTGCC GCTAGCGTGT CCATCATGGG CAGCGACCCC 
AAGGTGCGGG CCGGGGCCGT GGACGTGGTG CGGCACTGGC AGGACCTGGG CTACCTCATC 
ATCTACGTGA CGGGCCGGCC CGACATGCAG AAGCAGCGGG TGGTGGCGTG GCTGGCCCAG 
CACAACTTCC CCCATGGCGT GGTGTCCTTC TGTGACGGCC TGGTGCATGA CCCGCTGCGG 
CACAAGGCCA ACTTCCTGAA GCTGCTCATC TCCGAGCTGC ACCTGCGCGT GCACGCGGCC 
TATGGCTCCA CCAAGGACGT GGCGGTGTAC AGCGCCATTA GCCTGTCCCC CATGCAGATC 
TACATCGTGG GCCGGCCCAC CAAGAAGCTG CAGCAGCAGT GCCAGTTCAT CACGGATGGC 
TACGCGGCCC ACCTGGCGCA GCTGAAGTAC AGCCACCGGG CGCGGCCCGC TCGCAACACG 
GCCACCCGCA TGGCGCTGCG CAAGGGCAGC TTCGGCCTGC CCGGCCAGGG CGACTTTCTG 
CGCTCCCGGA ACCACCTGCT TCGCACCATC TCGGCCCAGC CCAGCGGGCC CAGCCACCGG 
CACGAGCGGA CACAGAGCCA GGCGGATGGC GAGCAGCGGG GCCAGCGCAG CATGAGTGTG 
GCGGCCGGCT GCTGGGGCCG CGCCATGACT GGCCGCCTGG AGCCGGGGGC AGCCGCGGGC 
CCCAAGTAG

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

RefSeq	XP_011536892.1
CDS	363..4511
Translation	MHIPSWFRSILPKAALRVVEESWNAYPYTRTRFTCPFVEKFSIDIETFYKTDAGENPDVFNLSPVEKNQLTIDFIDIVKDPVPHNEYKTEEDPKLFQSTKTQRGPLSENWIEEYKKQVFPIMCAYKLCKVEFRYWGMQSKIERFIHDTGLRRVMVRAHRQAWCWQDEWYGLSMENIRELEKEAQLMLSRKMAQFNEDGEEATELVKHEAVSDQTSGEPPEPSSSNGEPLVGRGLKKQWSTSSKSSRSSKRGASPSRHSISEWRMQSIARDSDESSDDEFFDAHEDLSDTEEMFPKDITKWSSNDLMDKIESPEPEDTQDGLYRQGAPEFRVASSVEQLNIIEDEVSQPLAAPPSKIHVLLLVLHGGTILDTGAGDPSSKKGDANTIANVFDTVMRVHYPSALGRLAIRLVPCPPVCSDAFALVSNLSPYSHDEGCLSSSQDHIPLAALPLLATSSPQYQEAVATVIQRANLAYGDFIKSQEGMTFNGQVCLIGDCVGGILAFDALCYSNQPVSESQSSSRRGSVVSMQDNDLLSPGILMNAAHCCGGGGGGGGGGGSSGGGGSSGGSSLESSRHLSRSNVDIPRSNGTEDPKRQLPRKRSDSSTYELDTIQQHQAFLSSLHASVLRTEPCSRHSSSSTMLDGTGALGRFDFEITDLFLFGCPLGLVLALRKTVIPALDGPAPALQPTPPPPVFQLRPACQQVYNLFHPADPSASRLEPLLERRFHALPPFSVPRYQRYPLGDGCSTLLVETVQRNPELVLEGGPLAPLPHGDGFLETSMPVPAPTWQDGPRPGCAECVYPPLLVVTSASLVDLVLRDTPQSMPSLATHSSWDLGADVLQTHNAAFQEHGAPSSPGTAPASRGFRRASEISIASQVSGMAESYTASSIAQKAPDALSHTPSVRRLSLLALPAPSPTTPGPHPPARKASPGLERAPGLPELDIGEVAAKWWGQKRIDYALYCPDALTAFPTVALPHLFHASYWESTDVVSFLLRQVMRHDNSSILELDGKEVSVFTPSKPREKWQRKRTHVKLRNVTANHRINDALANEDGPQVLTGRFMYGPLDMVTLTGEKVDVHIMTQPPSGEWLYLDTLVTNNSGRVSYTIPESHRLGVGVYPIKMVVRGDHTFADSYITVLPKGTEFVVFSIDGSFAASVSIMGSDPKVRAGAVDVVRHWQDLGYLIIYVTGRPDMQKQRVVAWLAQHNFPHGVVSFCDGLVHDPLRHKANFLKLLISELHLRVHAAYGSTKDVAVYSAISLSPMQIYIVGRPTKKLQQQCQFITDGYAAHLAQLKYSHRARPARNTATRMALRKGSFGLPGQGDFLRSRNHLLRTISAQPSGPSHRHERTQSQADGEQRGQRSMSVAAGCWGRAMTGRLEPGAAAGPK

Target ORF information:

RefSeq Version	XM_011538590.2
Organism	Homo sapiens(human)
Definition	Homo sapiens phosphatidylinositol transfer protein membrane associated 2 (PITPNM2), transcript variant X1, mRNA.

Target ORF information:

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

XM_011538590.2

ORF Insert Sequence:

ATGCACATTC CCAGCTGGTT CCGCTCCATC CTGCCCAAGG CAGCCCTGCG GGTGGTGGAG 
GAGTCTTGGA ATGCCTACCC CTACACCCGA ACCAGGTTCA CCTGTCCTTT CGTGGAGAAA 
TTCTCCATCG ACATTGAAAC CTTTTATAAA ACTGATGCTG GAGAAAACCC CGACGTGTTC 
AACCTCTCTC CTGTGGAAAA GAACCAGCTG ACAATCGACT TCATCGACAT TGTCAAAGAC 
CCTGTGCCCC ACAACGAGTA TAAGACAGAA GAGGACCCCA AGCTGTTCCA GTCAACCAAG 
ACCCAGCGGG GGCCCCTGTC CGAGAACTGG ATCGAGGAGT ACAAGAAGCA GGTCTTCCCC 
ATCATGTGCG CATACAAGCT CTGCAAGGTG GAGTTCCGCT ACTGGGGCAT GCAGTCCAAG 
ATCGAGAGGT TCATCCACGA CACCGGACTA CGGAGGGTGA TGGTGCGGGC TCACCGGCAG 
GCCTGGTGCT GGCAGGACGA GTGGTATGGG CTGAGCATGG AGAACATCCG GGAGCTGGAG 
AAGGAGGCAC AGCTCATGCT TTCCCGTAAG ATGGCCCAGT TCAATGAGGA TGGTGAGGAG 
GCCACTGAGC TCGTCAAGCA CGAAGCCGTC TCGGACCAGA CCTCTGGGGA GCCCCCGGAG 
CCCAGCAGCA GCAATGGGGA GCCCCTAGTG GGGCGCGGCC TCAAGAAACA GTGGTCCACA 
TCCTCCAAGT CGTCTCGGTC GTCCAAGCGG GGAGCGAGTC CTTCCCGCCA CAGCATCTCA 
GAGTGGAGGA TGCAGAGTAT TGCCAGGGAC TCGGATGAGA GCTCAGATGA TGAGTTCTTC 
GATGCGCACG AGGACCTGTC CGACACAGAG GAAATGTTCC CCAAGGACAT CACCAAGTGG 
AGCTCCAATG ACCTCATGGA CAAGATCGAG AGCCCAGAGC CGGAAGACAC ACAAGATGGT 
CTGTACCGCC AGGGTGCCCC TGAGTTCAGG GTGGCCTCCA GTGTGGAGCA GCTGAACATC 
ATAGAGGACG AGGTTAGCCA GCCGCTGGCT GCACCGCCCT CCAAGATCCA CGTGCTGCTA 
CTGGTGCTGC ACGGAGGCAC CATCCTGGAC ACAGGCGCCG GGGACCCCAG CTCCAAGAAG 
GGCGATGCTA ACACCATCGC CAACGTGTTC GACACCGTCA TGCGCGTGCA CTACCCCAGC 
GCCCTGGGCC GCCTTGCCAT CCGCCTGGTG CCCTGCCCGC CCGTCTGCTC TGACGCCTTT 
GCCCTGGTCT CCAACCTCAG CCCCTACAGC CATGACGAAG GCTGTCTGTC CAGCAGTCAG 
GACCACATTC CCCTGGCTGC CCTCCCCCTG CTGGCCACCT CCTCCCCCCA GTACCAGGAG 
GCAGTTGCCA CAGTGATTCA GCGAGCCAAC CTTGCCTATG GGGACTTCAT CAAGTCCCAG 
GAGGGCATGA CCTTCAATGG GCAGGTCTGC CTGATTGGGG ACTGCGTCGG GGGCATCCTG 
GCATTTGATG CCCTGTGCTA CAGTAACCAG CCGGTGTCTG AGAGTCAGAG CAGCAGCCGC 
CGGGGCAGCG TGGTCAGCAT GCAGGACAAT GACCTGCTGT CCCCGGGCAT CCTGATGAAT 
GCAGCACACT GCTGCGGTGG TGGCGGTGGC GGCGGTGGCG GTGGTGGCAG CAGTGGTGGT 
GGTGGCAGTA GTGGTGGCTC CAGCCTGGAG AGCAGTCGGC ACCTGAGCCG AAGCAACGTC 
GACATCCCCC GCAGCAACGG CACTGAGGAC CCCAAAAGGC AACTGCCCCG CAAGAGGAGC 
GACTCATCCA CCTACGAGCT GGATACCATC CAGCAGCACC AGGCCTTCCT GTCCAGCCTC 
CATGCCAGCG TGCTGAGGAC TGAGCCCTGC TCACGCCATT CCAGCAGCTC CACCATGCTG 
GATGGCACAG GTGCCCTGGG CAGGTTTGAC TTTGAGATCA CCGACCTCTT CCTCTTCGGG 
TGCCCGCTGG GGCTGGTCCT GGCCTTGAGG AAGACTGTCA TCCCAGCCCT GGATGGGCCA 
GCCCCAGCTC TGCAGCCAAC ACCCCCACCC CCAGTTTTCC AGCTGCGGCC GGCCTGCCAG 
CAAGTCTACA ACCTCTTCCA CCCCGCGGAC CCGTCAGCTT CACGCCTGGA GCCGCTGCTG 
GAACGGCGCT TTCACGCCCT GCCGCCTTTC AGCGTCCCCC GCTACCAACG CTACCCGCTG 
GGGGATGGCT GCTCCACGCT GCTGGTCGAG ACCGTGCAGA GAAACCCTGA GCTGGTCCTG 
GAGGGCGGCC CCCTGGCCCC TCTCCCCCAC GGGGACGGCT TCCTGGAAAC CAGTATGCCT 
GTTCCCGCGC CCACCTGGCA AGACGGGCCC CGCCCGGGCT GTGCCGAGTG TGTGTACCCT 
CCCCTGCTCG TGGTGACGTC TGCTTCGTTG GTTGACCTGG TCCTCAGGGA CACCCCCCAA 
TCCATGCCCT CCTTGGCCAC TCACAGTTCG TGGGACCTGG GTGCGGATGT GCTCCAGACC 
CACAATGCAG CCTTCCAAGA GCATGGCGCC CCCTCCTCGC CGGGCACTGC CCCTGCCAGT 
CGTGGCTTCC GCCGAGCCAG TGAGATCAGC ATCGCCAGCC AGGTGTCAGG CATGGCTGAG 
AGCTACACGG CATCCAGCAT CGCCCAGAAG GCCCCCGATG CGCTCAGCCA TACCCCCAGC 
GTCAGGCGTC TGTCCCTGCT CGCCCTGCCC GCCCCCAGCC CCACCACCCC TGGCCCCCAC 
CCTCCAGCCA GGAAGGCAAG CCCTGGCCTG GAGAGGGCCC CTGGCCTCCC TGAGCTGGAC 
ATTGGAGAAG TCGCTGCAAA GTGGTGGGGC CAGAAGCGGA TCGACTACGC CCTGTACTGC 
CCTGACGCCC TCACGGCCTT CCCCACGGTG GCTCTGCCTC ACCTCTTCCA CGCCAGCTAC 
TGGGAGTCAA CAGACGTGGT CTCCTTTCTG CTGAGACAGG TCATGAGGCA TGACAACTCC 
AGCATCTTGG AGCTGGATGG CAAGGAAGTG TCGGTGTTCA CCCCCTCAAA GCCAAGGGAG 
AAGTGGCAGC GCAAGCGGAC CCACGTGAAG CTGCGGAACG TGACGGCCAA CCACCGGATC 
AATGATGCCC TTGCCAATGA GGACGGCCCC CAGGTTCTGA CGGGCAGGTT CATGTATGGG 
CCCCTGGACA TGGTCACCCT GACTGGGGAG AAGGTGGATG TGCACATCAT GACCCAGCCG 
CCCTCAGGCG AGTGGCTCTA CCTGGATACG CTGGTGACCA ACAACAGTGG GCGTGTCTCC 
TACACCATCC CTGAGTCGCA CCGCCTGGGC GTGGGTGTCT ACCCTATCAA GATGGTGGTC 
AGGGGAGACC ACACGTTTGC CGACAGCTAC ATCACCGTGC TGCCCAAGGG CACAGAGTTC 
GTGGTCTTCA GCATCGACGG TTCCTTTGCC GCTAGCGTGT CCATCATGGG CAGCGACCCC 
AAGGTGCGGG CCGGGGCCGT GGACGTGGTG CGGCACTGGC AGGACCTGGG CTACCTCATC 
ATCTACGTGA CGGGCCGGCC CGACATGCAG AAGCAGCGGG TGGTGGCGTG GCTGGCCCAG 
CACAACTTCC CCCATGGCGT GGTGTCCTTC TGTGACGGCC TGGTGCATGA CCCGCTGCGG 
CACAAGGCCA ACTTCCTGAA GCTGCTCATC TCCGAGCTGC ACCTGCGCGT GCACGCGGCC 
TATGGCTCCA CCAAGGACGT GGCGGTGTAC AGCGCCATTA GCCTGTCCCC CATGCAGATC 
TACATCGTGG GCCGGCCCAC CAAGAAGCTG CAGCAGCAGT GCCAGTTCAT CACGGATGGC 
TACGCGGCCC ACCTGGCGCA GCTGAAGTAC AGCCACCGGG CGCGGCCCGC TCGCAACACG 
GCCACCCGCA TGGCGCTGCG CAAGGGCAGC TTCGGCCTGC CCGGCCAGGG CGACTTTCTG 
CGCTCCCGGA ACCACCTGCT TCGCACCATC TCGGCCCAGC CCAGCGGGCC CAGCCACCGG 
CACGAGCGGA CACAGAGCCA GGCGGATGGC GAGCAGCGGG GCCAGCGCAG CATGAGTGTG 
GCGGCCGGCT GCTGGGGCCG CGCCATGACT GGCCGCCTGG AGCCGGGGGC AGCCGCGGGC 
CCCAAGTAG

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

PubMed

Whole-exome sequencing of individuals from an isolated population implicates rare risk variants in bipolar disorder.
Translational psychiatry7(2)e1034(2017 02)
Lescai F,Als TD,Li Q,Nyegaard M,Andorsdottir G,Biskopst? M,Hedemand A,Fiorentino A,O'Brien N,Jarram A,Liang J,Grove J,Pallesen J,Eickhardt E,Mattheisen M,Bolund L,Demontis D,Wang AG,McQuillin A,Mors O,Wang J,B?rglum AD

Common genetic variants associated with cognitive performance identified using the proxy-phenotype method.
Proceedings of the National Academy of Sciences of the United States of America111(38)13790-4(2014 Sep)
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

Biological insights from 108 schizophrenia-associated genetic loci.
Nature511(7510)421-7(2014 Jul)

Genome-wide association analysis identifies 13 new risk loci for schizophrenia.
Nature genetics45(10)1150-9(2013 Oct)
Ripke S,O'Dushlaine C,Chambert K,Moran JL,K?hler AK,Akterin S,Bergen SE,Collins AL,Crowley JJ,Fromer M,Kim Y,Lee SH,Magnusson PK,Sanchez N,Stahl EA,Williams S,Wray NR,Xia K,Bettella F,Borglum AD,Bulik-Sullivan BK,Cormican P,Craddock N,de Leeuw C,Durmishi N,Gill M,Golimbet V,Hamshere ML,Holmans P,Hougaard DM,Kendler KS,Lin K,Morris DW,Mors O,Mortensen PB,Neale BM,O'Neill FA,Owen MJ,Milovancevic MP,Posthuma D,Powell J,Richards AL,Riley BP,Ruderfer D,Rujescu D,Sigurdsson E,Silagadze T,Smit AB,Stefansson H,Steinberg S,Suvisaari J,Tosato S,Verhage M,Walters JT,,Levinson DF,Gejman PV,Kendler KS,Laurent C,Mowry BJ,O'Donovan MC,Owen MJ,Pulver AE,Riley BP,Schwab SG,Wildenauer DB,Dudbridge F,Holmans P,Shi J,Albus M,Alexander M,Campion D,Cohen D,Dikeos D,Duan J,Eichhammer P,Godard S,Hansen M,Lerer FB,Liang KY,Maier W,Mallet J,Nertney DA,Nestadt G,Norton N,O'Neill FA,Papadimitriou GN,Ribble R,Sanders AR,Silverman JM,Walsh D,Williams NM,Wormley B,,Arranz MJ,Bakker S,Bender S,Bramon E,Collier D,Crespo-Facorro B,Hall J,Iyegbe C,Jablensky A,Kahn RS,Kalaydjieva L,Lawrie S,Lewis CM,Lin K,Linszen DH,Mata I,McIntosh A,Murray RM,Ophoff RA,Powell J,Rujescu D,Van Os J,Walshe M,Weisbrod M,Wiersma D,,Donnelly P,Barroso I,Blackwell JM,Bramon E,Brown MA,Casas JP,Corvin AP,Deloukas P,Duncanson A,Jankowski J,Markus HS,Mathew CG,Palmer CN,Plomin R,Rautanen A,Sawcer SJ,Trembath RC,Viswanathan AC,Wood NW,Spencer CC,Band G,Bellenguez C,Freeman C,Hellenthal G,Giannoulatou E,Pirinen M,Pearson RD,Strange A,Su Z,Vukcevic D,Donnelly P,Langford C,Hunt SE,Edkins S,Gwilliam R,Blackburn H,Bumpstead SJ,Dronov S,Gillman M,Gray E,Hammond N,Jayakumar A,McCann OT,Liddle J,Potter SC,Ravindrarajah R,Ricketts M,Tashakkori-Ghanbaria A,Waller MJ,Weston P,Widaa S,Whittaker P,Barroso I,Deloukas P,Mathew CG,Blackwell JM,Brown MA,Corvin AP,McCarthy MI,Spencer CC,Bramon E,Corvin AP,O'Donovan MC,Stefansson K,Scolnick E,Purcell S,McCarroll SA,Sklar P,Hultman CM,Sullivan PF

Duffy-null-associated low neutrophil counts influence HIV-1 susceptibility in high-risk South African black women.
Clinical infectious diseases : an official publication of the Infectious Diseases Society of America52(10)1248-56(2011 May)
Ramsuran V,Kulkarni H,He W,Mlisana K,Wright EJ,Werner L,Castiblanco J,Dhanda R,Le T,Dolan MJ,Guan W,Weiss RA,Clark RA,Karim SS,Ahuja SK,Ndung'u T

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PITPNM2 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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