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MAGI3 cDNA ORF clone, Homo sapiens(Human)

Gene Symbol MAGI3
Entrez Gene ID 260425
Full Name membrane associated guanylate kinase, WW and PDZ domain containing 3
Synonyms MAGI-3,dJ730K3.2
General protein information
Preferred Names

membrane associated guanylate kinase, WW and PDZ domain containing 3

Names

membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3
membrane-associated guanylate kinase inverted 3
membrane-associated guanylate kinase-related 3

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

1

1p13.2

Disorder MIM:

615943


mRNA and Protein(s)

mRNA Protein Name
NM_001142782.1 NP_001136254.1 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform 1
NM_152900.2 NP_690864.2 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform 2
XM_011541208.2 XP_011539510.1 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X1
XM_017000974.1 XP_016856463.1 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X2
XM_005270737.3 XP_005270794.1 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X3
XM_017000975.1 XP_016856464.1 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X4



Rattus norvegicus (Norway rat) Magi3 NP_620784.2
Canis lupus familiaris (dog) MAGI3 XP_005630899.1
Gallus gallus (chicken) MAGI3 NP_001012715.1
Macaca mulatta (rhesus monkey) LOC709341 XP_001097865.1
Bos taurus (cattle) MAGI3 NP_001179675.1
Danio rerio (zebrafish) LOC564220 XP_692662.4
Xenopus tropicalis (tropical clawed frog) magi3 NP_001090712.1
Homo sapiens (human) MAGI3 NP_001136254.1
Mus musculus (house mouse) Magi3 NP_001152826.1
Danio rerio (zebrafish) magi3 XP_690190.6


Related articles in PubMed

Identification of novel genetic Loci associated with thyroid peroxidase antibodies and clinical thyroid disease.
Medici M, Porcu E, Pistis G, Teumer A, Brown SJ, Jensen RA, Rawal R, Roef GL, Plantinga TS, Vermeulen SH, Lahti J, Simmonds MJ, Husemoen LL, Freathy RM, Shields BM, Pietzner D, Nagy R, Broer L, Chaker L, Korevaar TI, Plia MG, Sala C, Völker U, Richards JB, Sweep FC, Gieger C, Corre T, Kajantie E, Thuesen B, Taes YE, Visser WE, Hattersley AT, Kratzsch J, Hamilton A, Li W, Homuth G, Lobina M, Mariotti S, Soranzo N, Cocca M, Nauck M, Spielhagen C, Ross A, Arnold A, van de Bunt M, Liyanarachchi S, Heier M, Grabe HJ, Masciullo C, Galesloot TE, Lim EM, Reischl E, Leedman PJ, Lai S, Delitala A, Bremner AP, Philips DI, Beilby JP, Mulas A, Vocale M, Abecasis G, Forsen T, James A, Widen E, Hui J, Prokisch H, Rietzschel EE, Palotie A, Feddema P, Fletcher SJ, Schramm K, Rotter JI, Kluttig A, Radke D, Traglia M, Surdulescu GL, He H, Franklyn JA, Tiller D, Vaidya B, de Meyer T, Jørgensen T, Eriksson JG, O'Leary PC, Wichmann E, Hermus AR, Psaty BM, Ittermann T, Hofman A, Bosi E, Schlessinger D, Wallaschofski H, Pirastu N, Aulchenko YS, de la Chapelle A, Netea-Maier RT, Gough SC, Meyer Zu Schwabedissen H, Frayling TM, Kaufman JM, Linneberg A, Räikkönen K, Smit JW, Kiemeney LA, Rivadeneira F, Uitterlinden AG, Walsh JP, Meisinger C, den Heijer M, Visser TJ, Spector TD, Wilson SG, Völzke H, Cappola A, Toniolo D, Sanna S, Naitza S, Peeters RP
PLoS genetics10(2)e1004123(2014 Feb)

Genetic variants associated with disordered eating.
Wade TD, Gordon S, Medland S, Bulik CM, Heath AC, Montgomery GW, Martin NG
The International journal of eating disorders46(6)594-608(2013 Sep)

Novel genetic loci identified for the pathophysiology of childhood obesity in the Hispanic population.
Comuzzie AG, Cole SA, Laston SL, Voruganti VS, Haack K, Gibbs RA, Butte NF
PloS one7(12)e51954(2012)

MAGI-3 competes with NHERF-2 to negatively regulate LPA2 receptor signaling in colon cancer cells.
Lee SJ, Ritter SL, Zhang H, Shim H, Hall RA, Yun CC
Gastroenterology140(3)924-34(2011 Mar)

Comparison of p53 and the PDZ domain containing protein MAGI-3 regulation by the E6 protein from high-risk human papillomaviruses.
Ainsworth J, Thomas M, Banks L, Coutlee F, Matlashewski G
Virology journal567(2008 Jun)

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

Results identify MAGI3 as a novel tumor suppressor and provide insight into the pathogenesis of glioma.
Title: MAGI3 negatively regulates Wnt/β-catenin signaling and suppresses malignant phenotypes of glioma cells.

Expression levels of MAGI3 and PTEN were significantly downregulated in gliomas.
Title: MAGI3 Suppresses Glioma Cell Proliferation via Upregulation of PTEN Expression.

MAGI-3 competes with NHERF-2 to negatively regulate LPA2 receptor signaling in colon cancer cells.
Title: MAGI-3 competes with NHERF-2 to negatively regulate LPA2 receptor signaling in colon cancer cells.

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

All of the E6 genes from different HPV types displayed similar abilities to mediate the degradation of both p53 and MAGI-3
Title: Comparison of p53 and the PDZ domain containing protein MAGI-3 regulation by the E6 protein from high-risk human papillomaviruses.

The following MAGI3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAGI3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu87217 XM_017000975.1
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X6, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 14-16 $391.30
$559.00
OHu87216 XM_017000974.1
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 19-21 $559.30
$799.00
OHu13370 NM_152900.2
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $384.30
$549.00
OHu13370 XM_005270737.3
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X3, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $384.30
$549.00
OHu78486 XM_011541208.2
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00
OHu13683 NM_001142782.1
Latest version!
Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $923.30
$1319.00

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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.


CloneID OHu87217
Clone ID Related Accession (Same CDS sequence) XM_017000975.1
Accession Version XM_017000975.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 2265bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X4
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
ATGGAAAAAT CACACTTCAC AAGAGATCCA TCCCAGCTTA AAGGTGTCCT TGTTCGAGCA 
TCACTGAAAA AAAGCACAAT GGGATTTGGT TTTACTATTA TTGGTGGAGA TAGACCTGAT
GAGTTCCTAC AAGTGAAAAA TGTGCTGAAA GATGGTCCCG CAGCTCAGGA TGGGAAAATT
GCACCAGGCG ATGTTATTGT AGACATCAAT GGCAACTGTG TCCTCGGTCA CACTCATGCA
GATGTTGTCC AGATGTTTCA ATTGGTACCT GTCAATCAGT ATGTAAACCT CACTTTATGT
CGTGGTTATC CACTTCCTGA TGACAGTGAA GATCCTGTTG TGGACATTGT TGCTGCTACC
CCTGTCATCA ATGGACAGTC ATTAACCAAG GGAGAGACTT GCATGAATCC TCAGGATTTT
AAGCCAGGAG CAATGGTTCT GGAGCAGAAT GGAAAATCGG GACACACTTT GACTGGTGAT
GGTCTCAATG GACCATCAGA TGCAAGTGAG CAGAGAGTAT CCATGGCATC GTCAGGCAGC
TCCCAGCCTG AACTAGTGAC TATCCCTTTG ATTAAGGGCC CTAAAGGGTT TGGGTTTGCA
ATTGCTGACA GCCCTACTGG ACAGAAGGTG AAAATGATAC TGGATAGTCA GTGGTGTCAA
GGCCTTCAGA AAGGAGATAT AATTAAGGAA ATATACCATC AAAATGTGCA GAATTTAACA
CATCTCCAAG TGGTAGAGGT GCTAAAGCAG TTTCCAGTAG GTGCTGATGT ACCATTGCTT
ATCTTAAGAG GAGGTCCTCC TTCACCAACC AAAACTGCCA AAATGAAAAC AGATAAAAAG
GAAAATGCAG GAAGTTTGGA GGCCATAAAT GAGCCTATTC CTCAGCCTAT GCCTTTTCCA
CCGAGCATTA TCAGGTCAGG ATCCCCAAAA TTGGATCCTT CTGAGGTCTA CCTGAAATCT
AAGACTTTAT ATGAAGATAA ACCACCAAAC ACCAAAGATT TGGATGTTTT TCTTCGAAAA
CAAGAGTCAG GGTTTGGCTT CAGGGTGCTA GGAGGAGATG GACCTGACCA GTCTATATAT
ATTGGGGCTA TTATTCCCCT GGGAGCAGCT GAGAAAGATG GTCGGCTCCG CGCAGCTGAT
GAACTAATGT GCATTGATGG AATTCCTGTT AAAGGGAAAT CACACAAACA AGTCTTGGAC
CTCATGACAA CTGCTGCTCG AAATGGCCAT GTGTTACTAA CTGTCAGACG GAAGATCTTC
TATGGAGAAA AACAACCCGA GGACGACAGC TCTCAGGCCT TCATTTCAAC ACAGAATGGA
TCTCCCCGCC TGAACCGGGC AGAGGTCCCA GCCAGGCCTG CACCCCAGGA GCCCTATGAT
GTTGTCTTGC AACGAAAAGA AAATGAAGGA TTTGGCTTTG TCATCCTCAC CTCCAAAAAC
AAACCACCTC CAGGAGTTAT TCCTCATAAA ATTGGCCGAG TCATAGAAGG AAGTCCGGCT
GACCGCTGTG GAAAACTGAA AGTTGGAGAT CATATCTCTG CAGTGAATGG GCAGTCCATT
GTTGAACTGT CTCATGATAA CATTGTTCAG CTGATCAAAG ATGCTGGTGT CACCGTCACA
CTAACGGTCA TTGCTGAAGA AGAGCATCAT GGTCCACCAT CAGGAACAAA CTCAGCCAGG
CAAAGCCCAG CCCTGCAGCA CAGGCCCATG GGACAGTCAC AGGCCAACCA CATACCTGGG
GACAGAAGTG CCCTAGAAGG TGAAATTGGA AAAGATGTCT CCACTTCTTA CAGACATTCT
TGGTCAGACC ACAAGCACCT TGCACAGCCT GACACCGCAG TAATTTCAGT TGTAGGCAGT
CGGCACAATC AGAACCTTGG TTGTTATCCA GTAGAGCTGG AGAGAGGCCC CCGGGGCTTT
GGATTCAGCC TCCGAGGGGG GAAGGAGTAC AACATGGGGC TGTTCATCCT TCGTCTTGCT
GAAGATGGTC CTGCCATCAA AGATGGCAGA ATTCATGTTG GTGACCAGAT TGTTGAAATC
AATGGGGAAC CTACACAAGG AATCACACAT ACTCGAGCAA TTGAGCTCAT TCAGGCTGGT
GGAAATAAAG TTCTTCTTCT TTTGAGGCCA GGAACTGGCT TGATACCTGA CCATGTCCTA
GGCTTTTTCT CTTCCCTCTT CAGGTTTGGC TCCTTCCGGT CTGTGCTCCT ACGTGAAACC
CGAGCAACAT TAAGGCTTTC AGGGCTTTTC TTGGTCTTTC CTTAA

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

RefSeq XP_016856464.1
CDS327..2591
Translation

Target ORF information:

RefSeq Version XM_017000975.1
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X6, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000975.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
ATGGAAAAAT CACACTTCAC AAGAGATCCA TCCCAGCTTA AAGGTGTCCT TGTTCGAGCA 
TCACTGAAAA AAAGCACAAT GGGATTTGGT TTTACTATTA TTGGTGGAGA TAGACCTGAT
GAGTTCCTAC AAGTGAAAAA TGTGCTGAAA GATGGTCCCG CAGCTCAGGA TGGGAAAATT
GCACCAGGCG ATGTTATTGT AGACATCAAT GGCAACTGTG TCCTCGGTCA CACTCATGCA
GATGTTGTCC AGATGTTTCA ATTGGTACCT GTCAATCAGT ATGTAAACCT CACTTTATGT
CGTGGTTATC CACTTCCTGA TGACAGTGAA GATCCTGTTG TGGACATTGT TGCTGCTACC
CCTGTCATCA ATGGACAGTC ATTAACCAAG GGAGAGACTT GCATGAATCC TCAGGATTTT
AAGCCAGGAG CAATGGTTCT GGAGCAGAAT GGAAAATCGG GACACACTTT GACTGGTGAT
GGTCTCAATG GACCATCAGA TGCAAGTGAG CAGAGAGTAT CCATGGCATC GTCAGGCAGC
TCCCAGCCTG AACTAGTGAC TATCCCTTTG ATTAAGGGCC CTAAAGGGTT TGGGTTTGCA
ATTGCTGACA GCCCTACTGG ACAGAAGGTG AAAATGATAC TGGATAGTCA GTGGTGTCAA
GGCCTTCAGA AAGGAGATAT AATTAAGGAA ATATACCATC AAAATGTGCA GAATTTAACA
CATCTCCAAG TGGTAGAGGT GCTAAAGCAG TTTCCAGTAG GTGCTGATGT ACCATTGCTT
ATCTTAAGAG GAGGTCCTCC TTCACCAACC AAAACTGCCA AAATGAAAAC AGATAAAAAG
GAAAATGCAG GAAGTTTGGA GGCCATAAAT GAGCCTATTC CTCAGCCTAT GCCTTTTCCA
CCGAGCATTA TCAGGTCAGG ATCCCCAAAA TTGGATCCTT CTGAGGTCTA CCTGAAATCT
AAGACTTTAT ATGAAGATAA ACCACCAAAC ACCAAAGATT TGGATGTTTT TCTTCGAAAA
CAAGAGTCAG GGTTTGGCTT CAGGGTGCTA GGAGGAGATG GACCTGACCA GTCTATATAT
ATTGGGGCTA TTATTCCCCT GGGAGCAGCT GAGAAAGATG GTCGGCTCCG CGCAGCTGAT
GAACTAATGT GCATTGATGG AATTCCTGTT AAAGGGAAAT CACACAAACA AGTCTTGGAC
CTCATGACAA CTGCTGCTCG AAATGGCCAT GTGTTACTAA CTGTCAGACG GAAGATCTTC
TATGGAGAAA AACAACCCGA GGACGACAGC TCTCAGGCCT TCATTTCAAC ACAGAATGGA
TCTCCCCGCC TGAACCGGGC AGAGGTCCCA GCCAGGCCTG CACCCCAGGA GCCCTATGAT
GTTGTCTTGC AACGAAAAGA AAATGAAGGA TTTGGCTTTG TCATCCTCAC CTCCAAAAAC
AAACCACCTC CAGGAGTTAT TCCTCATAAA ATTGGCCGAG TCATAGAAGG AAGTCCGGCT
GACCGCTGTG GAAAACTGAA AGTTGGAGAT CATATCTCTG CAGTGAATGG GCAGTCCATT
GTTGAACTGT CTCATGATAA CATTGTTCAG CTGATCAAAG ATGCTGGTGT CACCGTCACA
CTAACGGTCA TTGCTGAAGA AGAGCATCAT GGTCCACCAT CAGGAACAAA CTCAGCCAGG
CAAAGCCCAG CCCTGCAGCA CAGGCCCATG GGACAGTCAC AGGCCAACCA CATACCTGGG
GACAGAAGTG CCCTAGAAGG TGAAATTGGA AAAGATGTCT CCACTTCTTA CAGACATTCT
TGGTCAGACC ACAAGCACCT TGCACAGCCT GACACCGCAG TAATTTCAGT TGTAGGCAGT
CGGCACAATC AGAACCTTGG TTGTTATCCA GTAGAGCTGG AGAGAGGCCC CCGGGGCTTT
GGATTCAGCC TCCGAGGGGG GAAGGAGTAC AACATGGGGC TGTTCATCCT TCGTCTTGCT
GAAGATGGTC CTGCCATCAA AGATGGCAGA ATTCATGTTG GTGACCAGAT TGTTGAAATC
AATGGGGAAC CTACACAAGG AATCACACAT ACTCGAGCAA TTGAGCTCAT TCAGGCTGGT
GGAAATAAAG TTCTTCTTCT TTTGAGGCCA GGAACTGGCT TGATACCTGA CCATGTCCTA
GGCTTTTTCT CTTCCCTCTT CAGGTTTGGC TCCTTCCGGT CTGTGCTCCT ACGTGAAACC
CGAGCAACAT TAAGGCTTTC AGGGCTTTTC TTGGTCTTTC CTTAA

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

CloneID OHu87216
Clone ID Related Accession (Same CDS sequence) XM_017000974.1
Accession Version XM_017000974.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3438bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGTC CTAGGCTTTT TCTCTTCCCT CTTCAGGTTT
GGCTCCTTCC GGTCTGTGCT CCTACGTGAA ACCCGAGCAA CATTAAGGCT TTCAGGGCTT
TTCTTGGTCT TTCCTTAA

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

RefSeq XP_016856463.1
CDS561..3998
Translation

Target ORF information:

RefSeq Version XM_017000974.1
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_017000974.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGTC CTAGGCTTTT TCTCTTCCCT CTTCAGGTTT
GGCTCCTTCC GGTCTGTGCT CCTACGTGAA ACCCGAGCAA CATTAAGGCT TTCAGGGCTT
TTCTTGGTCT TTCCTTAA

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

CloneID OHu13370
Clone ID Related Accession (Same CDS sequence) NM_152900.2 , XM_005270737.3
Accession Version NM_152900.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3378bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2015-03-15
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform 2
Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC130409.1 and AL133517.11. On Aug 15, 2007 this sequence version replaced NM_152900.1. Transcript Variant: This variant (2) uses an alternate splice site at the 5' end of the last coding exon, compared to variant 1, that results in a protein (isoform 2) with a shorter and distinct C-terminus, compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC130409.1, AF213259.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG
AAACCCGAGC AACATTAA

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

RefSeq NP_690864.2
CDS182..3559
Misc Feature(1)113..115
Misc Feature(2)251..484
Misc Feature(3)order(263..274,278..280,440..445,452..457)
Misc Feature(4)548..>772
Misc Feature(5)1061..1159
Misc Feature(6)order(1109..1111,1142..1144)
Misc Feature(7)1205..1297
Misc Feature(8)order(1247..1249,1280..1282)
Misc Feature(9)1418..1660
Misc Feature(10)order(1436..1447,1451..1453,1598..1603,1610..1615)
Misc Feature(11)1904..2149
Misc Feature(12)order(1940..1951,1955..1957,2084..2089,2096..2101)
Misc Feature(13)2357..2608
Misc Feature(14)order(2384..2395,2399..2401,2546..2551,2558..2563)
Misc Feature(15)2726..2986
Misc Feature(16)order(2762..2773,2777..2779,2936..2941,2948..2953)
Misc Feature(17)3245..3481
Misc Feature(18)order(3269..3280,3284..3286,3431..3436,3443..3448)
Exon (1)1..497
Exon (2)498..614
Exon (3)615..734
Exon (4)735..944
Exon (5)945..1119
Exon (6)1120..1199
Exon (7)1200..1257
Exon (8)1258..1352
Exon (9)1353..1541
Exon (10)1542..2147
Exon (11)2148..2179
Exon (12)2180..2336
Exon (13)2337..2428
Exon (14)2429..2621
Exon (15)2622..2810
Exon (16)2811..2996
Exon (17)2997..3099
Exon (18)3100..3226
Exon (19)3227..3370
Exon (20)3371..3509
Exon (21)3510..7221
Translation

Target ORF information:

RefSeq Version NM_152900.2
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_152900.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG
AAACCCGAGC AACATTAA

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

CloneID OHu13370
Clone ID Related Accession (Same CDS sequence) NM_152900.2 , XM_005270737.3
Accession Version XM_005270737.3 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3378bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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_005270737.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG
AAACCCGAGC AACATTAA

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

RefSeq XP_005270794.1
CDS182..3559
Misc Feature(1)251..484
Misc Feature(2)order(263..274,278..280,440..445,452..457)
Misc Feature(3)548..>772
Misc Feature(4)1061..1159
Misc Feature(5)order(1109..1111,1142..1144)
Misc Feature(6)1205..1297
Misc Feature(7)order(1247..1249,1280..1282)
Misc Feature(8)1418..1660
Misc Feature(9)order(1436..1447,1451..1453,1598..1603,1610..1615)
Misc Feature(10)1904..2149
Misc Feature(11)order(1940..1951,1955..1957,2084..2089,2096..2101)
Misc Feature(12)2357..2608
Misc Feature(13)order(2384..2395,2399..2401,2546..2551,2558..2563)
Misc Feature(14)2726..2986
Misc Feature(15)order(2762..2773,2777..2779,2936..2941,2948..2953)
Misc Feature(16)3245..3481
Misc Feature(17)order(3269..3280,3284..3286,3431..3436,3443..3448)
Translation

Target ORF information:

RefSeq Version XM_005270737.3
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X3, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_005270737.3

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG
AAACCCGAGC AACATTAA

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

CloneID OHu78486
Clone ID Related Accession (Same CDS sequence) XM_011541208.2
Accession Version XM_011541208.2 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2016-06-06
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011541208.1. ##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##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGGAAAGAA TGGATAGCTC TCTTCCTGAA GAGGAAGAAG ATGAGGACAA GGAAGCTATT 
AATGGCAGTG GAAACGCAGA AAACAGAGAG AGGCATTCTG AGTCATCTGA CTGGATGAAG
ACTGTTCCAA GTTACAACCA AACAAATAGC TCCATGGACT TTAGAAATTA TATGATGAGA
GATGAGACTC TGGAACCACT GCCCAAAAAC TGGGAAATGG CCTACACTGA CACAGGGATG
ATCTACTTCA TTGACCACAA TACCAAGACA ACCACCTGGT TGGATCCTCG TCTTTGTAAG
AAAGCCAAAG CCCCTGAAGA CTGTGAAGAT GGAGAGCTTC CTTATGGCTG GGAGAAAATA
GAGGACCCTC AGTATGGGAC ATACTATGTT GATCACCTTA ACCAGAAAAC CCAGTTTGAA
AATCCAGTGG AGGAAGCCAA AAGGAAAAAG CAGTTAGGAC AGGTTGAAAT TGGGTCTTCA
AAACCAGATA TGGAAAAATC ACACTTCACA AGAGATCCAT CCCAGCTTAA AGGTGTCCTT
GTTCGAGCAT CACTGAAAAA AAGCACAATG GGATTTGGTT TTACTATTAT TGGTGGAGAT
AGACCTGATG AGTTCCTACA AGTGAAAAAT GTGCTGAAAG ATGGTCCCGC AGCTCAGGAT
GGGAAAATTG CACCAGGCGA TGTTATTGTA GACATCAATG GCAACTGTGT CCTCGGTCAC
ACTCATGCAG ATGTTGTCCA GATGTTTCAA TTGGTACCTG TCAATCAGTA TGTAAACCTC
ACTTTATGTC GTGGTTATCC ACTTCCTGAT GACAGTGAAG ATCCTGTTGT GGACATTGTT
GCTGCTACCC CTGTCATCAA TGGACAGTCA TTAACCAAGG GAGAGACTTG CATGAATCCT
CAGGATTTTA AGCCAGGAGC AATGGTTCTG GAGCAGAATG GAAAATCGGG ACACACTTTG
ACTGGTGATG GTCTCAATGG ACCATCAGAT GCAAGTGAGC AGAGAGTATC CATGGCATCG
TCAGGCAGCT CCCAGCCTGA ACTAGTGACT ATCCCTTTGA TTAAGGGCCC TAAAGGGTTT
GGGTTTGCAA TTGCTGACAG CCCTACTGGA CAGAAGGTGA AAATGATACT GGATAGTCAG
TGGTGTCAAG GCCTTCAGAA AGGAGATATA ATTAAGGAAA TATACCATCA AAATGTGCAG
AATTTAACAC ATCTCCAAGT GGTAGAGGTG CTAAAGCAGT TTCCAGTAGG TGCTGATGTA
CCATTGCTTA TCTTAAGAGG AGGTCCTCCT TCACCAACCA AAACTGCCAA AATGAAAACA
GATAAAAAGG AAAATGCAGG AAGTTTGGAG GCCATAAATG AGCCTATTCC TCAGCCTATG
CCTTTTCCAC CGAGCATTAT CAGGTCAGGA TCCCCAAAAT TGGATCCTTC TGAGGTCTAC
CTGAAATCTA AGACTTTATA TGAAGATAAA CCACCAAACA CCAAAGATTT GGATGTTTTT
CTTCGAAAAC AAGAGTCAGG GTTTGGCTTC AGGGTGCTAG GAGGAGATGG ACCTGACCAG
TCTATATATA TTGGGGCTAT TATTCCCCTG GGAGCAGCTG AGAAAGATGG TCGGCTCCGC
GCAGCTGATG AACTAATGTG CATTGATGGA ATTCCTGTTA AAGGGAAATC ACACAAACAA
GTCTTGGACC TCATGACAAC TGCTGCTCGA AATGGCCATG TGTTACTAAC TGTCAGACGG
AAGATCTTCT ATGGAGAAAA ACAACCCGAG GACGACAGCT CTCAGGCCTT CATTTCAACA
CAGAATGGAT CTCCCCGCCT GAACCGGGCA GAGGTCCCAG CCAGGCCTGC ACCCCAGGAG
CCCTATGATG TTGTCTTGCA ACGAAAAGAA AATGAAGGAT TTGGCTTTGT CATCCTCACC
TCCAAAAACA AACCACCTCC AGGAGTTATT CCTCATAAAA TTGGCCGAGT CATAGAAGGA
AGTCCGGCTG ACCGCTGTGG AAAACTGAAA GTTGGAGATC ATATCTCTGC AGTGAATGGG
CAGTCCATTG TTGAACTGTC TCATGATAAC ATTGTTCAGC TGATCAAAGA TGCTGGTGTC
ACCGTCACAC TAACGGTCAT TGCTGAAGAA GAGCATCATG GTCCACCATC AGGAACAAAC
TCAGCCAGGC AAAGCCCAGC CCTGCAGCAC AGGCCCATGG GACAGTCACA GGCCAACCAC
ATACCTGGGG ACAGAAGTGC CCTAGAAGGT GAAATTGGAA AAGATGTCTC CACTTCTTAC
AGACATTCTT GGTCAGACCA CAAGCACCTT GCACAGCCTG ACACCGCAGT AATTTCAGTT
GTAGGCAGTC GGCACAATCA GAACCTTGGT TGTTATCCAG TAGAGCTGGA GAGAGGCCCC
CGGGGCTTTG GATTCAGCCT CCGAGGGGGG AAGGAGTACA ACATGGGGCT GTTCATCCTT
CGTCTTGCTG AAGATGGTCC TGCCATCAAA GATGGCAGAA TTCATGTTGG TGACCAGATT
GTTGAAATCA ATGGGGAACC TACACAAGGA ATCACACATA CTCGAGCAAT TGAGCTCATT
CAGGCTGGTG GAAATAAAGT TCTTCTTCTT TTGAGGCCAG GAACTGGCTT GATACCTGAC
CATGGTGATT GGGATATTAA TAATCCTTCG TCTTCAAATG TGATTTATGA TGAACAGTCA
CCATTACCCC CATCTTCACA TTTTGCTTCC ATATTTGAAG AGTCTCACGT GCCAGTAATT
GAAGAATCTT TGAGAGTTCA GATATGTGAA AAGGCAGAAG AATTAAAGGA CATTGTGCCT
GAAAAGAAAA GCACTTTAAA TGAAAATCAG CCTGAGATAA AGCATCAGTC TCTTCTCCAG
AAAAATGTGA GTAAGAGGGA TCCACCCAGC AGTCATGGGC ACAGTAACAA GAAAAATCTA
TTAAAAGTAG AAAATGGTGT TACACGAAGA GGTAGATCGG TTAGTCCCAA AAAGCCAGCC
AGTCAACATT CAGAGGAACA TTTGGATAAG ATTCCTAGTC CTCTAAAAAA TAACCCCAAA
AGAAGACCCA GAGATCAATC CCTCAGCCCC AGCAAAGGGG AAAATAAAAG TTGTCAGGTC
AGCACCAGGG CAGGCTCTGG ACAAGATCAG TGCAGAAAAA GCAGAGGTCG GTCGGCCAGC
CCAAAAAAGC AGCAAAAAAT TGAAGGAAGC AAAGCTCCAT CAAATGCTGA GGCCAAATTA
TTAGAGGGTA AGAGTCGAAG AATAGCAGGC TATACGGGCA GTAATGCTGA GCAGATCCCA
GATGGGAAGG AAAAATCAGA CGTCATCAGG AAAGATGCAA AGCAGAATCA GTTGGAAAAA
AGCAGAACAA GGTCTCCAGA GAAAAAAATC AAAAGAATGG TTGAGAAATC TCTTCCATCC
AAAATGACTA ATAAGACTAC AAGTAAAGAA GTATCTGAAA ATGAAAAAGG AAAGAAAGTA
ACCACAGGAG AAACAAGTTC TAGTAACGAT AAAATAGGAG AAAATGTCCA GCTATCAGAA
AAGAGGCTGA AGCAAGAACC TGAAGAGAAG GTAGTTTCAA ACAAAACAGA AGATCACAAA
GGGAAAGAAC TAGAGGCAGC TGACAAAAAC AAAGAGACTG GAAGGTTCAA ACCGGAAAGC
AGTTCTCCAG TTAAGAAAAC ACTGATAACT CCAGGGCCCT GGAAGGTTCC AAGTGGAAAT
AAAGTCACAG GCACTATTGG TATGGCTGAG AAACGGCAGT AA

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

RefSeq XP_011539510.1
CDS2817..6578
Misc Feature(1)3012..3110
Misc Feature(2)order(3060..3062,3093..3095)
Misc Feature(3)3156..3248
Misc Feature(4)order(3198..3200,3231..3233)
Misc Feature(5)3369..3611
Misc Feature(6)order(3387..3398,3402..3404,3549..3554,3561..3566)
Misc Feature(7)3855..4100
Misc Feature(8)order(3891..3902,3906..3908,4035..4040,4047..4052)
Misc Feature(9)4308..4553
Misc Feature(10)order(4335..4346,4350..4352,4497..4502,4509..4514)
Misc Feature(11)4677..4937
Misc Feature(12)order(4713..4724,4728..4730,4887..4892,4899..4904)
Misc Feature(13)5196..5432
Misc Feature(14)order(5220..5231,5235..5237,5382..5387,5394..5399)
Translation

Target ORF information:

RefSeq Version XM_011541208.2
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011541208.2

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
ATGGAAAGAA TGGATAGCTC TCTTCCTGAA GAGGAAGAAG ATGAGGACAA GGAAGCTATT 
AATGGCAGTG GAAACGCAGA AAACAGAGAG AGGCATTCTG AGTCATCTGA CTGGATGAAG
ACTGTTCCAA GTTACAACCA AACAAATAGC TCCATGGACT TTAGAAATTA TATGATGAGA
GATGAGACTC TGGAACCACT GCCCAAAAAC TGGGAAATGG CCTACACTGA CACAGGGATG
ATCTACTTCA TTGACCACAA TACCAAGACA ACCACCTGGT TGGATCCTCG TCTTTGTAAG
AAAGCCAAAG CCCCTGAAGA CTGTGAAGAT GGAGAGCTTC CTTATGGCTG GGAGAAAATA
GAGGACCCTC AGTATGGGAC ATACTATGTT GATCACCTTA ACCAGAAAAC CCAGTTTGAA
AATCCAGTGG AGGAAGCCAA AAGGAAAAAG CAGTTAGGAC AGGTTGAAAT TGGGTCTTCA
AAACCAGATA TGGAAAAATC ACACTTCACA AGAGATCCAT CCCAGCTTAA AGGTGTCCTT
GTTCGAGCAT CACTGAAAAA AAGCACAATG GGATTTGGTT TTACTATTAT TGGTGGAGAT
AGACCTGATG AGTTCCTACA AGTGAAAAAT GTGCTGAAAG ATGGTCCCGC AGCTCAGGAT
GGGAAAATTG CACCAGGCGA TGTTATTGTA GACATCAATG GCAACTGTGT CCTCGGTCAC
ACTCATGCAG ATGTTGTCCA GATGTTTCAA TTGGTACCTG TCAATCAGTA TGTAAACCTC
ACTTTATGTC GTGGTTATCC ACTTCCTGAT GACAGTGAAG ATCCTGTTGT GGACATTGTT
GCTGCTACCC CTGTCATCAA TGGACAGTCA TTAACCAAGG GAGAGACTTG CATGAATCCT
CAGGATTTTA AGCCAGGAGC AATGGTTCTG GAGCAGAATG GAAAATCGGG ACACACTTTG
ACTGGTGATG GTCTCAATGG ACCATCAGAT GCAAGTGAGC AGAGAGTATC CATGGCATCG
TCAGGCAGCT CCCAGCCTGA ACTAGTGACT ATCCCTTTGA TTAAGGGCCC TAAAGGGTTT
GGGTTTGCAA TTGCTGACAG CCCTACTGGA CAGAAGGTGA AAATGATACT GGATAGTCAG
TGGTGTCAAG GCCTTCAGAA AGGAGATATA ATTAAGGAAA TATACCATCA AAATGTGCAG
AATTTAACAC ATCTCCAAGT GGTAGAGGTG CTAAAGCAGT TTCCAGTAGG TGCTGATGTA
CCATTGCTTA TCTTAAGAGG AGGTCCTCCT TCACCAACCA AAACTGCCAA AATGAAAACA
GATAAAAAGG AAAATGCAGG AAGTTTGGAG GCCATAAATG AGCCTATTCC TCAGCCTATG
CCTTTTCCAC CGAGCATTAT CAGGTCAGGA TCCCCAAAAT TGGATCCTTC TGAGGTCTAC
CTGAAATCTA AGACTTTATA TGAAGATAAA CCACCAAACA CCAAAGATTT GGATGTTTTT
CTTCGAAAAC AAGAGTCAGG GTTTGGCTTC AGGGTGCTAG GAGGAGATGG ACCTGACCAG
TCTATATATA TTGGGGCTAT TATTCCCCTG GGAGCAGCTG AGAAAGATGG TCGGCTCCGC
GCAGCTGATG AACTAATGTG CATTGATGGA ATTCCTGTTA AAGGGAAATC ACACAAACAA
GTCTTGGACC TCATGACAAC TGCTGCTCGA AATGGCCATG TGTTACTAAC TGTCAGACGG
AAGATCTTCT ATGGAGAAAA ACAACCCGAG GACGACAGCT CTCAGGCCTT CATTTCAACA
CAGAATGGAT CTCCCCGCCT GAACCGGGCA GAGGTCCCAG CCAGGCCTGC ACCCCAGGAG
CCCTATGATG TTGTCTTGCA ACGAAAAGAA AATGAAGGAT TTGGCTTTGT CATCCTCACC
TCCAAAAACA AACCACCTCC AGGAGTTATT CCTCATAAAA TTGGCCGAGT CATAGAAGGA
AGTCCGGCTG ACCGCTGTGG AAAACTGAAA GTTGGAGATC ATATCTCTGC AGTGAATGGG
CAGTCCATTG TTGAACTGTC TCATGATAAC ATTGTTCAGC TGATCAAAGA TGCTGGTGTC
ACCGTCACAC TAACGGTCAT TGCTGAAGAA GAGCATCATG GTCCACCATC AGGAACAAAC
TCAGCCAGGC AAAGCCCAGC CCTGCAGCAC AGGCCCATGG GACAGTCACA GGCCAACCAC
ATACCTGGGG ACAGAAGTGC CCTAGAAGGT GAAATTGGAA AAGATGTCTC CACTTCTTAC
AGACATTCTT GGTCAGACCA CAAGCACCTT GCACAGCCTG ACACCGCAGT AATTTCAGTT
GTAGGCAGTC GGCACAATCA GAACCTTGGT TGTTATCCAG TAGAGCTGGA GAGAGGCCCC
CGGGGCTTTG GATTCAGCCT CCGAGGGGGG AAGGAGTACA ACATGGGGCT GTTCATCCTT
CGTCTTGCTG AAGATGGTCC TGCCATCAAA GATGGCAGAA TTCATGTTGG TGACCAGATT
GTTGAAATCA ATGGGGAACC TACACAAGGA ATCACACATA CTCGAGCAAT TGAGCTCATT
CAGGCTGGTG GAAATAAAGT TCTTCTTCTT TTGAGGCCAG GAACTGGCTT GATACCTGAC
CATGGTGATT GGGATATTAA TAATCCTTCG TCTTCAAATG TGATTTATGA TGAACAGTCA
CCATTACCCC CATCTTCACA TTTTGCTTCC ATATTTGAAG AGTCTCACGT GCCAGTAATT
GAAGAATCTT TGAGAGTTCA GATATGTGAA AAGGCAGAAG AATTAAAGGA CATTGTGCCT
GAAAAGAAAA GCACTTTAAA TGAAAATCAG CCTGAGATAA AGCATCAGTC TCTTCTCCAG
AAAAATGTGA GTAAGAGGGA TCCACCCAGC AGTCATGGGC ACAGTAACAA GAAAAATCTA
TTAAAAGTAG AAAATGGTGT TACACGAAGA GGTAGATCGG TTAGTCCCAA AAAGCCAGCC
AGTCAACATT CAGAGGAACA TTTGGATAAG ATTCCTAGTC CTCTAAAAAA TAACCCCAAA
AGAAGACCCA GAGATCAATC CCTCAGCCCC AGCAAAGGGG AAAATAAAAG TTGTCAGGTC
AGCACCAGGG CAGGCTCTGG ACAAGATCAG TGCAGAAAAA GCAGAGGTCG GTCGGCCAGC
CCAAAAAAGC AGCAAAAAAT TGAAGGAAGC AAAGCTCCAT CAAATGCTGA GGCCAAATTA
TTAGAGGGTA AGAGTCGAAG AATAGCAGGC TATACGGGCA GTAATGCTGA GCAGATCCCA
GATGGGAAGG AAAAATCAGA CGTCATCAGG AAAGATGCAA AGCAGAATCA GTTGGAAAAA
AGCAGAACAA GGTCTCCAGA GAAAAAAATC AAAAGAATGG TTGAGAAATC TCTTCCATCC
AAAATGACTA ATAAGACTAC AAGTAAAGAA GTATCTGAAA ATGAAAAAGG AAAGAAAGTA
ACCACAGGAG AAACAAGTTC TAGTAACGAT AAAATAGGAG AAAATGTCCA GCTATCAGAA
AAGAGGCTGA AGCAAGAACC TGAAGAGAAG GTAGTTTCAA ACAAAACAGA AGATCACAAA
GGGAAAGAAC TAGAGGCAGC TGACAAAAAC AAAGAGACTG GAAGGTTCAA ACCGGAAAGC
AGTTCTCCAG TTAAGAAAAC ACTGATAACT CCAGGGCCCT GGAAGGTTCC AAGTGGAAAT
AAAGTCACAG GCACTATTGG TATGGCTGAG AAACGGCAGT AA

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

CloneID OHu13683
Clone ID Related Accession (Same CDS sequence) NM_001142782.1
Accession Version NM_001142782.1 Latest version! Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Insert Structure linear
Update Date 2015-03-15
Organism Homo sapiens(Human)
Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform 1
Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC130409.1, AK311589.1, AB046854.1 and AA992863.1. Transcript Variant: This variant (1) encodes the longer protein (isoform 1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT GATTGGGATA TTAATAATCC TTCGTCTTCA
AATGTGATTT ATGATGAACA GTCACCATTA CCCCCATCTT CACATTTTGC TTCCATATTT
GAAGAGTCTC ACGTGCCAGT AATTGAAGAA TCTTTGAGAG TTCAGATATG TGAAAAGGCA
GAAGAATTAA AGGACATTGT GCCTGAAAAG AAAAGCACTT TAAATGAAAA TCAGCCTGAG
ATAAAGCATC AGTCTCTTCT CCAGAAAAAT GTGAGTAAGA GGGATCCACC CAGCAGTCAT
GGGCACAGTA ACAAGAAAAA TCTATTAAAA GTAGAAAATG GTGTTACACG AAGAGGTAGA
TCGGTTAGTC CCAAAAAGCC AGCCAGTCAA CATTCAGAGG AACATTTGGA TAAGATTCCT
AGTCCTCTAA AAAATAACCC CAAAAGAAGA CCCAGAGATC AATCCCTCAG CCCCAGCAAA
GGGGAAAATA AAAGTTGTCA GGTCAGCACC AGGGCAGGCT CTGGACAAGA TCAGTGCAGA
AAAAGCAGAG GTCGGTCGGC CAGCCCAAAA AAGCAGCAAA AAATTGAAGG AAGCAAAGCT
CCATCAAATG CTGAGGCCAA ATTATTAGAG GGTAAGAGTC GAAGAATAGC AGGCTATACG
GGCAGTAATG CTGAGCAGAT CCCAGATGGG AAGGAAAAAT CAGACGTCAT CAGGAAAGAT
GCAAAGCAGA ATCAGTTGGA AAAAAGCAGA ACAAGGTCTC CAGAGAAAAA AATCAAAAGA
ATGGTTGAGA AATCTCTTCC ATCCAAAATG ACTAATAAGA CTACAAGTAA AGAAGTATCT
GAAAATGAAA AAGGAAAGAA AGTAACCACA GGAGAAACAA GTTCTAGTAA CGATAAAATA
GGAGAAAATG TCCAGCTATC AGAAAAGAGG CTGAAGCAAG AACCTGAAGA GAAGGTAGTT
TCAAACAAAA CAGAAGATCA CAAAGGGAAA GAACTAGAGG CAGCTGACAA AAACAAAGAG
ACTGGAAGGT TCAAACCGGA AAGCAGTTCT CCAGTTAAGA AAACACTGAT AACTCCAGGG
CCCTGGAAGG TTCCAAGTGG AAATAAAGTC ACAGGCACTA TTGGTATGGC TGAGAAACGG
CAGTAA

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

RefSeq NP_001136254.1
CDS182..4627
Misc Feature(1)113..115
Misc Feature(2)233..499
Misc Feature(3)251..484
Misc Feature(4)order(263..274,278..280,440..445,452..457)
Misc Feature(5)548..>772
Misc Feature(6)881..883
Misc Feature(7)1061..1159
Misc Feature(8)order(1109..1111,1142..1144)
Misc Feature(9)1205..1297
Misc Feature(10)order(1247..1249,1280..1282)
Misc Feature(11)1409..1657
Misc Feature(12)1418..1660
Misc Feature(13)order(1436..1447,1451..1453,1598..1603,1610..1615)
Misc Feature(14)1904..2149
Misc Feature(15)order(1940..1951,1955..1957,2084..2089,2096..2101)
Misc Feature(16)2357..2605
Misc Feature(17)2357..2602
Misc Feature(18)order(2384..2395,2399..2401,2546..2551,2558..2563)
Misc Feature(19)2726..2986
Misc Feature(20)2732..2995
Misc Feature(21)order(2762..2773,2777..2779,2936..2941,2948..2953)
Misc Feature(22)3245..3481
Misc Feature(23)order(3269..3280,3284..3286,3431..3436,3443..3448)
Exon (1)1..497
Exon (2)498..614
Exon (3)615..734
Exon (4)735..944
Exon (5)945..1119
Exon (6)1120..1199
Exon (7)1200..1257
Exon (8)1258..1352
Exon (9)1353..1541
Exon (10)1542..2147
Exon (11)2148..2179
Exon (12)2180..2336
Exon (13)2337..2428
Exon (14)2429..2621
Exon (15)2622..2810
Exon (16)2811..2996
Exon (17)2997..3099
Exon (18)3100..3226
Exon (19)3227..3370
Exon (20)3371..3509
Exon (21)3510..6536
Translation

Target ORF information:

RefSeq Version NM_001142782.1
Organism Homo sapiens(Human)
Definition Homo sapiens membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001142782.1

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
ATGTCGAAGA CGCTGAAGAA GAAGAAGCAC TGGCTCAGCA AGGTGCAGGA GTGCGCCGTG 
TCCTGGGCCG GGCCCCCGGG CGACTTCGGC GCGGAGATCC GCGGTGGCGC GGAGCGTGGC
GAGTTCCCCT ACCTGGGGCG GCTCCGCGAG GAGCCCGGCG GGGGCACCTG CTGCGTCGTC
TCGGGCAAGG CGCCCAGCCC AGGCGATGTG CTGCTGGAGG TAAACGGGAC GCCTGTCAGC
GGGCTCACCA ACCGGGACAC CCTGGCTGTC ATCCGCCACT TCCGCGAGCC CATCCGTCTC
AAGACTGTGA AACCAGGCAA AGTCATTAAT AAAGATTTGC GGCATTACCT AAGTCTTCAG
TTTCAAAAAG GATCAATTGA CCACAAACTG CAGCAAGTGA TCAGAGATAA TCTCTACTTG
AGAACCATTC CATGCACTAC AAGGGCCCCC AGGGATGGAG AAGTACCAGG AGTGGATTAT
AATTTCATTT CCGTTGAACA GTTCAAAGCA CTGGAAGAGA GTGGAGCATT GTTAGAAAGT
GGGACATATG ATGGAAACTT CTATGGAACT CCCAAGCCTC CAGCAGAACC CAGCCCTTTT
CAGCCAGATC CAGTTGATCA AGTCCTCTTT GATAATGAGT TTGATGCAGA ATCTCAAAGA
AAACGAACGA CATCTGTCAG CAAGATGGAA AGAATGGATA GCTCTCTTCC TGAAGAGGAA
GAAGATGAGG ACAAGGAAGC TATTAATGGC AGTGGAAACG CAGAAAACAG AGAGAGGCAT
TCTGAGTCAT CTGACTGGAT GAAGACTGTT CCAAGTTACA ACCAAACAAA TAGCTCCATG
GACTTTAGAA ATTATATGAT GAGAGATGAG ACTCTGGAAC CACTGCCCAA AAACTGGGAA
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAATACCAA GACAACCACC
TGGTTGGATC CTCGTCTTTG TAAGAAAGCC AAAGCCCCTG AAGACTGTGA AGATGGAGAG
CTTCCTTATG GCTGGGAGAA AATAGAGGAC CCTCAGTATG GGACATACTA TGTTGATCAC
CTTAACCAGA AAACCCAGTT TGAAAATCCA GTGGAGGAAG CCAAAAGGAA AAAGCAGTTA
GGACAGGTTG AAATTGGGTC TTCAAAACCA GATATGGAAA AATCACACTT CACAAGAGAT
CCATCCCAGC TTAAAGGTGT CCTTGTTCGA GCATCACTGA AAAAAAGCAC AATGGGATTT
GGTTTTACTA TTATTGGTGG AGATAGACCT GATGAGTTCC TACAAGTGAA AAATGTGCTG
AAAGATGGTC CCGCAGCTCA GGATGGGAAA ATTGCACCAG GCGATGTTAT TGTAGACATC
AATGGCAACT GTGTCCTCGG TCACACTCAT GCAGATGTTG TCCAGATGTT TCAATTGGTA
CCTGTCAATC AGTATGTAAA CCTCACTTTA TGTCGTGGTT ATCCACTTCC TGATGACAGT
GAAGATCCTG TTGTGGACAT TGTTGCTGCT ACCCCTGTCA TCAATGGACA GTCATTAACC
AAGGGAGAGA CTTGCATGAA TCCTCAGGAT TTTAAGCCAG GAGCAATGGT TCTGGAGCAG
AATGGAAAAT CGGGACACAC TTTGACTGGT GATGGTCTCA ATGGACCATC AGATGCAAGT
GAGCAGAGAG TATCCATGGC ATCGTCAGGC AGCTCCCAGC CTGAACTAGT GACTATCCCT
TTGATTAAGG GCCCTAAAGG GTTTGGGTTT GCAATTGCTG ACAGCCCTAC TGGACAGAAG
GTGAAAATGA TACTGGATAG TCAGTGGTGT CAAGGCCTTC AGAAAGGAGA TATAATTAAG
GAAATATACC ATCAAAATGT GCAGAATTTA ACACATCTCC AAGTGGTAGA GGTGCTAAAG
CAGTTTCCAG TAGGTGCTGA TGTACCATTG CTTATCTTAA GAGGAGGTCC TCCTTCACCA
ACCAAAACTG CCAAAATGAA AACAGATAAA AAGGAAAATG CAGGAAGTTT GGAGGCCATA
AATGAGCCTA TTCCTCAGCC TATGCCTTTT CCACCGAGCA TTATCAGGTC AGGATCCCCA
AAATTGGATC CTTCTGAGGT CTACCTGAAA TCTAAGACTT TATATGAAGA TAAACCACCA
AACACCAAAG ATTTGGATGT TTTTCTTCGA AAACAAGAGT CAGGGTTTGG CTTCAGGGTG
CTAGGAGGAG ATGGACCTGA CCAGTCTATA TATATTGGGG CTATTATTCC CCTGGGAGCA
GCTGAGAAAG ATGGTCGGCT CCGCGCAGCT GATGAACTAA TGTGCATTGA TGGAATTCCT
GTTAAAGGGA AATCACACAA ACAAGTCTTG GACCTCATGA CAACTGCTGC TCGAAATGGC
CATGTGTTAC TAACTGTCAG ACGGAAGATC TTCTATGGAG AAAAACAACC CGAGGACGAC
AGCTCTCAGG CCTTCATTTC AACACAGAAT GGATCTCCCC GCCTGAACCG GGCAGAGGTC
CCAGCCAGGC CTGCACCCCA GGAGCCCTAT GATGTTGTCT TGCAACGAAA AGAAAATGAA
GGATTTGGCT TTGTCATCCT CACCTCCAAA AACAAACCAC CTCCAGGAGT TATTCCTCAT
AAAATTGGCC GAGTCATAGA AGGAAGTCCG GCTGACCGCT GTGGAAAACT GAAAGTTGGA
GATCATATCT CTGCAGTGAA TGGGCAGTCC ATTGTTGAAC TGTCTCATGA TAACATTGTT
CAGCTGATCA AAGATGCTGG TGTCACCGTC ACACTAACGG TCATTGCTGA AGAAGAGCAT
CATGGTCCAC CATCAGGAAC AAACTCAGCC AGGCAAAGCC CAGCCCTGCA GCACAGGCCC
ATGGGACAGT CACAGGCCAA CCACATACCT GGGGACAGAA GTGCCCTAGA AGGTGAAATT
GGAAAAGATG TCTCCACTTC TTACAGACAT TCTTGGTCAG ACCACAAGCA CCTTGCACAG
CCTGACACCG CAGTAATTTC AGTTGTAGGC AGTCGGCACA ATCAGAACCT TGGTTGTTAT
CCAGTAGAGC TGGAGAGAGG CCCCCGGGGC TTTGGATTCA GCCTCCGAGG GGGGAAGGAG
TACAACATGG GGCTGTTCAT CCTTCGTCTT GCTGAAGATG GTCCTGCCAT CAAAGATGGC
AGAATTCATG TTGGTGACCA GATTGTTGAA ATCAATGGGG AACCTACACA AGGAATCACA
CATACTCGAG CAATTGAGCT CATTCAGGCT GGTGGAAATA AAGTTCTTCT TCTTTTGAGG
CCAGGAACTG GCTTGATACC TGACCATGGT GATTGGGATA TTAATAATCC TTCGTCTTCA
AATGTGATTT ATGATGAACA GTCACCATTA CCCCCATCTT CACATTTTGC TTCCATATTT
GAAGAGTCTC ACGTGCCAGT AATTGAAGAA TCTTTGAGAG TTCAGATATG TGAAAAGGCA
GAAGAATTAA AGGACATTGT GCCTGAAAAG AAAAGCACTT TAAATGAAAA TCAGCCTGAG
ATAAAGCATC AGTCTCTTCT CCAGAAAAAT GTGAGTAAGA GGGATCCACC CAGCAGTCAT
GGGCACAGTA ACAAGAAAAA TCTATTAAAA GTAGAAAATG GTGTTACACG AAGAGGTAGA
TCGGTTAGTC CCAAAAAGCC AGCCAGTCAA CATTCAGAGG AACATTTGGA TAAGATTCCT
AGTCCTCTAA AAAATAACCC CAAAAGAAGA CCCAGAGATC AATCCCTCAG CCCCAGCAAA
GGGGAAAATA AAAGTTGTCA GGTCAGCACC AGGGCAGGCT CTGGACAAGA TCAGTGCAGA
AAAAGCAGAG GTCGGTCGGC CAGCCCAAAA AAGCAGCAAA AAATTGAAGG AAGCAAAGCT
CCATCAAATG CTGAGGCCAA ATTATTAGAG GGTAAGAGTC GAAGAATAGC AGGCTATACG
GGCAGTAATG CTGAGCAGAT CCCAGATGGG AAGGAAAAAT CAGACGTCAT CAGGAAAGAT
GCAAAGCAGA ATCAGTTGGA AAAAAGCAGA ACAAGGTCTC CAGAGAAAAA AATCAAAAGA
ATGGTTGAGA AATCTCTTCC ATCCAAAATG ACTAATAAGA CTACAAGTAA AGAAGTATCT
GAAAATGAAA AAGGAAAGAA AGTAACCACA GGAGAAACAA GTTCTAGTAA CGATAAAATA
GGAGAAAATG TCCAGCTATC AGAAAAGAGG CTGAAGCAAG AACCTGAAGA GAAGGTAGTT
TCAAACAAAA CAGAAGATCA CAAAGGGAAA GAACTAGAGG CAGCTGACAA AAACAAAGAG
ACTGGAAGGT TCAAACCGGA AAGCAGTTCT CCAGTTAAGA AAACACTGAT AACTCCAGGG
CCCTGGAAGG TTCCAAGTGG AAATAAAGTC ACAGGCACTA TTGGTATGGC TGAGAAACGG
CAGTAA

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

book

Identification of novel genetic Loci associated with thyroid peroxidase antibodies and clinical thyroid disease.
PLoS genetics10(2)e1004123(2014 Feb)
Medici M,Porcu E,Pistis G,Teumer A,Brown SJ,Jensen RA,Rawal R,Roef GL,Plantinga TS,Vermeulen SH,Lahti J,Simmonds MJ,Husemoen LL,Freathy RM,Shields BM,Pietzner D,Nagy R,Broer L,Chaker L,Korevaar TI,Plia MG,Sala C,Völker U,Richards JB,Sweep FC,Gieger C,Corre T,Kajantie E,Thuesen B,Taes YE,Visser WE,Hattersley AT,Kratzsch J,Hamilton A,Li W,Homuth G,Lobina M,Mariotti S,Soranzo N,Cocca M,Nauck M,Spielhagen C,Ross A,Arnold A,van de Bunt M,Liyanarachchi S,Heier M,Grabe HJ,Masciullo C,Galesloot TE,Lim EM,Reischl E,Leedman PJ,Lai S,Delitala A,Bremner AP,Philips DI,Beilby JP,Mulas A,Vocale M,Abecasis G,Forsen T,James A,Widen E,Hui J,Prokisch H,Rietzschel EE,Palotie A,Feddema P,Fletcher SJ,Schramm K,Rotter JI,Kluttig A,Radke D,Traglia M,Surdulescu GL,He H,Franklyn JA,Tiller D,Vaidya B,de Meyer T,Jørgensen T,Eriksson JG,O'Leary PC,Wichmann E,Hermus AR,Psaty BM,Ittermann T,Hofman A,Bosi E,Schlessinger D,Wallaschofski H,Pirastu N,Aulchenko YS,de la Chapelle A,Netea-Maier RT,Gough SC,Meyer Zu Schwabedissen H,Frayling TM,Kaufman JM,Linneberg A,Räikkönen K,Smit JW,Kiemeney LA,Rivadeneira F,Uitterlinden AG,Walsh JP,Meisinger C,den Heijer M,Visser TJ,Spector TD,Wilson SG,Völzke H,Cappola A,Toniolo D,Sanna S,Naitza S,Peeters RP


book

Genetic variants associated with disordered eating.
The International journal of eating disorders46(6)594-608(2013 Sep)
Wade TD,Gordon S,Medland S,Bulik CM,Heath AC,Montgomery GW,Martin NG


book

Novel genetic loci identified for the pathophysiology of childhood obesity in the Hispanic population.
PloS one7(12)e51954(2012)
Comuzzie AG,Cole SA,Laston SL,Voruganti VS,Haack K,Gibbs RA,Butte NF


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MAGI-3 competes with NHERF-2 to negatively regulate LPA2 receptor signaling in colon cancer cells.
Gastroenterology140(3)924-34(2011 Mar)
Lee SJ,Ritter SL,Zhang H,Shim H,Hall RA,Yun CC


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Comparison of p53 and the PDZ domain containing protein MAGI-3 regulation by the E6 protein from high-risk human papillomaviruses.
Virology journal567(2008 Jun)
Ainsworth J,Thomas M,Banks L,Coutlee F,Matlashewski G


 
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