2024-04-20 12:32:14, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_133170 12701 bp mRNA linear PRI 15-JUN-2013 DEFINITION Homo sapiens protein tyrosine phosphatase, receptor type, T (PTPRT), transcript variant 1, mRNA. ACCESSION NM_133170 VERSION NM_133170.3 GI:148539857 KEYWORDS RefSeq. SOURCE Homo sapiens (human) ORGANISM Homo sapiens Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo. REFERENCE 1 (bases 1 to 12701) AUTHORS Lauc,G., Huffman,J.E., Pucic,M., Zgaga,L., Adamczyk,B., Muzinic,A., Novokmet,M., Polasek,O., Gornik,O., Kristic,J., Keser,T., Vitart,V., Scheijen,B., Uh,H.W., Molokhia,M., Patrick,A.L., McKeigue,P., Kolcic,I., Lukic,I.K., Swann,O., van Leeuwen,F.N., Ruhaak,L.R., Houwing-Duistermaat,J.J., Slagboom,P.E., Beekman,M., de Craen,A.J., Deelder,A.M., Zeng,Q., Wang,W., Hastie,N.D., Gyllensten,U., Wilson,J.F., Wuhrer,M., Wright,A.F., Rudd,P.M., Hayward,C., Aulchenko,Y., Campbell,H. and Rudan,I. TITLE Loci associated with N-glycosylation of human immunoglobulin G show pleiotropy with autoimmune diseases and haematological cancers JOURNAL PLoS Genet. 9 (1), E1003225 (2013) PUBMED 23382691 REFERENCE 2 (bases 1 to 12701) AUTHORS Pasquo,A., Consalvi,V., Knapp,S., Alfano,I., Ardini,M., Stefanini,S. and Chiaraluce,R. TITLE Structural stability of human protein tyrosine phosphatase rho catalytic domain: effect of point mutations JOURNAL PLoS ONE 7 (2), E32555 (2012) PUBMED 22389709 REMARK GeneRIF: The catalytic domain point mutants show a decreased thermal and thermodynamic stability and decreased activation energy relative to phosphatase activity, when compared to wild- type REFERENCE 3 (bases 1 to 12701) AUTHORS Scott,A. and Wang,Z. TITLE Tumour suppressor function of protein tyrosine phosphatase receptor-T JOURNAL Biosci. Rep. 31 (5), 303-307 (2011) PUBMED 21517784 REMARK GeneRIF: [review] High-throughput mutational analysis identifies loss-of-function mutations in six PTPs in human colon cancers, providing critical cancer genetics evidence that PTPs can act as tumour suppressor genes. Review article REFERENCE 4 (bases 1 to 12701) AUTHORS Zhao,Y., Zhang,X., Guda,K., Lawrence,E., Sun,Q., Watanabe,T., Iwakura,Y., Asano,M., Wei,L., Yang,Z., Zheng,W., Dawson,D., Willis,J., Markowitz,S.D., Satake,M. and Wang,Z. TITLE Identification and functional characterization of paxillin as a target of protein tyrosine phosphatase receptor T JOURNAL Proc. Natl. Acad. Sci. U.S.A. 107 (6), 2592-2597 (2010) PUBMED 20133777 REMARK GeneRIF: Data show that paxillin is a direct substrate of PTPRT and that PTPRT specifically regulates paxillin phosphorylation at tyrosine residue 88(Y88). REFERENCE 5 (bases 1 to 12701) AUTHORS Wang,Z., Shen,D., Parsons,D.W., Bardelli,A., Sager,J., Szabo,S., Ptak,J., Silliman,N., Peters,B.A., van der Heijden,M.S., Parmigiani,G., Yan,H., Wang,T.L., Riggins,G., Powell,S.M., Willson,J.K., Markowitz,S., Kinzler,K.W., Vogelstein,B. and Velculescu,V.E. TITLE Mutational analysis of the tyrosine phosphatome in colorectal cancers JOURNAL Science 304 (5674), 1164-1166 (2004) PUBMED 15155950 REFERENCE 6 (bases 1 to 12701) AUTHORS Besco,J.A., Frostholm,A., Popesco,M.C., Burghes,A.H. and Rotter,A. TITLE Genomic organization and alternative splicing of the human and mouse RPTPrho genes: Correction JOURNAL BMC Genomics 2, 5 (2001) PUBMED 11814386 REFERENCE 7 (bases 1 to 12701) AUTHORS Besco,J.A., Frostholm,A., Popesco,M.C., Burghes,A.H. and Rotter,A. TITLE Genomic organization and alternative splicing of the human and mouse RPTPrho genes JOURNAL BMC Genomics 2, 1 (2001) PUBMED 11423001 REFERENCE 8 (bases 1 to 12701) AUTHORS McAndrew,P.E., Frostholm,A., White,R.A., Rotter,A. and Burghes,A.H. TITLE Identification and characterization of RPTP rho, a novel RPTP mu/kappa-like receptor protein tyrosine phosphatase whose expression is restricted to the central nervous system JOURNAL Brain Res. Mol. Brain Res. 56 (1-2), 9-21 (1998) PUBMED 9602027 REFERENCE 9 (bases 1 to 12701) AUTHORS McAndrew,P.E., Frostholm,A., Evans,J.E., Zdilar,D., Goldowitz,D., Chiu,I.M., Burghes,A.H. and Rotter,A. TITLE Novel receptor protein tyrosine phosphatase (RPTPrho) and acidic fibroblast growth factor (FGF-1) transcripts delineate a rostrocaudal boundary in the granule cell layer of the murine cerebellar cortex JOURNAL J. Comp. Neurol. 391 (4), 444-455 (1998) PUBMED 9486824 REFERENCE 10 (bases 1 to 12701) AUTHORS Ohara,O., Nagase,T., Ishikawa,K., Nakajima,D., Ohira,M., Seki,N. and Nomura,N. TITLE Construction and characterization of human brain cDNA libraries suitable for analysis of cDNA clones encoding relatively large proteins JOURNAL DNA Res. 4 (1), 53-59 (1997) PUBMED 9179496 COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF043644.4, AL021395.16, AB006621.2, AL707728.1, DA791336.1 and R50970.1. On Jun 2, 2007 this sequence version replaced gi:48762921. Summary: The protein encoded by this gene is a member of the protein tyrosine phosphatase (PTP) family. PTPs are known to be signaling molecules that regulate a variety of cellular processes including cell growth, differentiation, mitotic cycle, and oncogenic transformation. This PTP possesses an extracellular region, a single transmembrane region, and two tandem intracellular catalytic domains, and thus represents a receptor-type PTP. The extracellular region contains a meprin-A5 antigen-PTP (MAM) domain, Ig-like and fibronectin type III-like repeats. The protein domain structure and the expression pattern of the mouse counterpart of this PTP suggest its roles in both signal transduction and cellular adhesion in the central nervous system. Two alternatively spliced transcript variants of this gene, which encode distinct proteins, have been reported. [provided by RefSeq, Jul 2008]. Transcript Variant: This variant (1) encodes the longer 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 :: mixed/partial sample support ERS025081, ERS025082 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-268 AF043644.4 1-268 269-272 AL021395.16 19423-19426 c 273-1242 AB006621.2 181-1150 1243-1347 AL707728.1 48-152 1348-2582 AF043644.4 1348-2582 2583-4101 AB006621.2 2434-3952 4102-4585 AF043644.4 4111-4594 4586-9963 AB006621.2 4437-9814 9964-10306 DA791336.1 232-574 10307-12672 AB006621.2 10158-12523 12673-12701 R50970.1 1-29 c FEATURES Location/Qualifiers source 1..12701 /organism="Homo sapiens" /mol_type="mRNA" /db_xref="taxon:9606" /chromosome="20" /map="20q12-q13" gene 1..12701 /gene="PTPRT" /gene_synonym="RPTPrho" /note="protein tyrosine phosphatase, receptor type, T" /db_xref="GeneID:11122" /db_xref="HGNC:9682" /db_xref="MIM:608712" exon 1..272 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" CDS 185..4567 /gene="PTPRT" /gene_synonym="RPTPrho" /EC_number="3.1.3.48" /note="isoform 1 precursor is encoded by transcript variant 1; receptor protein tyrosine phosphatase; receptor-type tyrosine-protein phosphatase T; R-PTP-T; RPTP-rho; receptor-type tyrosine-protein phosphatase rho" /codon_start=1 /product="receptor-type tyrosine-protein phosphatase T isoform 1 precursor" /protein_id="NP_573400.3" /db_xref="GI:148539858" /db_xref="GeneID:11122" /db_xref="HGNC:9682" /db_xref="MIM:608712" /translation="
MASLAALALSLLLRLQLPPLPGARAQSAAGGCSFDEHYSNCGYSVALGTNGFTWEQINTWEKPMLDQAVPTGSFMMVNSSGRASGQKAHLLLPTLKENDTHCIDFHYYFSSRDRSSPGALNVYVKVNGGPQGNPVWNVSGVVTEGWVKAELAISTFWPHFYQVIFESVSLKGHPGYIAVDEVRVLAHPCRKAPHFLRLQNVEVNVGQNATFQCIAGGKWSQHDKLWLQQWNGRDTALMVTRVVNHRRFSATVSVADTAQRSVSKYRCVIRSDGGSGVSNYAELIVKEPPTPIAPPELLAVGATYLWIKPNANSIIGDGPIILKEVEYRTTTGTWAETHIVDSPNYKLWHLDPDVEYEIRVLLTRPGEGGTGPPGPPLTTRTKCADPVHGPQNVEIVDIRARQLTLQWEPFGYAVTRCHSYNLTVQYQYVFNQQQYEAEEVIQTSSHYTLRGLRPFMTIRLRLLLSNPEGRMESEELVVQTEEDVPGAVPLESIQGGPFEEKIYIQWKPPNETNGVITLYEINYKAVGSLDPSADLSSQRGKVFKLRNETHHLFVGLYPGTTYSFTIKASTAKGFGPPVTTRIATKISAPSMPEYDTDTPLNETDTTITVMLKPAQSRGAPVSVYQLVVKEERLQKSRRAADIIECFSVPVSYRNASSLDSLHYFAAELKPANLPVTQPFTVGDNKTYNGYWNPPLSPLKSYSIYFQALSKANGETKINCVRLATKAPMGSAQVTPGTPLCLLTTGASTQNSNTVEPEKQVDNTVKMAGVIAGLLMFIIILLGVMLTIKRRRNAYSYSYYLKLAKKQKETQSGAQREMGPVASADKPTTKLSASRNDEGFSSSSQDVNGFTDGSRGELSQPTLTIQTHPYRTCDPVEMSYPRDQFQPAIRVADLLQHITQMKRGQGYGFKEEYEALPEGQTASWDTAKEDENRNKNRYGNIISYDHSRVRLLVLDGDPHSDYINANYIDGYHRPRHYIATQGPMQETVKDFWRMIWQENSASIVMVTNLVEVGRVKCVRYWPDDTEVYGDIKVTLIETEPLAEYVIRTFTVQKKGYHEIRELRLFHFTSWPDHGVPCYATGLLGFVRQVKFLNPPEAGPIVVHCSAGAGRTGCFIAIDTMLDMAENEGVVDIFNCVRELRAQRVNLVQTEEQYVFVHDAILEACLCGNTAIPVCEFRSLYYNISRLDPQTNSSQIKDEFQTLNIVTPRVRPEDCSIGLLPRNHDKNRSMDVLPLDRCLPFLISVDGESSNYINAALMDSHKQPAAFVVTQHPLPNTVADFWRLVFDYNCSSVVMLNEMDTAQFCMQYWPEKTSGCYGPIQVEFVSADIDEDIIHRIFRICNMARPQDGYRIVQHLQYIGWPAYRDTPPSKRSLLKVVRRLEKWQEQYDGREGRTVVHCLNGGGRSGTFCAICSVCEMIQQQNIIDVFHIVKTLRNNKSNMVETLEQYKFVYEVALEYLSSF
" sig_peptide 185..259 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="COORDINATES: ab initio prediction:SignalP:4.0" mat_peptide 260..4564 /gene="PTPRT" /gene_synonym="RPTPrho" /product="receptor-type tyrosine-protein phosphatase T isoform 1" misc_feature 278..751 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Meprin, A5 protein, and protein tyrosine phosphatase Mu (MAM) domain. MAM is an extracellular domain which mediates protein-protein interactions and is found in a diverse set of proteins, many of which are known to function in cell adhesion. Members...; Region: MAM; cd06263" /db_xref="CDD:99706" misc_feature 287..292 /gene="PTPRT" /gene_synonym="RPTPrho" /note="putative adhesion site; other site" /db_xref="CDD:99706" misc_feature 767..1039 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Immunoglobulin domain; Region: Ig; cl11960" /db_xref="CDD:213125" misc_feature 1049..1264 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Fibronectin type 3 domain; Region: FN3; smart00060" /db_xref="CDD:197496" misc_feature 1352..1624 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Fibronectin type 3 domain; One of three types of internal repeats found in the plasma protein fibronectin. Its tenth fibronectin type III repeat contains an RGD cell recognition sequence in a flexible loop between 2 strands. Approximately 2% of all...; Region: FN3; cd00063" /db_xref="CDD:28945" misc_feature order(1544..1546,1589..1591) /gene="PTPRT" /gene_synonym="RPTPrho" /note="Interdomain contacts; other site" /db_xref="CDD:28945" misc_feature order(1592..1597,1601..1603) /gene="PTPRT" /gene_synonym="RPTPrho" /note="Cytokine receptor motif; other site" /db_xref="CDD:28945" misc_feature 1688..1936 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Fibronectin type 3 domain; One of three types of internal repeats found in the plasma protein fibronectin. Its tenth fibronectin type III repeat contains an RGD cell recognition sequence in a flexible loop between 2 strands. Approximately 2% of all...; Region: FN3; cd00063" /db_xref="CDD:28945" misc_feature order(1856..1858,1901..1903) /gene="PTPRT" /gene_synonym="RPTPrho" /note="Interdomain contacts; other site" /db_xref="CDD:28945" misc_feature order(1904..1909,1913..1918) /gene="PTPRT" /gene_synonym="RPTPrho" /note="Cytokine receptor motif; other site" /db_xref="CDD:28945" misc_feature 2903..3667 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Protein tyrosine phosphatase, catalytic domain; Region: PTPc; smart00194" /db_xref="CDD:197567" misc_feature 2984..3667 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Protein tyrosine phosphatases (PTP) catalyze the dephosphorylation of phosphotyrosine peptides; they regulate phosphotyrosine levels in signal transduction pathways. The depth of the active site cleft renders the enzyme specific for phosphorylated Tyr; Region: PTPc; cd00047" /db_xref="CDD:28929" misc_feature order(3395..3397,3488..3493,3500..3502,3509..3514) /gene="PTPRT" /gene_synonym="RPTPrho" /note="active site" /db_xref="CDD:28929" misc_feature 3761..4549 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Protein tyrosine phosphatase, catalytic domain; Region: PTPc; smart00194" /db_xref="CDD:197567" misc_feature 3851..4549 /gene="PTPRT" /gene_synonym="RPTPrho" /note="Protein tyrosine phosphatases (PTP) catalyze the dephosphorylation of phosphotyrosine peptides; they regulate phosphotyrosine levels in signal transduction pathways. The depth of the active site cleft renders the enzyme specific for phosphorylated Tyr; Region: PTPc; cd00047" /db_xref="CDD:28929" misc_feature order(4265..4267,4370..4375,4382..4384,4391..4396) /gene="PTPRT" /gene_synonym="RPTPrho" /note="active site" /db_xref="CDD:28929" exon 273..398 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 399..670 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 671..752 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 753..868 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 869..1043 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 910 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:34099024" exon 1044..1337 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 1338..1634 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 1635..1744 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 1745..1946 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 1897 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:35858700" exon 1947..2049 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2050..2323 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2324..2360 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2361..2417 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2418..2553 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2554..2583 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2584..2732 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 2733..2923 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 2755 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:35071062" exon 2924..3011 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3012..3088 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3089..3125 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 3091 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:36105887" exon 3126..3223 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 3181 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:34284587" exon 3224..3340 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3341..3495 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3496..3631 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3632..3781 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 3782..3955 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 3871 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:35010609" exon 3956..4087 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 4088..4213 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 4102 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:2016647" variation 4150 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:34623060" exon 4214..4377 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 4378..4513 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" exon 4514..12694 /gene="PTPRT" /gene_synonym="RPTPrho" /inference="alignment:Splign:1.39.8" variation 4531 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:35393708" variation 4553 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:35066008" variation 7620 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="c" /db_xref="dbSNP:201337579" variation 7730 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:1065155" variation 7791 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /replace="t" /db_xref="dbSNP:877431" STS 8245..8424 /gene="PTPRT" /gene_synonym="RPTPrho" /standard_name="RH66086" /db_xref="UniSTS:51297" STS 8508..8648 /gene="PTPRT" /gene_synonym="RPTPrho" /standard_name="G31023" /db_xref="UniSTS:46687" variation 9238 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:3746538" variation 9964 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:3787281" variation 9983 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:3827068" variation 10179 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="a" /replace="g" /db_xref="dbSNP:3787282" variation 10410..10411 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="" /replace="g" /replace="tg" /db_xref="dbSNP:3838029" STS 11471..11602 /gene="PTPRT" /gene_synonym="RPTPrho" /standard_name="D20S591E" /db_xref="UniSTS:60724" variation 11821..11822 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="" /replace="tttgc" /db_xref="dbSNP:3833311" variation 12015 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="c" /replace="t" /db_xref="dbSNP:3746539" STS 12362..12502 /gene="PTPRT" /gene_synonym="RPTPrho" /standard_name="RH104430" /db_xref="UniSTS:98755" variation 12471 /gene="PTPRT" /gene_synonym="RPTPrho" /replace="" /replace="t" /db_xref="dbSNP:3838030" STS 12557..12681 /gene="PTPRT" /gene_synonym="RPTPrho" /standard_name="G42933" /db_xref="UniSTS:94828" polyA_signal 12655..12660 /gene="PTPRT" /gene_synonym="RPTPrho" polyA_site 12694 /gene="PTPRT" /gene_synonym="RPTPrho" ORIGIN
cctcccgcctcagttcgcgccgcgcctcggcttggaacgcaggagcgccggctccgggagcccgagcggagccagccgcgcgcacagccagcggccgcgccggcgatgcggggccaccccgcgcccgccccagtcccggccccggcccccgcgggaaggggctgagctgcccgccgccgcccggatggcgagcctcgccgcgctcgccctcagcctgctcctgaggctgcagctgccgccactgcccggcgcccgggctcagagcgccgcaggtggctgttcctttgatgagcactacagcaactgtggttatagtgtggctctagggaccaatgggttcacctgggagcagattaacacatgggagaaaccaatgctggaccaggcagtgcccacaggatctttcatgatggtgaacagctctgggagagcctctggccagaaggcccaccttctcctgccaaccctgaaggagaatgacacccactgcatcgacttccattactacttctccagccgtgacaggtccagcccaggggccttgaacgtctacgtgaaggtgaatggtggcccccaagggaaccctgtgtggaatgtgtccggggtcgtcactgagggctgggtgaaggcagagctcgccatcagcactttctggccacatttctatcaggtgatatttgaatccgtctcattgaagggtcatcctggctacatcgccgtggacgaggtccgggtccttgctcatccatgcagaaaagcacctcattttctgcgactccaaaacgtggaggtgaatgtggggcagaatgccacatttcagtgcattgctggtgggaagtggtctcagcatgacaagctttggctccagcaatggaatggcagggacacggccctgatggtcacccgtgtggtcaaccacaggcgcttctcagccacagtcagtgtggcagacactgcccagcggagcgtcagcaagtaccgctgtgtgatccgctctgatggtgggtctggtgtgtccaactacgcggagctgatcgtgaaagagcctcccacgcccattgctcccccagagctgctggctgtgggggccacatacctgtggatcaagccaaatgccaactccatcatcggggatggccccatcatcctgaaggaagtggaatatcgcaccaccacaggcacgtgggcagagacccacatagtcgactctcccaactataagctgtggcatctggaccccgatgttgagtatgagatccgagtgctcctcacacgaccaggtgaggggggtacgggaccgccagggcctcccctcaccaccaggaccaagtgtgcagatccggtacatggcccacagaacgtggaaatcgtagacatcagagcccggcagctgaccctgcagtgggagcccttcggctacgcggtgacccgctgccatagctacaacctcaccgtgcagtaccagtatgtgttcaaccagcagcagtacgaggccgaggaggtcatccagacctcctcccactacaccctgcgaggcctgcgccccttcatgaccatccggctgcgactcttgctgtctaaccccgagggccgaatggagagcgaggagctggtggtgcagactgaggaagacgttccaggagctgttcctctagaatccatccaaggggggccctttgaggagaagatctacatccagtggaaacctcccaatgagaccaatggggtcatcacgctctacgagatcaactacaaggctgtcggctcgctggacccaagtgctgacctctcgagccagagggggaaagtgttcaagctccggaatgaaacccaccacctctttgtgggtctgtacccagggaccacctattccttcaccatcaaggccagcacagcaaagggctttgggccccctgtcaccactcggattgccaccaaaatttcagctccatccatgcctgagtacgacacagacaccccattgaatgagacagacacgaccatcacagtgatgctgaaacccgctcagtcccggggagctcctgtcagtgtttatcagctggttgtcaaggaggagcgacttcagaagtcacggagggcagctgacattattgagtgcttttcggtgcccgtgagctatcggaatgcctccagcctcgattctctacactactttgctgctgagttgaagcctgccaacctgcctgtcacccagccatttacagtgggtgacaataagacatacaatggctactggaaccctcctctctctcccctgaaaagctacagcatctacttccaggcactcagcaaagccaatggagagaccaaaatcaactgtgttcgtctggctacaaaagcaccaatgggcagcgcccaggtgaccccggggactccactctgcctcctcaccacaggtgcctccacccagaattctaacactgtggagccagagaagcaggtggacaacaccgtgaagatggctggcgtgatcgctggcctcctcatgttcatcatcattctcctgggcgtgatgctcaccatcaaaaggagaagaaatgcttattcctactcctattacttgaagctggccaagaagcagaaggagacccagagtggagcccagagggagatggggcctgtggcctctgccgacaaacccaccaccaagctcagcgccagccgcaatgatgaaggcttctcttctagttctcaggacgtcaacggattcacagatggcagccgcggggagctttcccagcccaccctcacgatccagactcatccctaccgcacctgtgaccctgtggagatgagctacccccgggaccagttccaacccgccatccgggtggctgacttgctgcagcacatcacgcagatgaagagaggccagggctacgggttcaaggaggaatacgaggccttaccagaggggcagacagcttcgtgggacacagccaaggaggatgaaaaccgcaataagaatcgatatgggaacatcatatcctacgaccattcccgggtgaggctgctggtgctggatggagacccgcactctgactacatcaatgccaactacattgacggataccatcgacctcggcactacattgcgactcaaggtccgatgcaggagactgtaaaggacttttggagaatgatctggcaggagaactccgccagcatcgtcatggtcacaaacctggtggaagtgggcagggtgaaatgtgtgcgatactggccagatgacacggaggtctacggagacattaaagtcaccctgattgaaacagagcccctggcagaatacgtcatacgcaccttcacagtccagaagaaaggctaccatgagatccgggagctccgcctcttccacttcaccagctggcctgaccacggcgttccctgctatgccactggccttctgggcttcgtccgccaggtcaagttcctcaaccccccggaagctgggcccatagtggtccactgcagtgctggggctgggcggactggctgcttcattgccattgacaccatgcttgacatggccgagaatgaaggggtggtggacatcttcaactgcgtgcgtgagctccgggcccaaagggtcaacctggtacagacagaggagcaatatgtgtttgtgcacgatgccatcctggaagcgtgcctctgtggcaacactgccatccctgtgtgtgagttccgttctctctactacaatatcagcaggctggacccccagacaaactccagccaaatcaaagatgaatttcagaccctcaacattgtgacaccccgtgtgcggcccgaggactgcagcattgggctcctgccccggaaccatgataagaatcgaagtatggacgtgctgcctctggaccgctgcctgcccttccttatctcagtggacggagaatccagcaattacatcaacgcagcactgatggatagccacaagcagcctgccgccttcgtggtcacccagcaccctctacccaacaccgtggcagacttctggaggctggtgttcgattacaactgctcctctgtggtgatgctgaatgagatggacactgcccagttctgtatgcagtactggcctgagaagacctccgggtgctatgggcccatccaggtggagttcgtctccgcagacatcgacgaggacatcatccacagaatattccgcatctgtaacatggcccggccacaggatggttatcgtatagtccagcacctccagtacattggctggcctgcctaccgggacacgcccccctccaagcgctctctgctcaaagtggtccgacgactggagaagtggcaggagcagtatgacgggagggagggacgtactgtggtccactgcctaaatgggggaggccgtagtggaaccttctgtgccatctgcagtgtgtgtgagatgatccagcagcaaaacatcattgacgtgttccacatcgtgaaaacactgcgtaacaacaaatccaacatggtggagaccctggaacagtataaatttgtatacgaggtggcactggaatatttaagctccttttagctcaatgggatggggaacctgccggagtccagaggctgctgtgaccaagcccccttttgtgtgaatggcagtaactgggctcaggagctctgaggtggcaccctgcctgactccaaggagaagactggtggccctgtgttccacggggggctctgcaccttctgaggggtctcctgttgccgtgggagatgctgctccaaaaggcccaggcttccttttcaacctaaccagccacagccaagggcccaagcagaagtacacccacaagcaaggccttggatttctggctcccagaccacctgcttttgttctgagtttgtggatctcttggcaagccaactgtgcaggtgctggggagtgggaggctcccctgccctccttctccttaggagtggaggagatgtgtgttctgctcctctacgtcatggaaaagattgaggctcttgggggtcactgctctgctgccccctgcaacctccttcaggggcctctggcaccagacatttgcagtctggaccagtgtgaccttacgatgttccctaggccacaagagaggccccccatcctcacacctaacctgcatggggcttcgcccacaaccattctgtaccccttccccagcctgggccttgaccgtccagcattcactggccggccagctgtgtccacagcagtttttgataaaggtgttctttgcttttttgtgtggtcagtgggagggggtggaactgcagggaacttctctgctcctccttgtctttgtaaaaagggaccacctccctggggcagggcttgggctgacctgtaggatgtaacccctgtgtttctttggtggtagctttctttggaagagacaaacaagataagatttgattattttccaaagtgtatgtgaaaagaaactttcttttggagggtgtaaaatcttagtctcttatgtcaaaaagaagggggcgggggagtttgagtatgtacctctaagacaaatctctcgggccttttattttttcctggcaatgtccttaaaagctcccaccctgggacagcatgccactgagcaaggagagatgggtgagcctgaagatggtccctttggtttctggggcaaatagagcaccagctttgtgcataatttggatgtccaaatttgaactccttcctaaagaaacccagcagccaccttgaaaaaggccattgtggagcccattatactttgatttaaaataggccaagagaatcaggcctggagatctagggtcttgtccaaagtgtgagtgagtcaatgagagggaaccaacatttgctaagtctctactgtatgccagggatcatgcttggcactttccataggacatttcacacagtccttagaacccccaggagagagctactgacttgttatcatctccatttgatcatctcctccaatgaggaaacccacgcaccttccttagtaatgaaatcctgggttccaaaggggcaggtaatggcaatgagacttctccgtgctgttttcttcatcttctctaagccaagcaattattttatggagggaaaataaggccagaaacttctgagcagataactccacaaatggaaatttagtactttcttcctgatgccagttcttctgggaagcgcagaatttcagatatattttagtaacacattcccagctccccaggaaagccagtctcatctaatttcttagtcagtaaaaacaattccctgttccttcaggctatgaatggaccagccagggaaactctcgaccttgatctctagccagtgcttaggcccaatatctgacagcctcaggtgggctgggacctaggaagctccatcttgaaggctggtctagccccagacagggcatgaggggcagagaattcaagaaggtacagctttggccctcaagagcccactgtatgctggggaaatggaaccatggtgcagtagtgtggagtggatgagtgttccatgagcctaggagcaagaaagtctcttcggcctcgggcttcctggagaaggggacgtccattcctgctgggtcttaacaagcataaaaaggaaaaaaaggaaactcaggcaaagggatccatatgtgcaatggcaaagaaatgtgaaaaggcattgggagaagcagtctgggggaggccagcccagtgcgggcacagcacaacacggggagcagcaagagatgagccagggtccaggagacagatgcccatcgcgagtacagactttgtcctattggcaacaaggagtccatggagctttagagagatgcactcagcttcgtgttggccaagactccttctgggccaatggggctgcctcttttcctttcatcagacactgtgaaaacattcccttaagcgtgcactttttaatatcacatctatttgtctgtctgctcattgttttgttgctggaactaaatatgcaatggatcatgagactcagattctatgagaaacccagggtctctgctttaccacggagcagggtcaccaacccagatctccaggcccatgaggatggaacatgaaaggagccgacaaaagttgcttccattggcatgggctctggagctgtccagaagtccagggacaccagacttgatcaaggaagggctgtcactttagaggttcaaaaggaagtgcctcaaagcaaaggcaagcaaaggaaccccacgatgaacttgctcttttcctttgatgagcctctccccaggtgtatttcagcagaccccggggacccacccccactgggcctgctggcctccctcggctccagcccaatgccccagctggccttccccagcctgcaaggagcctgtagcatggcaaatctgcctgctgtatgctattttcttagatcttggtacatccagacaggatgagggtggagggagagctatttaacacaaatcctaagatttttttctgctcaggaaggggtgaaatagctggcagatacaaaagacagtggcttttatcattttaaatggtaggaatttaaggtgtgacttcagggagaaacaaacttgcaaaaaaaaaaaatctcaggccatgttggggtaacccagcaagggccagtgatgatttcccccagctcatccccttattttcccacaacccaaccattctctaaagcaggacagtgaataggtcttaggccagtgcacacaggaagaaattgaggcttatggatggggatgacttccctaagatcccatgggacaaggatgtggcaaggcttggatgagatggggcaccagtgcccaggaatttgaacattttcctttacccaggaaatctccggagccaacaccaccacccccagggggtctccccaccccaccccatttacagggtgagctcagcctgtcatgagcagaggaaaatattattaatgctctctgagtctttacaacaggagctcttacctcatagatgtgggctctgtttggggaagatgcaaggaagtaatgagaagcccaggaaatttctccacctgtgtttatggcctaaatagcttcaggatgtatcttagctgcactccaacattgcatcctttctggggtgaagaatctgggccaaccaggggtccttgggcctctagaaggccacagtaggcctctctttgtgggaatggaaggggacagtttgcttttagtgctggccctctctgtgggtgtggcctgcaaaggaaccaacagaccctatgctggggactctaacatgtgagctcattaaattcttccagcattctaaaggagggtttgtgattgtcaccatttactgatgaggaaactaaggctcctaggggagaaatcacttgcccacagttccacagctagtgagtgaatgaaccaggatttaaaccggttttttctcactacagagacaatatttttccaccattgtatctcacatttttcccaggaggttacccataacagaagagactagagtggaacagatacgtcagtggataaagctcaaagcaaacaacagtaagcttaaaattccttcatagtctcatgttttacgttcacaattcatgcaaaatttgcattccactttctgatttagccttgttggttttaatatgactctatgaatatttcaaaaaaaaatgtgctctgttcctcatgttgttctgttctgttcaccccgctatgacggaccctaggtcagctggtcttcagcttgaccctagaattgactctaggagcagtgaccctgctgcctcccagagccagttataggctcaagatcaagaccaactgaccttctcctaggcagctcctttggtgtgtgggtgctctgacctcactgttcatgaggggacctcaactaaggcatcttccagttgggtgctggaaggaacccattaactcacactagaatgatgaggatttgctcatctggcgtggagaaggatgagcccacaaaaccctaaagggaaaagagaagctggacacagctgtactcagcagattcctgaatgctaggctggaaagtggtgcctgttgtccaagtggagtcacatggttgctaatgtgggcaagtctgaggacacacttcatgagcagctggggtctggaaggctcctcactttaccctagccacacataattactgggtgcctacagcacctagcaccttggagggggcactattaggaaatcgagattactatggcacaattaattcctgggtaaggcatggggttgtggtggacagagctcagtctttagtttgaacgaaaacatacatacatgaaaaacatacatgaaaaaaggaccctcatcaacattagaaggggtagatttggagcactttaggcaggaaaacaggaacgcaaggccaggaaactggaacccagtgaatactcagaaccgaggatgcagatgacttatttagcaaaatggtcacttctgtgacatagctggagaaaggatgggtaacagcttgccagagccacttggaacaagggcaaatctcagtgtctggggcaaaagatgatgcatttccctctgacccatcatgtttattcatcctccactccccattgccacactagctcttgctgtaagtcctcaccaggatctacatttcctcgtcgctggtgggaaccccttagagtacatagaggtatcagtccagtaagactgctctacacaacagaagtgaggcccagggagtagcagccaggcccttatcctgttacctctgcaggagtgactgcccaacccagatccagagacattgaaggaaatgataattccttggtacctcactgccttgggacaaaatgaagaaagccacccttccttaggctgcagcttgccactcctgggctgggtaaacaggtcatcagcaccaagctcaaccaggagtaacactctggaagacatgggtgagcccaagaggaagcatgaacaggacgctgttcctaagtcatgtcaacaggttgtgctgggccaggatccccagggaaaaaaatggtcaacccaactggagggtaggttagaagaaaaaaaacataaacgtggatagtcatgtcatctcaaatccctgacttggcttccccattacttaacagtctgagctccttcttagcctgtgaccagcttcaaatcacagccaagtaaaacaaggaaataggaaaagtaaatccaactagaagagacaagctgagattcagatttgtttactcctcccatgcaaagtttccctgttggaggttttccatgtatacatgtctagaagtgatagaatgcaaggccttggctttgtcttgcagggatctgcctttgaggtcatagactgaacagcagggagagaggttagtggtggagtgtggggggagctgttctagctccagtttcttctgacacatttttcaggatcatggatctgatcctccgaagcacagcagagatatctaagccatatttgtgcacatgagcagactcttctagttttttagtaaccagggatgggcttttgcatggcactgactatagagatgtcttgtagagatcaagccagtcttttgcatcccacctgcccacctccagaagagatgggaaaaggtcatcaaagggcattcaccaactgaaatccactcatgaatgttaggtctctaaaaggaggcatcaacactcacaatggtagcctccaaacctagcatcccacctatctaagagctcaggggtggtccactggggcagatacaagggaagtgcaagggctcaggatgaaagaaaatctattgggaagagttttaggggcttgatcattatggggcttccttctatatctgagaactgctctgggtggtgagatgtggactctgatccttaattggaatgttcggagaatgagtgtctggtggccttgaagtgttggacagaaaagtatcagtataaaagcctggagctcagggtaattaatgtagttcatggttccttagtgagcaggactcttggatgtggaggagaaagggtcataggaagtaaaccaccaaaattacaaaattgagtctctgtacaattacttcagtgcctttgggcttatgaatacaaatcagtgggccttctctatgatggtccaacaaactctcagtgtccaccctgtccctgtatctcccatggaagatgaataatgtcaggtgttctttgggtcaaaggccccagggcagtctggaggcttagagggcagagtggtgtcattccatgtaaagttaggcttctgaggggtcaggcagaatatggtgtccatatcttccatagctctgcagattcttggatgaagtcaagcacagtttgctagacccaggtcactcctctgagtataactaggacccatgagtgaaacttaatagctgtaaggaagaacctgctgtctgccagagaggataagctgcccatctcagcagctgtctaaaagaaggcaggtgtctctttaaagggaagagaagcattggtgaaatggatttcaggtcacttccattccagatgggtgagatcttgtggagctgggatcatgtttgaactcattcatacctgtagagcacgaatccaagtagattgtgtttggtctgtacaggctgaagccccctgctctcccacccaagtgcccccactgagcaggccaacatgctgttgtggccacatatactgggctgatccaggctggttatcaccaaacagcaaaccatagggaacagctgctttgccatagacccaatacccatgtagatctctcatgagagcagccataactcagacccactgaccaacagggccatgagtgacagccagaaccagtgaaggtccaagtaggacacagagcagggcttttcttaccatacacattatctccagaggttatttctaccccactccctattcaaggcctgttggagcacactgcaaaagcaaaagcacagtaactcaatttacacatgattataatcatttccagtgcacacatttcatcaccaggtggatcctgagctagcccatgtaaatccgggttaacccatattggtaatcatactcaaaagcacttttcaccctacattctactagccaatcaaagacaaagagttgtggcctctaccattgccttggcttctggacaccctcacaagctatcccaaggttcccgctcaactccagggaggctgacatcttcacatccactgggcatataatattgcatgagaccaaagtctccacactctttgcagcctcctccatgaatcccaatggcctgcacttgtacagtttgggtgtttgatagataaagcacgtatgagaagagaaaacaaaataaatcaactttttaaaaaagccagcactgtgctgtcaatgttttttttttcttttcaattctagctcagaaaagcagaaggtaaataatgtcaggtcaatgaatatcagatatattttttgactgtacattacagtgaagtgtaatctttttacacctgcaagtccatcttatttattcttgtaaatgttccctgacaatgtttgtaatatggctgtgttaaaaaatctatacaataaagctgtgaccctgagattcatgttttcctaagataaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726): GeneID:11122 -> Molecular function: GO:0004725 [protein tyrosine phosphatase activity] evidence: IMP GeneID:11122 -> Molecular function: GO:0005515 [protein binding] evidence: IPI GeneID:11122 -> Molecular function: GO:0008013 [beta-catenin binding] evidence: IPI GeneID:11122 -> Molecular function: GO:0016790 [thiolester hydrolase activity] evidence: IEA GeneID:11122 -> Molecular function: GO:0045294 [alpha-catenin binding] evidence: IDA GeneID:11122 -> Molecular function: GO:0045295 [gamma-catenin binding] evidence: IDA GeneID:11122 -> Molecular function: GO:0045296 [cadherin binding] evidence: IPI GeneID:11122 -> Molecular function: GO:0051393 [alpha-actinin binding] evidence: IEA GeneID:11122 -> Molecular function: GO:0070097 [delta-catenin binding] evidence: IPI GeneID:11122 -> Biological process: GO:0006470 [protein dephosphorylation] evidence: IDA GeneID:11122 -> Biological process: GO:0007155 [cell adhesion] evidence: NAS GeneID:11122 -> Biological process: GO:0007156 [homophilic cell adhesion] evidence: IDA GeneID:11122 -> Biological process: GO:0007165 [signal transduction] evidence: NAS GeneID:11122 -> Biological process: GO:0007169 [transmembrane receptor protein tyrosine kinase signaling pathway] evidence: IMP GeneID:11122 -> Cellular component: GO:0005886 [plasma membrane] evidence: IDA GeneID:11122 -> Cellular component: GO:0009986 [cell surface] evidence: IDA GeneID:11122 -> Cellular component: GO:0016021 [integral to membrane] evidence: NAS ANNOTATIONS from NCBI Entrez Gene (20130726): NP_573400 -> EC 3.1.3.48
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