2024-04-24 02:21:49, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_002310 10107 bp mRNA linear PRI 19-MAY-2013 DEFINITION Homo sapiens leukemia inhibitory factor receptor alpha (LIFR), transcript variant 2, mRNA. ACCESSION NM_002310 VERSION NM_002310.5 GI:189095278 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 10107) AUTHORS Conrady,C.D., Zheng,M., van Rooijen,N., Drevets,D.A., Royer,D., Alleman,A. and Carr,D.J. TITLE Microglia and a functional type I IFN pathway are required to counter HSV-1-driven brain lateral ventricle enlargement and encephalitis JOURNAL J. Immunol. 190 (6), 2807-2817 (2013) PUBMED 23382563 REMARK GeneRIF: Because acute ventricle enlargement is observed in susceptible CD118-deficient mice, the phenomenon may occur in a subpopulation of human adults with herpes simplex encephalitis. REFERENCE 2 (bases 1 to 10107) AUTHORS Chen,D., Sun,Y., Wei,Y., Zhang,P., Rezaeian,A.H., Teruya-Feldstein,J., Gupta,S., Liang,H., Lin,H.K., Hung,M.C. and Ma,L. TITLE LIFR is a breast cancer metastasis suppressor upstream of the Hippo-YAP pathway and a prognostic marker JOURNAL Nat. Med. 18 (10), 1511-1517 (2012) PUBMED 23001183 REMARK GeneRIF: findings identify LIFR as a metastasis suppressor that functions through the Hippo-YAP pathway and has significant prognostic power. REFERENCE 3 (bases 1 to 10107) AUTHORS Chollangi,S., Mather,T., Rodgers,K.K. and Ash,J.D. TITLE A unique loop structure in oncostatin M determines binding affinity toward oncostatin M receptor and leukemia inhibitory factor receptor JOURNAL J. Biol. Chem. 287 (39), 32848-32859 (2012) PUBMED 22829597 REMARK GeneRIF: A unique loop structure in oncostatin M determines binding affinity toward oncostatin M receptor and leukemia inhibitory factor receptor. REFERENCE 4 (bases 1 to 10107) AUTHORS Iorns,E., Ward,T.M., Dean,S., Jegg,A., Thomas,D., Murugaesu,N., Sims,D., Mitsopoulos,C., Fenwick,K., Kozarewa,I., Naceur-Lombarelli,C., Zvelebil,M., Isacke,C.M., Lord,C.J., Ashworth,A., Hnatyszyn,H.J., Pegram,M. and Lippman,M. TITLE Whole genome in vivo RNAi screening identifies the leukemia inhibitory factor receptor as a novel breast tumor suppressor JOURNAL Breast Cancer Res. Treat. 135 (1), 79-91 (2012) PUBMED 22535017 REMARK GeneRIF: findings show that LIFR is a key novel tumor suppressor, whose deregulation may drive the transformation of a significant proportion of human breast cancers REFERENCE 5 (bases 1 to 10107) AUTHORS Kang,W.S., Kim,S.K., Park,J.K., Cho,A.R., Park,H.J., Chung,J.H. and Kim,J.W. TITLE Association between promoter polymorphisms of the LIFR gene and schizophrenia with persecutory delusion in a Korean population JOURNAL Mol Med Rep 5 (1), 270-274 (2012) PUBMED 21971603 REMARK GeneRIF: A significant association was detected between the LIFR gene polymorphisms and schizophrenia patients with persecutory delusion REFERENCE 6 (bases 1 to 10107) AUTHORS Schiemann,W.P., Graves,L.M., Baumann,H., Morella,K.K., Gearing,D.P., Nielsen,M.D., Krebs,E.G. and Nathanson,N.M. TITLE Phosphorylation of the human leukemia inhibitory factor (LIF) receptor by mitogen-activated protein kinase and the regulation of LIF receptor function by heterologous receptor activation JOURNAL Proc. Natl. Acad. Sci. U.S.A. 92 (12), 5361-5365 (1995) PUBMED 7777512 REFERENCE 7 (bases 1 to 10107) AUTHORS Gearing,D.P., Druck,T., Huebner,K., Overhauser,J., Gilbert,D.J., Copeland,N.G. and Jenkins,N.A. TITLE The leukemia inhibitory factor receptor (LIFR) gene is located within a cluster of cytokine receptor loci on mouse chromosome 15 and human chromosome 5p12-p13 JOURNAL Genomics 18 (1), 148-150 (1993) PUBMED 8276403 REFERENCE 8 (bases 1 to 10107) AUTHORS Gearing,D.P., Comeau,M.R., Friend,D.J., Gimpel,S.D., Thut,C.J., McGourty,J., Brasher,K.K., King,J.A., Gillis,S., Mosley,B. et al. TITLE The IL-6 signal transducer, gp130: an oncostatin M receptor and affinity converter for the LIF receptor JOURNAL Science 255 (5050), 1434-1437 (1992) PUBMED 1542794 REFERENCE 9 (bases 1 to 10107) AUTHORS Gearing,D.P. and Bruce,A.G. TITLE Oncostatin M binds the high-affinity leukemia inhibitory factor receptor JOURNAL New Biol. 4 (1), 61-65 (1992) PUBMED 1536831 REFERENCE 10 (bases 1 to 10107) AUTHORS Gearing,D.P., Thut,C.J., VandeBos,T., Gimpel,S.D., Delaney,P.B., King,J., Price,V., Cosman,D. and Beckmann,M.P. TITLE Leukemia inhibitory factor receptor is structurally related to the IL-6 signal transducer, gp130 JOURNAL EMBO J. 10 (10), 2839-2848 (1991) PUBMED 1915266 COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA857408.1, X61615.1, AC010457.7 and BQ008945.1. This sequence is a reference standard in the RefSeqGene project. On May 28, 2008 this sequence version replaced gi:189083784. Summary: This gene encodes a protein that belongs to the type I cytokine receptor family. This protein combines with a high-affinity converter subunit, gp130, to form a receptor complex that mediates the action of the leukemia inhibitory factor, a polyfunctional cytokine that is involved in cellular differentiation, proliferation and survival in the adult and the embryo. Mutations in this gene cause Schwartz-Jampel syndrome type 2, a disease belonging to the group of the bent-bone dysplasias. A translocation that involves the promoter of this gene, t(5;8)(p13;q12) with the pleiomorphic adenoma gene 1, is associated with salivary gland pleiomorphic adenoma, a common type of benign epithelial tumor of the salivary gland. Multiple splice variants encoding the same protein have been found for this gene. [provided by RefSeq, Jul 2008]. Transcript Variant: This variant (2) differs in the 5' UTR, compared to variant 1. Variants 1 and 2 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The extent of this transcript is supported by transcript alignments. 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 :: AK308158.1, X61615.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support ERS025098 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: full length. PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-11 DA857408.1 1-11 12-3577 X61615.1 26-3591 3578-9438 AC010457.7 45323-51183 c 9439-10107 BQ008945.1 1-669 c FEATURES Location/Qualifiers source 1..10107 /organism="Homo sapiens" /mol_type="mRNA" /db_xref="taxon:9606" /chromosome="5" /map="5p13-p12" gene 1..10107 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="leukemia inhibitory factor receptor alpha" /db_xref="GeneID:3977" /db_xref="HGNC:6597" /db_xref="HPRD:01048" /db_xref="MIM:151443" exon 1..145 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" misc_feature 3 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="alternative transcription start site" misc_feature 96..98 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="upstream in-frame stop codon" exon 146..306 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" CDS 165..3458 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="CD118 antigen; LIF receptor" /codon_start=1 /product="leukemia inhibitory factor receptor precursor" /protein_id="NP_002301.1" /db_xref="GI:4504993" /db_xref="CCDS:CCDS3927.1" /db_xref="GeneID:3977" /db_xref="HGNC:6597" /db_xref="HPRD:01048" /db_xref="MIM:151443" /translation="
MMDIYVCLKRPSWMVDNKRMRTASNFQWLLSTFILLYLMNQVNSQKKGAPHDLKCVTNNLQVWNCSWKAPSGTGRGTDYEVCIENRSRSCYQLEKTSIKIPALSHGDYEITINSLHDFGSSTSKFTLNEQNVSLIPDTPEILNLSADFSTSTLYLKWNDRGSVFPHRSNVIWEIKVLRKESMELVKLVTHNTTLNGKDTLHHWSWASDMPLECAIHFVEIRCYIDNLHFSGLEEWSDWSPVKNISWIPDSQTKVFPQDKVILVGSDITFCCVSQEKVLSALIGHTNCPLIHLDGENVAIKIRNISVSASSGTNVVFTTEDNIFGTVIFAGYPPDTPQQLNCETHDLKEIICSWNPGRVTALVGPRATSYTLVESFSGKYVRLKRAEAPTNESYQLLFQMLPNQEIYNFTLNAHNPLGRSQSTILVNITEKVYPHTPTSFKVKDINSTAVKLSWHLPGNFAKINFLCEIEIKKSNSVQEQRNVTIKGVENSSYLVALDKLNPYTLYTFRIRCSTETFWKWSKWSNKKQHLTTEASPSKGPDTWREWSSDGKNLIIYWKPLPINEANGKILSYNVSCSSDEETQSLSEIPDPQHKAEIRLDKNDYIISVVAKNSVGSSPPSKIASMEIPNDDLKIEQVVGMGKGILLTWHYDPNMTCDYVIKWCNSSRSEPCLMDWRKVPSNSTETVIESDEFRPGIRYNFFLYGCRNQGYQLLRSMIGYIEELAPIVAPNFTVEDTSADSILVKWEDIPVEELRGFLRGYLFYFGKGERDTSKMRVLESGRSDIKVKNITDISQKTLRIADLQGKTSYHLVLRAYTDGGVGPEKSMYVVTKENSVGLIIAILIPVAVAVIVGVVTSILCYRKREWIKETFYPDIPNPENCKALQFQKSVCEGSSALKTLEMNPCTPNNVEVLETRSAFPKIEDTEIISPVAERPEDRSDAEPENHVVVSYCPPIIEEEIPNPAADEAGGTAQVIYIDVQSMYQPQAKPEEEQENDPVGGAGYKPQMHLPINSTVEDIAAEEDLDKTAGYRPQANVNTWNLVSPDSPRSIDSNSEIVSFGSPCSINSRQFLIPPKDEDSPKSNGGGWSFTNFFQNKPND
" sig_peptide 165..296 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" mat_peptide 297..3455 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /product="leukemia inhibitory factor receptor" misc_feature 1461..1754 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /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(1461..1463,1665..1667,1716..1718) /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="Interdomain contacts; other site" /db_xref="CDD:28945" misc_feature 1719..1733 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /experiment="experimental evidence, no additional details recorded" /note="propagated from UniProtKB/Swiss-Prot (P42702.1); Region: WSXWS motif" misc_feature order(1719..1724,1728..1733) /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="Cytokine receptor motif; other site" /db_xref="CDD:28945" misc_feature <1830..2021 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /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; cl00065" /db_xref="CDD:206813" misc_feature 2334..2651 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /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(2334..2336,2571..2573,2616..2618) /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="Interdomain contacts; other site" /db_xref="CDD:28945" misc_feature order(2619..2624,2628..2633) /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /note="Cytokine receptor motif; other site" /db_xref="CDD:28945" misc_feature 2664..2738 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="non-experimental evidence, no additional details recorded" /note="propagated from UniProtKB/Swiss-Prot (P42702.1); transmembrane region" misc_feature 2769..2795 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /experiment="experimental evidence, no additional details recorded" /note="propagated from UniProtKB/Swiss-Prot (P42702.1); Region: Box 1 motif" misc_feature 2943..2945 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /experiment="experimental evidence, no additional details recorded" /note="Phosphoserine; propagated from UniProtKB/Swiss-Prot (P42702.1); phosphorylation site" misc_feature 3294..3296 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /experiment="experimental evidence, no additional details recorded" /note="phosphorylation site" /citation=[6] /db_xref="HPRD:01496" variation 192 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="t" /db_xref="dbSNP:3729732" exon 307..421 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 422..561 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" variation 510 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="t" /db_xref="dbSNP:3729734" exon 562..725 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 726..900 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 901..1155 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1156..1285 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1286..1455 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1456..1601 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1602..1764 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1765..1835 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 1836..2049 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" variation 1896 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="g" /db_xref="dbSNP:3729740" exon 2050..2229 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" variation 2155 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="t" /db_xref="dbSNP:3729744" exon 2230..2331 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 2332..2499 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 2500..2661 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 2662..2755 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 2756..2834 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" exon 2835..10090 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /inference="alignment:Splign:1.39.8" STS 3233..3482 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH41252" /db_xref="UniSTS:90279" STS 3346..3560 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH93532" /db_xref="UniSTS:89153" variation 3452 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="c" /replace="t" /db_xref="dbSNP:3729751" STS 3456..3558 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="PMC311006P4" /db_xref="UniSTS:272831" STS 3462..3556 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="human.LIFR" /db_xref="UniSTS:181772" variation 3775 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="t" /db_xref="dbSNP:201394596" variation 3820 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="g" /db_xref="dbSNP:1005017" variation 4418 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="t" /db_xref="dbSNP:1042795" STS 4432..5311 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="LIFR_185" /db_xref="UniSTS:277451" variation 5012 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="g" /db_xref="dbSNP:1428604" variation 5072 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="t" /db_xref="dbSNP:1042798" variation 5073 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="a" /replace="t" /db_xref="dbSNP:1042799" STS 5079..5224 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="STS-R38064" /db_xref="UniSTS:65610" STS 5233..5327 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="SHGC-60516" /db_xref="UniSTS:30425" polyA_site 5254 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" STS 6866..6985 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH48815" /db_xref="UniSTS:2234" polyA_signal 7086..7091 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" polyA_site 7114 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" STS 7298..7437 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="D5S1675E" /db_xref="UniSTS:151064" STS 8241..8517 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="D5S2471" /db_xref="UniSTS:5248" STS 8253..8397 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH91753" /db_xref="UniSTS:89967" STS 8997..9086 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="D5S1570E" /db_xref="UniSTS:150998" STS 9251..9399 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH26031" /db_xref="UniSTS:87596" STS 9569..9809 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /standard_name="RH65837" /db_xref="UniSTS:92084" variation 9648 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" /replace="c" /replace="t" /db_xref="dbSNP:1046224" polyA_signal 10066..10071 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" polyA_site 10090 /gene="LIFR" /gene_synonym="CD118; LIF-R; SJS2; STWS; SWS" ORIGIN
aaatcctaaccctctctcccagaacgtgtctctgctgcaaggcaccgggccctttcgctctgcagaactgcacttgcaagaccattatcaactcctaatcccagctcagaaagggagcctctgcgactcattcatcgccctccaggactgactgcattgcacagatgatggatatttacgtatgtttgaaacgaccatcctggatggtggacaataaaagaatgaggactgcttcaaatttccagtggctgttatcaacatttattcttctatatctaatgaatcaagtaaatagccagaaaaagggggctcctcatgatttgaagtgtgtaactaacaatttgcaagtgtggaactgttcttggaaagcaccctctggaacaggccgtggtactgattatgaagtttgcattgaaaacaggtcccgttcttgttatcagttggagaaaaccagtattaaaattccagctctttcacatggtgattatgaaataacaataaattctctacatgattttggaagttctacaagtaaattcacactaaatgaacaaaacgtttccttaattccagatactccagagatcttgaatttgtctgctgatttctcaacctctacattatacctaaagtggaacgacaggggttcagtttttccacaccgctcaaatgttatctgggaaattaaagttctacgtaaagagagtatggagctcgtaaaattagtgacccacaacacaactctgaatggcaaagatacacttcatcactggagttgggcctcagatatgcccttggaatgtgccattcattttgtggaaattagatgctacattgacaatcttcatttttctggtctcgaagagtggagtgactggagccctgtgaagaacatttcttggatacctgattctcagactaaggtttttcctcaagataaagtgatacttgtaggctcagacataacattttgttgtgtgagtcaagaaaaagtgttatcagcactgattggccatacaaactgccccttgatccatcttgatggggaaaatgttgcaatcaagattcgtaatatttctgtttctgcaagtagtggaacaaatgtagtttttacaaccgaagataacatatttggaaccgttatttttgctggatatccaccagatactcctcaacaactgaattgtgagacacatgatttaaaagaaattatatgtagttggaatccaggaagggtgacagcgttggtgggcccacgtgctacaagctacactttagttgaaagtttttcaggaaaatatgttagacttaaaagagctgaagcacctacaaacgaaagctatcaattattatttcaaatgcttccaaatcaagaaatatataattttactttgaatgctcacaatccgctgggtcgatcacaatcaacaattttagttaatataactgaaaaagtttatccccatactcctacttcattcaaagtgaaggatattaattcaacagctgttaaactttcttggcatttaccaggcaactttgcaaagattaattttttatgtgaaattgaaattaagaaatctaattcagtacaagagcagcggaatgtcacaatcaaaggagtagaaaattcaagttatcttgttgctctggacaagttaaatccatacactctatatacttttcggattcgttgttctactgaaactttctggaaatggagcaaatggagcaataaaaaacaacatttaacaacagaagccagtccttcaaaggggcctgatacttggagagagtggagttctgatggaaaaaatttaataatctattggaagcctttacccattaatgaagctaatggaaaaatactttcctacaatgtatcgtgttcatcagatgaggaaacacagtccctttctgaaatccctgatcctcagcacaaagcagagatacgacttgataagaatgactacatcatcagcgtagtggctaaaaattctgtgggctcatcaccaccttccaaaatagcgagtatggaaattccaaatgatgatctcaaaatagaacaagttgttgggatgggaaaggggattctcctcacctggcattacgaccccaacatgacttgcgactacgtcattaagtggtgtaactcgtctcggtcggaaccatgccttatggactggagaaaagttccctcaaacagcactgaaactgtaatagaatctgatgagtttcgaccaggtataagatataattttttcctgtatggatgcagaaatcaaggatatcaattattacgctccatgattggatatatagaagaattggctcccattgttgcaccaaattttactgttgaggatacttctgcagattcgatattagtaaaatgggaagacattcctgtggaagaacttagaggctttttaagaggatatttgttttactttggaaaaggagaaagagacacatctaagatgagggttttagaatcaggtcgttctgacataaaagttaagaatattactgacatatcccagaagacactgagaattgctgatcttcaaggtaaaacaagttaccacctggtcttgcgagcctatacagatggtggagtgggcccggagaagagtatgtatgtggtgacaaaggaaaattctgtgggattaattattgccattctcatcccagtggcagtggctgtcattgttggagtggtgacaagtatcctttgctatcggaaacgagaatggattaaagaaaccttctaccctgatattccaaatccagaaaactgtaaagcattacagtttcaaaagagtgtctgtgagggaagcagtgctcttaaaacattggaaatgaatccttgtaccccaaataatgttgaggttctggaaactcgatcagcatttcctaaaatagaagatacagaaataatttccccagtagctgagcgtcctgaagatcgctctgatgcagagcctgaaaaccatgtggttgtgtcctattgtccacccatcattgaggaagaaataccaaacccagccgcagatgaagctggagggactgcacaggttatttacattgatgttcagtcgatgtatcagcctcaagcaaaaccagaagaagaacaagaaaatgaccctgtaggaggggcaggctataagccacagatgcacctccccattaattctactgtggaagatatagctgcagaagaggacttagataaaactgcgggttacagacctcaggccaatgtaaatacatggaatttagtgtctccagactctcctagatccatagacagcaacagtgagattgtctcatttggaagtccatgctccattaattcccgacaatttttgattcctcctaaagatgaagactctcctaaatctaatggaggagggtggtcctttacaaacttttttcagaacaaaccaaacgattaacagtgtcaccgtgtcacttcagtcagccatctcaataagctcttactgctagtgttgctacatcagcactgggcattcttggagggatcctgtgaagtattgttaggaggtgaacttcactacatgttaagttacactgaaagtgttcatgtgcttttaatgtagtctaaaagccaaagtatagtgactcagaatcctcaatccacaaaactcaagattgggagctctttgtgatcaagccaaagaattctcatgtactctaccttcaagaagcatttcaaggctaatacctacttgtacgtacatgtaaaacaaatcccgccgcaactgttttctgttctgttgtttgtggttttctcatgtgtatacttggtggaattgtaagtggatttgcaggccagggagaaaatgtccaagtaacaggtgaagtttatttgcctgacgtttactcctttctagatgaaaaccaagcacagattttaaaacttctaagattattctcctctatccacagcattcacaaaaattaatataatttttaatgtagtgacagcgatttagtgttttgtttgataaagtatgcttatttctgtgcctactgtataatggttatcaaacagttgtctcaggggtacaaactttgaaaacaagtgtgacactgaccagcccaaatcataatcatgttttcttgctgtgataggttttgcaagccttttcattattttttagcttttatgcttgcttccattatttcagttggttgccctaatatttaaaatttacacttctaagactagagacccacattttttaaaaatcattttattttgtgatacagtgacagctttatatgagcaaattcaatattattcataagcatgtaattccagtgacttactatgtgagatgactactaagcaatatctagcagcgttagctgtccatatagttctgattggatttcgttcctcctgaggagaccatgccgttgagcttggctacccaggcagtggtgatctttgacaccttctggtggatgttcctcccactcatgagtcttttcatcatgccacattatctgatccagtcctcacatttttaaatataaaactaaagagagaatgcttcttacaggaacagttacccaagggctgtttcttagtaactgtcataaactgatctgaatccatgggcatacctgtgttgcaggtgcagcaattgcttggtgagctgtgcagaattgattgccttcagcacagcatcctctgcccacccttgtttctcataagcgatgtctggagtgattgtggttcttggaaaagcagaaggaaaaactaaaaagtgtatcttgtattttccctgccctcaggttgcctatgtattttaccttttcatatttaaggcaaaagtacttgaaaattttaagtgtccgaataagatatgtcttttttgtttgttttttttggttgtttgtttgttttttatcatctgagattctgtaatgtatttgcaaataatggatcaattaattttttttgaagc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tacttatgtctgtttttaaaacatgcatgtatttaacaattttatcatagtattgtcatggaaaaaataaatatattttcttacatcttaaaaaaaaaaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726): GeneID:3977 -> Molecular function: GO:0004897 [ciliary neurotrophic factor receptor activity] evidence: IDA GeneID:3977 -> Molecular function: GO:0004923 [leukemia inhibitory factor receptor activity] evidence: IDA GeneID:3977 -> Molecular function: GO:0004924 [oncostatin-M receptor activity] evidence: IDA GeneID:3977 -> Molecular function: GO:0005127 [ciliary neurotrophic factor receptor binding] evidence: IPI GeneID:3977 -> Molecular function: GO:0019838 [growth factor binding] evidence: IPI GeneID:3977 -> Biological process: GO:0007166 [cell surface receptor signaling pathway] evidence: TAS GeneID:3977 -> Biological process: GO:0008284 [positive regulation of cell proliferation] evidence: IDA GeneID:3977 -> Biological process: GO:0019221 [cytokine-mediated signaling pathway] evidence: IDA GeneID:3977 -> Biological process: GO:0034097 [response to cytokine stimulus] evidence: IDA GeneID:3977 -> Biological process: GO:0038165 [oncostatin-M-mediated signaling pathway] evidence: IDA GeneID:3977 -> Biological process: GO:0048861 [leukemia inhibitory factor signaling pathway] evidence: IDA GeneID:3977 -> Biological process: GO:0070120 [ciliary neurotrophic factor-mediated signaling pathway] evidence: IDA GeneID:3977 -> Cellular component: GO:0005576 [extracellular region] evidence: IEA GeneID:3977 -> Cellular component: GO:0005887 [integral to plasma membrane] evidence: TAS
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