about
Identification of a variant form of tyrosine phosphatase LYPGenetics of Sjögren's syndrome in the genome-wide association eraPTPN22 1858C>T (R620W) functional polymorphism and human longevityBalancing selection is common in the extended MHC region but most alleles with opposite risk profile for autoimmune diseases are neutrally evolvingTwo non-synonymous markers in PTPN21, identified by genome-wide association study data-mining and replication, are associated with schizophrenia.PTPN22.6, a dominant negative isoform of PTPN22 and potential biomarker of rheumatoid arthritis.PTPN22 1858C>T gene polymorphism in patients with SLE: association with serological and clinical resultsPTPN22 polymorphisms may indicate a role for this gene in atopic dermatitis in West Highland white terriers.Genetics, environment, and gene-environment interactions in the development of systemic rheumatic diseasesRecent insights into the genetic basis of systemic lupus erythematosusCutting edge: the etiology of autoimmune thyroid diseases.Susceptibility to amoxicillin-clavulanate-induced liver injury is influenced by multiple HLA class I and II alleles.Polymorphisms of the TNFAIP3 region and Graves' disease.Reciprocal regulation of C-Maf tyrosine phosphorylation by Tec and Ptpn22.Genetic factors of autoimmune thyroid diseases in JapaneseAfrican-derived genetic polymorphisms in TNFAIP3 mediate risk for autoimmunityEmerging patterns of genetic overlap across autoimmune disorders.Genetic associations in acquired immune-mediated bone marrow failure syndromes: insights in aplastic anemia and chronic idiopathic neutropenia.The genetics of human autoimmune disease: A perspective on progress in the field and future directions.Autoimmunity risk alleles: hotspots in B cell regulatory signaling pathways.A disease-associated PTPN22 variant promotes systemic autoimmunity in murine models.Joint genetic susceptibility to type 1 diabetes and autoimmune thyroiditis: from epidemiology to mechanisms.Molecular mechanisms of autoimmunity.The search for lupus biomarkers.Type 1 diabetes and autoimmune thyroiditis: the genetic connection.Genetic susceptibility to SLE: new insights from fine mapping and genome-wide association studies.Genetics of rheumatoid arthritis: GWAS and beyond.PTPN22 deficiency cooperates with the CD45 E613R allele to break tolerance on a non-autoimmune background.Altered expression of protein tyrosine phosphatase, non-receptor type 22 isoforms in systemic lupus erythematosusArthritis in space and time--to boldly go!Molecular mechanisms in autoimmune type 1 diabetes: a critical review.Associations between PTPN22 and TLR9 polymorphisms and systemic lupus erythematosus: a comprehensive meta-analysis.PTPN22 polymorphism presumably plays a role in the genetic background of chronic spontaneous autoreactive urticaria.Application of Various Statistical Models to Explore Gene-Gene Interactions in Folate, Xenobiotic, Toll-Like Receptor and STAT4 Pathways that Modulate Susceptibility to Systemic Lupus Erythematosus.Putting on the Brakes: Regulatory Kinases and Phosphatases Maintaining B Cell Anergy.
P2860
Q24305267-FB44BE66-2641-4A76-A3C3-84537408E0B6Q24600995-093832A9-236A-43CD-929B-5C272DC857D0Q28299415-0A10D645-0425-49A1-A4D1-C1525ECEB98CQ33935390-CA99A08A-7C62-4653-88F4-59F8BA6A1CB2Q33960019-C6B38422-C245-4341-AF16-36B5682CEDEEQ34031181-7C7AC818-B531-4D45-B725-BED313E058BDQ34079211-8202AEA6-7B0D-40D1-BF82-FE39E45D46E9Q34114491-9D56D882-59FD-4A1C-9C17-6B01021DF63BQ34604608-ACC0FC2C-9949-4E12-99F4-F2BDDBEC0590Q34980873-6CCA9E3B-7C43-48C9-A9DA-B31FE1F87FABQ35085745-DA47978F-E207-41E6-9C2B-609198C932A6Q35085772-9E6CD131-9EC0-484C-B6B9-4F04CFAC5E4EQ35163330-1848FA31-564F-4009-8F2A-EB488DB8C194Q35629151-541670CB-1630-45A7-BE08-D6BD287EC9FBQ35661517-65732895-60F9-4149-B8A8-BF82EB9CDE6DQ35839417-E1984121-53C9-4B8A-8566-2D7EF27C8DA2Q35907540-087BDC05-1FD8-4F9E-BB13-D1E470723332Q36204561-FC7C0E85-8128-48F7-9460-BDCB521481C2Q36236745-C9A08D45-5307-4C37-90DA-835D9CB295A0Q36793513-E7DD634F-C39A-409E-87F4-38F0887324B0Q36802757-0B1A5AF4-86AF-4EA7-BFB8-4DEB5D710E9EQ36973929-1CD6F357-721C-4BDE-8F42-321344111FDAQ37103773-F209925B-698E-4AE0-BC19-A293392FDB26Q37308042-C23835AE-F540-4C57-AD7C-E6F7A1C593A9Q37312563-72E9414E-9321-41E1-B073-03C827F14A3EQ37332754-7193779D-8EA2-4B1F-95C6-5737CBA04668Q37358260-D2A47E41-23F7-4AA9-B44C-508AF4AFBBBDQ37396708-1C9424A4-D425-4B31-84E1-E63E7D93A20BQ37690977-0F5B1018-4312-4E73-B060-5526B4061C69Q37875476-07B34396-DDEB-4C3C-B26B-181E44B67D7CQ38206114-73ABB697-7912-45BF-84A6-AEF342C6A7CFQ38681399-DE79A7E5-2BCB-4C4D-913E-3FE1CDDBEA43Q48425448-903E69F8-D011-4D11-B31A-D1ABF5C346EFQ50751208-50AAFB48-5039-4AC0-ABFC-BDB021384946Q55223778-57AE1CB2-20AB-4545-952F-889751F7F5EC
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 2007
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
PTPN22: its role in SLE and autoimmunity.
@en
PTPN22: its role in SLE and autoimmunity.
@nl
type
label
PTPN22: its role in SLE and autoimmunity.
@en
PTPN22: its role in SLE and autoimmunity.
@nl
prefLabel
PTPN22: its role in SLE and autoimmunity.
@en
PTPN22: its role in SLE and autoimmunity.
@nl
P2860
P1433
P1476
PTPN22: its role in SLE and autoimmunity.
@en
P2093
Lindsey A Criswell
Sharon A Chung
P2860
P304
P356
10.1080/08916930701510848
P577
2007-12-01T00:00:00Z