Allelic variants of the human putative peptide transporter involved in antigen processing
about
Presentation of numerous viral peptides to mouse major histocompatibility complex (MHC) class I-restricted T lymphocytes is mediated by the human MHC-encoded transporter or by a hybrid mouse-human transporterTAP1 alleles in insulin-dependent diabetes mellitus: a newly defined centromeric boundary of disease susceptibilityProcessing of urushiol (poison ivy) hapten by both endogenous and exogenous pathways for presentation to T cells in vitroInfectious Diseases and Immunity: Special Reference to Major Histocompatibility ComplexThe transporter associated with antigen processing: function and implications in human diseasesInvestigation of the association of major histocompatibility complex genes, including HLA class I, class II and TAP genes, with clinical forms of Crohn's diseaseMolecular studies and NK cell function of a new case of TAP2 homozygous human deficiencyIncreased frequency of TAP2B in early onset pauciarticular juvenile chronic arthritisTAP1 I333V gene polymorphism and type 1 diabetes mellitus: a meta-analysis of 2248 cases.Characterization and classification of ATP-binding cassette transporter ABCA3 mutants in fatal surfactant deficiency.Getting the inside out: the transporter associated with antigen processing (TAP) and the presentation of viral antigenDiscordant patterns of linkage disequilibrium of the peptide-transporter loci within the HLA class II region.Role of HLA genes in predisposition to develop insulin-dependent diabetes mellitus.Epstein-Barr virus isolates retain their capacity to evade T cell immunity through BNLF2a despite extensive sequence variation.Abnormal class I assembly and peptide presentation in the nonobese diabetic mouse.Characteristics of peptide and major histocompatibility complex class I/beta 2-microglobulin binding to the transporters associated with antigen processing (TAP1 and TAP2)Transporters from H-2b, H-2d, H-2s, H-2k, and H-2g7 (NOD/Lt) haplotype translocate similar sets of peptides.Recognition of vaccinia virus-encoded major histocompatibility complex class I antigens by virus immune cytotoxic T cells is independent of the polymorphism of the peptide transporters.Molecular basis of genetic polymorphism in major histocompatibility complex-linked proteasome gene (Lmp-2).Restrictions on the use of antigenic peptides by the immune systemPeptide length and sequence specificity of the mouse TAP1/TAP2 translocatorComparison of cell lines deficient in antigen presentation reveals a functional role for TAP-1 alone in antigen processing.Human SNPs resulting in premature stop codons and protein truncation.Genetic susceptibility to type 1 diabetes in the intracellular pathway of antigen processing - a subject review and cross-study comparison.Genomic polymorphism, recombination, and linkage disequilibrium in human major histocompatibility complex-encoded antigen-processing genes.Lack of association between gene polymorphism of transporters associated with antigen processing and allergic rhinitis in a Japanese population.TAP gene transporter polymorphism in inflammatory bowel diseases.Polymorphisms of the TAP 1 and 2 gene may influence clinical outcome of primary dengue viral infection.The genes influencing the susceptibility to IDDM in humans.The multifactorial nature of MHC-linked susceptibility to insulin-dependent diabetes.The implications of recent advances in coeliac disease.Juvenile chronic arthritis--a time for change?Genetics of demyelinating diseases.TAP polymorphism in patients with Behçet's disease.Sculpting MHC class II-restricted self and non-self peptidome by the class I Ag-processing machinery and its impact on Th-cell responses.Analysis of LMP and TAP polymorphisms by polymerase chain reaction-restriction fragment length polymorphism in rheumatoid arthritis.Polymorphisms in HLA-related genes and psoriasis heredity in patients with psoriasis.Distribution of HLA-A, B alleles and polymorphisms of TAP and LMP genes in Korean patients with atopic dermatitis.A single nucleotide polymorphism of the low molecular mass polypeptide 7 gene influences the interferon response in patients with chronic hepatitis C.Distribution of TAP gene polymorphisms and extended MHC haplotypes in Mexican Mestizos and in Seri Indians from northwest Mexico.
P2860
Q24336610-6F2D2FE7-8864-4AD2-85A9-0F205E7A9BFDQ24563878-68702259-3105-41BF-84D5-CB9C1B54BE0BQ24604520-AE56F8C1-99DF-4609-BEC5-D1B509205612Q27487586-3F349805-C924-4838-8789-13938F36DE39Q28214433-90BA667D-F50E-4023-9B05-5F068453AE66Q28285814-8E5A1CAE-7749-4CB9-A64D-D9E333F7DE18Q28347602-C96BB7CD-EA70-45AA-97E4-0AA674DC7CE9Q33566279-9DA685AC-E3E0-4FAB-819E-1BA63F9AEBFFQ33991679-D67583B6-D703-4219-AD0F-693DABCE3C05Q34564474-FB6C65C8-0BA6-456C-AF28-C7195AFEA801Q34754320-21BEFB5C-7B74-4882-860E-C3A1885E1D99Q35644176-8C4FD790-14E6-4ACC-A171-DE8F15DFA9A6Q35659662-7E9FB3A0-657C-40C2-85AA-0C4F73D90D0EQ35665981-BFB14A4C-708B-4755-9B21-43F0B6A4689BQ35897578-83A08372-23DC-481E-BBED-A8147ACC2B3FQ35999694-B4487453-1075-44C9-B46E-D96A8B898DF4Q36017645-3787F413-2E22-403A-8F60-47492301F06BQ36191749-9ED8E656-2CF8-4DF9-AE27-0B3F900354CAQ36192039-95EE7E0F-9EFF-4B9A-8BBB-00FD84302A3AQ36264197-D42C69AE-365F-4691-BD98-9289DEE0BC05Q36362717-97656BC5-2E7E-429F-BA1E-4987CA89165DQ36363817-09247F54-D293-4CCC-BD33-058296550A21Q36405307-7C58FEF2-C48A-4C4F-8153-C4CF955D7DD9Q36816677-A33B7BC1-DE78-4012-8A1C-D03A58FD5200Q37330961-F2B9BFE7-BA0E-4546-9DF2-C56CCC188BB1Q38289078-DC2A0FEB-FBD9-45D6-A765-DE9FFD6C0F14Q38341841-A93B20E6-4B95-49A6-A4A8-EFA858B778B4Q40421013-DF98BCCB-887A-4797-8324-CA7683A922C5Q40575824-3C6B6F82-24D6-4D77-952E-4A407B1FE618Q40770667-3D516F0A-1E39-4C70-AB21-D31EAD8BE667Q40780782-72F5D0E4-8196-431C-AA6A-38690FD1A394Q41108664-75185F05-654D-4553-8F61-ED3E4614EA3CQ41157673-AD46A0EF-E79E-438B-A1BE-5F35B349F1E5Q41286465-912AE0C4-8236-4046-B5C5-ED8A6DA8E17CQ41966343-CA82266E-B168-4A12-A3B7-7C0F9145762DQ42036448-6A521347-EDF4-459F-8651-2C85DDC4E611Q43732571-5920110B-FE41-4249-BB16-6A290700CC24Q43817863-EF518732-8DB9-4904-BF32-B60C97666074Q44133266-CC7FDFCD-E683-427B-A66E-B30C76EC72AFQ44840330-896494A5-ACFF-4673-843C-92FDFE8E4290
P2860
Allelic variants of the human putative peptide transporter involved in antigen processing
description
1992 nî lūn-bûn
@nan
1992 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Allelic variants of the human putative peptide transporter involved in antigen processing
@ast
Allelic variants of the human putative peptide transporter involved in antigen processing
@en
Allelic variants of the human putative peptide transporter involved in antigen processing
@nl
type
label
Allelic variants of the human putative peptide transporter involved in antigen processing
@ast
Allelic variants of the human putative peptide transporter involved in antigen processing
@en
Allelic variants of the human putative peptide transporter involved in antigen processing
@nl
prefLabel
Allelic variants of the human putative peptide transporter involved in antigen processing
@ast
Allelic variants of the human putative peptide transporter involved in antigen processing
@en
Allelic variants of the human putative peptide transporter involved in antigen processing
@nl
P2093
P2860
P356
P1476
Allelic variants of the human putative peptide transporter involved in antigen processing
@en
P2093
P2860
P304
P356
10.1073/PNAS.89.9.3932
P407
P577
1992-05-01T00:00:00Z