Working principles in the immune system implied by the "peptidic self" model.
about
Direct identification of an endogenous peptide recognized by multiple HLA-A2.1-specific cytotoxic T cells.Allospecific cytotoxic T lymphocytes recognize an H-2 peptide in the context of a murine major histocompatibility complex class I molecule.Direct demonstration of critical amino acid residues required for cytotoxic T-lymphocyte allorecognition of H-2 class I antigensCytotoxic T lymphocytes recognize a reconstituted class I histocompatibility antigen (HLA-A2) as an allogeneic target molecule.B-lymphoma cells process and present their endogenous immunoglobulin to major histocompatibility complex-restricted T cellsRecognition of xeno-(HLA, SLA) major histocompatibility complex antigens by mouse cytotoxic T cells is not H-2 restricted: a study with transgenic mice.Creation of H-2 class I epitopes using synthetic peptides: recognition by alloreactive cytotoxic T lymphocytes.Perpetuation of immunological memory: a relay hypothesis.Self peptides and the peptidic self.Analyses of the TCR repertoire of MHC class II-restricted innate CD4⁺ T cellsThe thymic education of developing T cells in self neuroendocrine principles.The major histocompatibility complex in transplantationDonor major histocompatibility complex (MHC) peptides are presented by recipient MHC molecules during graft rejection.T cell recognition of self-human histocompatibility leukocyte antigens (HLA)-DR peptides in context of syngeneic HLA-DR moleculesAn immunoglobulin light chain from a lupus-prone mouse induces autoantibodies in normal miceImmunogenicity and tolerogenicity of self-major histocompatibility complex peptides.Functional polymorphism of each of the two HLA-DR beta chain loci demonstrated with antigen-specific DR3- and DRw52-restricted T cell clones.Molecular characterization of the C3HfB/HeN H-2Kkm2 mutation. Implications for the molecular basis of alloreactivityThe tumor-rejection antigens of the 1591 ultraviolet fibrosarcoma. Potential origin and evolutionary implicationsI-A alpha polymorphic residues that determine alloreactive T cell recognition.The presentation of self-peptides: tolerance and competition.Tolerance to a self-protein involves its immunodominant but does not involve its subdominant determinantsAllopeptides and the alloimmune response.Old game, new players: Linking classical theories to new trends in transplant immunology.Surface proteins and glycoproteins of human leucocytes.The origin of "natural antibodies" and the internal activity in the immune system.Images of self: a model for tonic peripheral tolerance.Processing of self-proteins and its impact on shaping the T cell repertoire, autoimmunity and immune regulation.A novel downstream regulatory element of the mouse H-2Kb class I major histocompatibility geneRecognition of the self idiotype by T cells: induction of a rapid increase in cytoplasmic free calcium in T cells recognizing a variable L chain determinant.T cells sensitized to synthetic HLA-DR3 peptide give evidence of continuous presentation of denatured HLA-DR3 molecules by HLA-DP.Comparison of TCR-alpha beta sequences of cross-reactive anti-DR alloreactive T-cell clones: identification of possible contact residues based on charge complementarity between TCR chains and DR determinants.
P2860
Q30447379-510D3EA9-554A-4FC4-BC3F-740073BDFC23Q33560767-B91B2897-7E06-470D-BD47-95FBF22F4F1EQ33570623-B717373D-1FD5-4C75-BCE3-AE7DE5EF7195Q33676045-C636668C-F3EC-413A-B400-E5034E910333Q33829440-C35013B5-3BEB-487F-BE0C-CBDD05D542E5Q33832223-870099A4-50E4-42A1-AEF3-B2C76341E1FEQ33835879-9C5AD45C-7449-46E0-8C1D-D3E0A68F3221Q34235888-A98CA816-BFF7-4039-A03D-D54E6A3DC1B2Q34560516-6D8F3FBF-FACB-4CC6-A3B6-253C52032A30Q35152971-9BBDE96E-0A2D-46F1-8467-88E05CA0BD43Q35515149-1874B4E5-4EE5-48C6-BD81-D7E4214BB7C3Q36072165-647C5F89-ADF5-4473-A3A2-0BB9B2B79AD8Q36230778-B8270F2E-6B72-4184-A93D-658E495766BCQ36231401-D9241177-B15D-41E3-95BB-F4F5B3F31F1EQ36351311-AD3B8380-3EAF-49B3-A581-C0A5998E61B9Q36353829-6ACE99B9-E123-432E-B22D-AB90A298E496Q36354716-5B99F11A-7F93-4152-B82A-FD8008FB44DCQ36355627-30A487B0-E777-485C-9DDC-681A5A24B046Q36356160-8554D356-6A8B-4699-BA67-90EA3E3A37E9Q36356297-A493C6DD-484B-4DBA-B3A4-E0A8400D8EDEQ36676941-FB9DF0EC-F8B5-4881-9A9E-15B7669C42C7Q36778058-0033B302-23C6-4EC1-AA8B-AB1AAF4C83BDQ37006610-4A71B14F-FC8B-4666-8BE0-8633A5137945Q37662989-2683ED81-569B-4EE1-B7EC-2C8BF64F1946Q39524176-79C34BD2-89B1-4E5D-BAA0-28C6714ABB5FQ39573726-D72BC862-A0EA-4426-9892-27F5645AA122Q40618214-53B6AEC9-715A-424E-A03C-47DA792AD486Q40808132-85130980-06B8-4854-B8C1-7EF7E4C53B21Q41546161-77C04007-8B52-454A-B31B-1FFEEC383591Q41649767-E58CAFC7-E1B2-4D21-BA65-AD999CDD010CQ41938736-81238F75-954B-4D4A-AC70-94AF735E4E5AQ42608594-B6FF2100-3CA8-42AF-BE01-3B74CFB2B23C
P2860
Working principles in the immune system implied by the "peptidic self" model.
description
1987 nî lūn-bûn
@nan
1987 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1987 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
name
Working principles in the immune system implied by the "peptidic self" model.
@ast
Working principles in the immune system implied by the "peptidic self" model.
@en
Working principles in the immune system implied by the "peptidic self" model.
@nl
type
label
Working principles in the immune system implied by the "peptidic self" model.
@ast
Working principles in the immune system implied by the "peptidic self" model.
@en
Working principles in the immune system implied by the "peptidic self" model.
@nl
prefLabel
Working principles in the immune system implied by the "peptidic self" model.
@ast
Working principles in the immune system implied by the "peptidic self" model.
@en
Working principles in the immune system implied by the "peptidic self" model.
@nl
P2093
P2860
P356
P1476
Working principles in the immune system implied by the "peptidic self" model.
@en
P2093
Claverie JM
Kourilsky P
Rabourdin-Combe C
P2860
P304
P356
10.1073/PNAS.84.10.3400
P407
P577
1987-05-01T00:00:00Z