The optimal number of major histocompatibility complex molecules in an individual.
about
Sexual conflict inhibits female mate choice for major histocompatibility complex dissimilarity in Chinook salmonHost-parasite interactions and the evolution of gene expression.HLA class I molecular variation and peptide-binding properties suggest a model of joint divergent asymmetric selection.Self/nonself perception, reproduction and the extended MHCMajor Histocompatibility Complex Heterozygosity Reduces Fitness in Experimentally Infected MiceMHC class I variation associates with parasite resistance and longevity in tropical pythons.MHC adaptive divergence between closely related and sympatric African cichlidsCorrelated evolution of nucleotide substitution rates and allelic variation in Mhc-DRB lineages of primates.Sympatric and allopatric divergence of MHC genes in threespine stickleback.The evolution of the major histocompatibility complex in upstream versus downstream river populations of the longnose dace.The impact of sex-role reversal on the diversity of the major histocompatibility complex: insights from the seahorse (Hippocampus abdominalis)Naturally processed peptides from two disease-resistance-associated HLA-DR13 alleles show related sequence motifs and the effects of the dimorphism at position 86 of the HLA-DR beta chain.Both positive and negative effects on immune responses by expression of a second class II MHC molecule.Sex-specific selection for MHC variability in Alpine chamois.Female rose bitterling prefer MHC-dissimilar males: experimental evidence.The leukocyte receptor complex in chicken is characterized by massive expansion and diversification of immunoglobulin-like LociNo evidence for the effect of MHC on male mating success in the brown bearFemale promiscuity is positively associated with neutral and selected genetic diversity in passerine birds.MHC genes and parasitism in Carassius gibelio, a diploid-triploid fish species with dual reproduction strategies.Differential modes of MHC class IIB gene evolution in cichlid fishes.MHC-assortative facial preferences in humans.Intermediate number of major histocompatibility complex class IIB length variants relates to enlarged perivisceral fat deposits in the blunt-head cichlid Tropheus moorii.Locus number estimation of MHC class II B in stone flounder and Japanese flounder.Expression levels of MHC class I molecules are inversely correlated with promiscuity of peptide binding.MHC studies in nonmodel vertebrates: what have we learned about natural selection in 15 years?MHC class II-assortative mate choice in European badgers (Meles meles).No Compensatory Relationship between the Innate and Adaptive Immune System in Wild-Living European BadgersColoniality and migration are related to selection on MHC genes in birds.The evolutionary ecology of the major histocompatibility complex.Genes and Group Membership Predict Gidgee Skink (Egernia stokesii) Reproductive Pairs.The selection of M3-restricted T cells is dependent on M3 expression and presentation of N-formylated peptides in the thymus.Social pairing of Seychelles warblers under reduced constraints: MHC, neutral heterozygosity, and age.Mortality selection during the 2003 European heat wave in three-spined sticklebacks: effects of parasites and MHC genotype.Quantitative theories of T-cell responsiveness.Duplication and population dynamics shape historic patterns of selection and genetic variation at the major histocompatibility complex in rodentsMate choice for neutral and MHC genetic characteristics in Alpine marmots: different targets in different contexts?Major histocompatibility complex class II DAB alleles associated with intestinal parasite load in the vulnerable Chinese egret (Egretta eulophotes).Does intra-individual major histocompatibility complex diversity keep a golden mean?A limit to the divergent allele advantage model supported by variable pathogen recognition across HLA-DRB1 allele lineages.Theories and quantification of thymic selection.
P2860
Q24618148-7BF5F95D-8F1D-4188-B26D-BDAF59B4E3C0Q24794881-2B46B6FB-9C5A-4A2B-BA8B-53FA93B8EFA7Q27324007-41B2D517-EEC6-40CE-9756-E79CF0979204Q28742269-946FCB40-0BBF-4C1A-9B3B-08EBF2EF6322Q30051629-523AAF88-008E-4536-B2F4-6282CF067631Q33260363-C3854434-6CD2-4B05-BC1A-AFD6890A4668Q33294709-D75C2155-2881-4AE7-BB82-21E394E43A8DQ33429263-B19DE711-2207-40BB-831D-86BDF7A60195Q33618887-D02B9745-E692-4A8D-8B1C-CD1B5E912F18Q33694391-0FF84AD1-6415-44E3-AF53-2ABBC5BAF93BQ33898490-15F88D4E-F950-4135-ACBF-24E6107EBFB5Q34140188-C478DF09-1D30-4000-8435-1553B1B3BAE4Q34146648-B2089BCE-D84F-4714-BE29-83B72CE5357AQ34159480-9D0FF6E3-0406-4CD2-A212-72A34111DE0EQ34345173-08DFC26D-FD82-494D-8DAA-560265E33CA8Q34598133-B9878C33-1E1B-4F8A-BC27-3844E1E84F30Q34626950-7782F1D1-2324-4515-9F34-BD5C36589572Q34687342-1907390E-F1C0-4CF5-8977-A12A7F208B09Q34773913-8671C7EE-6FC3-4CC7-BA5C-934B5326985BQ34976861-1E9FF258-DFD2-4B99-B2DB-75DD70B93FD6Q35113018-DE8151BC-676B-450C-BBFE-5C129AFDCBEEQ35243420-49AA53AA-644D-4275-A786-5B5D72AA3DE3Q35381500-C3C8825C-AC62-4792-8F69-1B8F3196EB2CQ35573295-BE106070-3FF8-4D90-AB2D-B1F3F1D94359Q35592157-FF6AC9AC-C3B2-455C-AF9F-6011572E99F6Q35614762-1BE63FEC-0D64-496D-A1D1-A01576F5C8E2Q36151205-41564E46-12D1-405A-B480-DE2CBE4E536EQ36214021-64C7613F-333F-4E19-8486-FD9AA4B0FD2AQ36226078-A782AFE9-D9EA-418C-9CC2-9BFFEB555D2AQ36346147-458A392A-D870-41DB-A94D-5377E2002A27Q36375626-7762C480-F984-4731-B47A-58DA4AAEB245Q36477835-500780FA-D055-4119-ADE5-122DDA200BDBQ36661476-CF5DFF92-0702-453D-9BC1-8031397D2758Q36762522-6EA2FEF4-BF0A-4B66-83BB-0485A369027BQ36939236-1DA2F741-4668-4E50-AF73-580B0C6662C4Q37060428-7C29DD77-1000-4087-852F-C927AE44FD85Q37060443-DB47C5F9-6675-4975-B063-1529E9B5C6B0Q37153086-E48A8E57-E0CF-4EBA-90DD-5343E0F12F0AQ37320419-BC8155EE-11CA-4831-A8DD-29DFDF947FA7Q37551442-855F2686-369C-40EA-94E6-79FF77AAAE00
P2860
The optimal number of major histocompatibility complex molecules in an individual.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh
1992年學術文章
@zh-hant
name
The optimal number of major histocompatibility complex molecules in an individual.
@en
The optimal number of major histocompatibility complex molecules in an individual.
@nl
type
label
The optimal number of major histocompatibility complex molecules in an individual.
@en
The optimal number of major histocompatibility complex molecules in an individual.
@nl
prefLabel
The optimal number of major histocompatibility complex molecules in an individual.
@en
The optimal number of major histocompatibility complex molecules in an individual.
@nl
P2093
P2860
P356
P1476
The optimal number of major histocompatibility complex molecules in an individual.
@en
P2093
J M Austyn
K Tarczy-Hornoch
P2860
P304
10896-10899
P356
10.1073/PNAS.89.22.10896
P407
P577
1992-11-01T00:00:00Z