Natural resistance to salmonellae in mice: control by genes within the major histocompatibility complex.
about
MHC heterozygosity confers a selective advantage against multiple-strain infections.Major Histocompatibility Complex Heterozygosity Reduces Fitness in Experimentally Infected MiceChronic murine typhoid fever is a natural model of secondary hemophagocytic lymphohistiocytosis.SJL/J mice are highly susceptible to infection by mouse adenovirus type 1.Role for neutrophils in host immune responses and genetic factors that modulate resistance to Salmonella enterica serovar typhimurium in the inbred mouse strain SPRET/EiGenetic control of antibody responses induced against an antigen delivered by recombinant attenuated Salmonella typhimuriumGenetic regulation of host responses to Salmonella infection in mice.Chronic Salmonella enterica serovar Typhimurium-induced colitis and cholangitis in streptomycin-pretreated Nramp1+/+ mice.Resistance to infection in murine beta-thalassemiaMajor histocompatibility complex-dependent susceptibility to Cryptococcus neoformans in miceControl by H-2 genes of the Th1 response induced against a foreign antigen expressed by attenuated Salmonella typhimuriumTh1 response in Salmonella typhimurium-infected mice with a high or low rate of bacterial clearance.Interleukin-12 is critical for induction of nitric oxide-mediated immunosuppression following vaccination of mice with attenuated Salmonella typhimurium.Persistent bacterial infections: the interface of the pathogen and the host immune system.Salmonella typhimurium persists within macrophages in the mesenteric lymph nodes of chronically infected Nramp1+/+ mice and can be reactivated by IFNgamma neutralizationRole of gamma interferon and tumor necrosis factor alpha in resistance to Salmonella typhimurium infection.Influence of different regions of the H-2 complex on the rate of clearance of Salmonella typhimuriumGenetic control of Salmonella typhimurium-induced depression of delayed-type hypersensitivity to sheep erythrocytes in miceRole of H-2 and non-H-2 genes in control of bacterial clearance from the spleen in Salmonella typhimurium-infected mice.Pathogenesis and immunity in murine salmonellosisImmunity to salmonellosis.Mouse models to assess the efficacy of non-typhoidal Salmonella vaccines: revisiting the role of host innate susceptibility and routes of challenge.Genetic susceptibility to invasive Salmonella disease.Dual Immunization with SseB/Flagellin Provides Enhanced Protection against Salmonella Infection Mediated by Circulating Memory Cells.Research opportunities in typhoid fever: epidemiology and molecular biology.Protein Acetylation Is Involved in Salmonella enterica Serovar Typhimurium Virulence.Hydrocortisone in chloramphenicol-treated severe typhoid fever in Papua New Guinea.Slc11a1-mediated resistance to Salmonella enterica serovar Typhimurium and Leishmania donovani infections does not require functional inducible nitric oxide synthase or phagocyte oxidase activity.Experimental infection magnifies inbreeding depression in house mice.Evaluation of the Lon-deficient Salmonella strain as an oral vaccine candidate.Identification of genetic loci controlling bacterial clearance in experimental Salmonella enteritidis infection: an unexpected role of Nramp1 (Slc11a1) in the persistence of infection in mice.Salmonellosis: lessons drawn from a germ-free pig model.Population and molecular genetics of susceptibility to intracellular pathogensAssociations between malaria and MHC genes in a migratory songbird
P2860
Q24535007-14AE9128-BCC4-4E58-B2DC-DD645BA442C3Q30051629-AFC6309A-C449-4BE3-B09E-45B82B068677Q33388431-541A312A-D73D-4C68-887E-03CCD74EDEC6Q33869925-9ECDF2BE-A297-41CA-9E00-07CA717B7310Q34119487-1E9915BB-068D-4D9D-9AAA-84BD2EA80382Q34540355-216AFF21-C908-4EA2-8B74-774850572FA9Q34993039-FB808CA6-5208-415D-B9AD-39F16EFFA7FCQ35073724-7771E85C-CE77-43AD-A458-C5177FAA4314Q35093476-5FF3B95A-19B0-45D5-9364-7492120D83AEQ35165078-F110C8DE-E5A0-4DBE-AADE-A449CA0573ABQ35527181-B201416B-52D4-4401-8E97-D578A9B825E7Q35557680-21A30F0B-625A-43D6-B44B-50570059BBC7Q35559415-1717892E-7882-4AB1-9E54-EA78039932DCQ35889600-406B2F8C-8B86-4642-B1FD-76CB790B1DCEQ36399044-2AAAAB65-A641-4469-8892-4477281FFCD2Q36957625-1407F9DC-933B-43D4-875F-F1225B16BAA3Q36977622-F18E6BE8-0F2F-4616-AFC0-F20BD4A7BD5DQ36993309-14A547A8-5175-4B6C-A1EE-2DEEDF45A067Q36999090-DD5453E7-1A82-4294-A60A-8B723A2015C7Q37055869-D9BD067D-3C17-45E8-BF7F-EB34A9267510Q37846872-6A3EC11E-58EB-464F-AF56-5752C75BAFD8Q37880344-C3DB4BCD-60A1-4ADE-A2BC-4467BB99474BQ38537340-AE01EB04-B259-4A34-8400-452CA922A21CQ38678152-BF39822E-5CED-4228-B9D9-8CC2D4F146DFQ39570222-CD709E5A-AB7E-41D8-B2D1-F6A7FF4D3AA2Q40062098-CF194192-EA75-4B06-9FBB-1C2E640E7154Q40752742-1C77CA69-166C-4362-89D6-7BF58D54D5D3Q45188754-A24D65D5-0098-4CEA-A7B2-F6347BD57BA4Q50063803-764E1F45-4A06-4FAB-91D7-CBC0047BF277Q50084887-AE54F4D6-5E4D-4D6E-A6C2-32ED920F1874Q50109294-33FCC7E8-D2C7-4421-9CC3-10C7657F069DQ50127287-4F7F4BC9-5187-47E9-A29A-96B429FEE7D3Q58133608-E9976E1B-7414-4C8C-BE03-9C1907AB4CFEQ59211981-A0FDA40E-132F-44C0-BC10-24EB5B8719EE
P2860
Natural resistance to salmonellae in mice: control by genes within the major histocompatibility complex.
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年論文
@yue
1985年論文
@zh-hant
1985年論文
@zh-hk
1985年論文
@zh-mo
1985年論文
@zh-tw
1985年论文
@wuu
1985年论文
@zh
1985年论文
@zh-cn
name
Natural resistance to salmonel ...... or histocompatibility complex.
@en
type
label
Natural resistance to salmonel ...... or histocompatibility complex.
@en
prefLabel
Natural resistance to salmonel ...... or histocompatibility complex.
@en
P2093
P356
P1476
Natural resistance to salmonel ...... or histocompatibility complex.
@en
P2093
Harrington KA
Hormaeche CE
P304
P356
10.1093/INFDIS/152.5.1050
P407
P577
1985-11-01T00:00:00Z