Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
about
TularemiaDifferential effects of type I and II interferons on myeloid cells and resistance to intracellular bacterial infectionsImmunotherapy for tularemiaSubversion of host recognition and defense systems by Francisella sppLow doses of imatinib induce myelopoiesis and enhance host anti-microbial immunityThe involvement of IL-17A in the murine response to sub-lethal inhalational infection with Francisella tularensisB-Cell Epitopes in GroEL of Francisella tularensisEffective, broad spectrum control of virulent bacterial infections using cationic DNA liposome complexes combined with bacterial antigensEvasion of IFN-γ signaling by Francisella novicida is dependent upon Francisella outer membrane protein CTLR-dependent control of Francisella tularensis infection and host inflammatory responsesMacrophage pro-inflammatory response to Francisella novicida infection is regulated by SHIP.The presence of CD14 overcomes evasion of innate immune responses by virulent Francisella tularensis in human dendritic cells in vitro and pulmonary cells in vivo.Nonspecific early protective immunity in Francisella and Listeria infections can be dependent on lymphocytes.Identification of T-cell epitopes in Francisella tularensis using an ordered protein array of serological targets.Obligatory role of gamma interferon for host survival in a murine model of infection with Burkholderia pseudomallei.Mucosal immunotherapy for protection from pneumonic infection with Francisella tularensisRestricted cytosolic growth of Francisella tularensis subsp. tularensis by IFN-gamma activation of macrophagesRapid local expression of interleukin-12, tumor necrosis factor alpha, and gamma interferon after cutaneous Francisella tularensis infection in tularemia-immune mice.Importance of B cells, but not specific antibodies, in primary and secondary protective immunity to the intracellular bacterium Francisella tularensis live vaccine strainFrancisella tularensis LVS induction of prostaglandin biosynthesis by infected macrophages requires specific host phospholipases and lipid phosphatasesLong lived protection against pneumonic tularemia is correlated with cellular immunity in peripheral, not pulmonary, organs.TLR2 Signaling is Required for the Innate, but Not Adaptive Response to LVS clpBGeneration of a convalescent model of virulent Francisella tularensis infection for assessment of host requirements for survival of tularemiaLow dose vaccination with attenuated Francisella tularensis strain SchuS4 mutants protects against tularemia independent of the route of vaccination.Cellular and humoral immunity are synergistic in protection against types A and B Francisella tularensis.Intranasal vaccination with a defined attenuated Francisella novicida strain induces gamma interferon-dependent antibody-mediated protection against tularemia.A mucosal subunit vaccine protects against lethal respiratory infection with Francisella tularensis LVS.Administration of a synthetic TLR4 agonist protects mice from pneumonic tularemia.Francisella tularensis subsp. tularensis induces a unique pulmonary inflammatory response: role of bacterial gene expression in temporal regulation of host defense responsesSuccessful protection against tularemia in C57BL/6 mice is correlated with expansion of Francisella tularensis-specific effector T cells.Virulence of Francisella spp. in chicken embryos.The subversion of the immune system by francisella tularensis.Characterization of monoclonal antibodies to terminal and internal O-antigen epitopes of Francisella tularensis lipopolysaccharide.Alternative activation of macrophages and induction of arginase are not components of pathogenesis mediated by Francisella speciesYopP-expressing variant of Y. pestis activates a potent innate immune response affording cross-protection against yersiniosis and tularemia [corrected].Chromosome rearrangement and diversification of Francisella tularensis revealed by the type B (OSU18) genome sequence.A MyD88-dependent IFNγR-CCR2 signaling circuit is required for mobilization of monocytes and host defense against systemic bacterial challenge.Coactivating signals for the hepatic lymphocyte gamma interferon response to Francisella tularensisInactivated Francisella tularensis live vaccine strain protects against respiratory tularemia by intranasal vaccination in an immunoglobulin A-dependent fashion.Francisella tularensis: taxonomy, genetics, and Immunopathogenesis of a potential agent of biowarfare.
P2860
Q24535661-D17CFA7D-B6DF-4501-9DEA-E8860FA73D06Q26849516-9DB7A73A-AB88-41D0-AF64-548EAE49AF97Q26864945-947288D7-D108-4E63-B5A1-BD98B270322BQ27025594-04848E11-64EE-4E67-99F1-621CF2CFBDDEQ27320733-71CA2641-4389-4F62-9759-594DF18596E4Q27324829-733C2829-9DB5-48F4-8AD0-A043A8664202Q27684471-30151812-AE01-408A-BBD9-3215191575ABQ28474115-0D4E2A6D-4FB8-44F6-9631-9E1A1C0831CCQ28477609-3B239F86-E5CD-40FE-AEF0-408617F501A6Q28750216-8F38CB74-1FC7-409E-ADEE-50FC43DBBB50Q33250568-C7999D71-C0D8-4016-A589-38BBF76310A4Q33557745-C10045D2-DC59-4CC8-BFD9-399B3DB4F921Q33757039-7910C63F-D58E-4D1B-A200-1CB42D303BE1Q33788322-EE691390-C0B0-4E98-B691-43C087F1E842Q33877205-4FC0D7A4-687B-46EE-949F-E8F89B5B8DADQ33886324-7AE48A1E-2750-4B37-9BD0-32CB5CB95681Q33931556-2237E922-2576-492B-BD46-CBCDE3B1CB52Q34000875-A89ADF4A-36D8-4C56-B754-E56E3AD7C3ACQ34002527-AC63AC3D-8839-417E-969F-6262EEA3677BQ34059050-273044E4-E4F3-41C5-8E10-DAB6A020FC01Q34126301-D10A8D11-7EE8-4E2E-ABC1-7A93E7169A43Q34139769-D47EFEE3-233D-4069-9723-14BE4C73CBAFQ34200786-1EC3368D-D41F-4E7F-8524-8F58C51CF1A1Q34291236-8E93B504-CCCD-4246-9B2F-637589E9CDBCQ34423341-7BB3C03B-9578-4578-BF37-A41210230361Q34492667-2EDC2904-2288-4CCF-B802-0A75C40D3917Q34500312-154DD561-777A-4C40-85F8-B3B1BD084C93Q34714290-612F85AB-331D-4D0D-8F74-FC01DA42E70FQ34729832-E9E79D71-A8C3-4620-AB43-EF0D5A8D07D8Q34784967-45DC794F-8977-4B94-858E-B6DA3C0C4AB6Q34975649-B63F34FA-AE8B-4293-A5FD-DB0634CFCC1EQ35028864-14BBC88E-FA89-434D-878A-109E3858FF90Q35057751-4F9CF4B6-385C-4AC7-B584-66D1077980F5Q35064098-A91B3C87-468E-4433-BE02-4CA64CDAB9DEQ35073117-80A87E09-1C5C-43B0-86F3-E52EAC32EF44Q35075701-3FF79EDE-928A-4D55-8ED1-45395AFB539AQ35348877-39B83A98-9F31-4BD2-B7AA-9402C1DDAC81Q35689466-392B01F8-718C-4ED4-A7F3-B116D53363FDQ35784151-214C9D5A-51BD-470F-996F-05B0DC66B2CCQ35933852-E4A40940-A7D0-4924-9A76-B797DA9CDC21
P2860
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
description
1996 nî lūn-bûn
@nan
1996 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@ast
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@en
type
label
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@ast
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@en
prefLabel
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@ast
Minimal requirements for murine resistance to infection with Francisella tularensis LVS.
@en
P2093
P2860
P1476
Minimal requirements for murine resistance to infection with Francisella tularensis LVS
@en
P2093
Rhinehart-Jones TR
Winegar RK
P2860
P304
P407
P577
1996-08-01T00:00:00Z