Studies on the mechanism of bacterial resistance to complement-mediated killing. II. C8 and C9 release C5b67 from the surface of Salmonella minnesota S218 because the terminal complex does not insert into the bacterial outer membrane.
about
Common themes in microbial pathogenicity revisitedThe neglected role of antibody in protection against bacteremia caused by nontyphoidal strains of Salmonella in African childrenIdentification of a domain in Rck, a product of the Salmonella typhimurium virulence plasmid, required for both serum resistance and cell invasionInfections of People with Complement Deficiencies and Patients Who Have Undergone SplenectomyCharacterization of the complement sensitivity of paroxysmal nocturnal hemoglobinuria erythrocytes.Novel attenuated Salmonella enterica serovar Choleraesuis strains as live vaccine candidates generated by signature-tagged mutagenesisBactericidal and bacteriolytic activity of serum against gram-negative bacteria.The dual role of lipopolysaccharide as effector and target molecule.Acquired resistance of Escherichia coli to complement lysis by binding of glycophosphoinositol-anchored protectin (CD59).Identification and characterization of a phase-variable nonfimbrial Salmonella typhimurium gene that alters O-antigen production.Conflicting roles for a cell surface modification in SalmonellaMolecular cloning of S-protein, a link between complement, coagulation and cell-substrate adhesion.The polysaccharide portion of lipopolysaccharide regulates antigen-specific T-cell activation via effects on macrophage-mediated antigen processing.Diverse virulence traits underlying different clinical outcomes of Salmonella infectionO-antigen structural variation: mechanisms and possible roles in animal/plant-microbe interactions.Role of charge and hydrophobic interactions in the action of the bactericidal/permeability-increasing protein of neutrophils on gram-negative bacteria.Burkholderia pseudomallei activates complement and is ingested but not killed by polymorphonuclear leukocytes.Pathogenesis of Campylobacter fetus infections. Failure of encapsulated Campylobacter fetus to bind C3b explains serum and phagocytosis resistance.Human natural anti-Gal IgG regulates alternative complement pathway activation on bacterial surfacesMechanism of resistance to complement-mediated killing of bacteria encoded by the Salmonella typhimurium virulence plasmid gene rck.Bactericidal Immunity to Salmonella in Africans and Mechanisms Causing Its Failure in HIV Infection.The Salmonella typhimurium virulence plasmid complement resistance gene rck is homologous to a family of virulence-related outer membrane protein genes, including pagC and ailLipopolysaccharide size and distribution determine serum resistance in Salmonella montevideo.Serum-resistant mutants of Escherichia coli O111 contain increased lipopolysaccharide, lack an O antigen-containing capsule, and cover more of their lipid A core with O antigen.Characterization and biological role of the O-polysaccharide gene cluster of Yersinia enterocolitica serotype O:9Activation of complement by serum-resistant Neisseria gonorrhoeae. Assembly of the membrane attack complex without subsequent cell death.IgG bearing covalently bound C3b has enhanced bactericidal activity for Escherichia coli 0111.Lipopolysaccharide phase variation determines the complement-mediated serum susceptibility of Coxiella burnetii.Role of immunoglobulin G in killing of Borrelia burgdorferi by the classical complement pathway.Characterization of the susceptibility of Pseudomonas aeruginosa to complement-mediated killing: role of antibodies to the rough lipopolysaccharide on serum-sensitive strains.Protective role of magnesium in the neutralization by antibodies of Chlamydia trachomatis infectivity.Plasmid-associated resistance of Salmonella typhimurium to complement activated by the classical pathwayInteraction of complement with serum-sensitive and serum-resistant strains of Pseudomonas aeruginosa.Haemophilus influenzae type b lipooligosaccharide: stability of expression and association with virulenceActivation of the classical and alternative pathways of complement by Treponema pallidum subsp. pallidum and Treponema vincentiiInhibition of serum bactericidal reaction by lipopolysaccharide.Role of lipopolysaccharide in opsonization and phagocytosis of Pseudomonas aeruginosa.Mechanism of bacterial resistance to complement-mediated killing: inserted C5b-9 correlates with killing for Escherichia coli O111B4 varying in O-antigen capsule and O-polysaccharide coverage of lipid A core oligosaccharideSerum resistance encoded by colicin V plasmids in Escherichia coli and its relationship to the plasmid transfer system.Complement activation by polysaccharide of lipopolysaccharide: an important virulence determinant of salmonellae
P2860
Q24643808-5F2FD8F7-4D8A-4D43-A88C-08062D03611BQ24651695-487098D8-7C71-4A82-BD22-F717272CF57FQ24670046-E7C12CE4-C62D-47CF-8020-7F548B37B4A5Q28972389-6C1EB612-9C62-40DC-BC34-CE4580342677Q30449395-68F99157-D249-43F4-ADAD-FDDF35EB1B3DQ30802772-5A4994A6-372E-46E9-9EBF-2AF37427AB0EQ33627395-E3D825BC-B7AE-40AF-9619-4C8A0452F7F0Q33737234-050EF699-70FD-440D-A1BD-D7573B21BD08Q33753497-C2D697A2-6E73-4F99-B5D9-D292E9BE693FQ33768461-5099ECC4-9D2B-4DF8-9B6B-13CFF6214004Q33842938-733855E9-CBAB-4C8C-9C21-B67695DD2611Q33931976-5A1CC3CC-9E59-491E-99F7-CD94A2D778F5Q34000037-20BB2493-2C1A-42E7-95A3-D13ECD1C0A33Q34206361-EA27EDAC-738E-4F8F-829E-60457D2E0D14Q34635579-7F593C67-7D29-4831-BB79-515A634411CEQ35204057-8380A6A1-3989-4527-9083-9624438506AFQ35530892-10B3D918-C223-4121-815A-4760E93B7D34Q35587941-D6E1552F-9F76-448D-B443-2F5FF64CD084Q35600711-C119D0A1-D9EC-4B0C-A1D9-C987DFE93413Q35822024-CD33F6C0-3799-4BEA-99B0-7876558638E0Q35983385-6FE5EF7F-3CA1-4753-A73C-F100EF1E2580Q36109354-F1F32A8D-AB30-4CB8-AA49-99C488864EFFQ36229347-9CF4ABF5-752F-4FEA-A6BC-80332E76B536Q36303453-265A4999-B26A-4B8C-90A4-F58C6FDFF541Q36314286-1FBE8D10-2CC8-45CD-8C23-5EDA84F8D271Q36347020-625A2B70-B597-47DD-A2EA-3B5FCE510874Q36350791-2F4A825D-8899-4435-9A9B-9A9D4325C825Q36992338-6059C298-57D1-4DB1-BB76-984DC3383B9AQ36993336-09E5356B-0658-43DB-B3E8-EC2D9ABA8B5BQ36994774-A4654E08-646C-41DC-84E5-ED8B4C87BFDDQ36995937-3CBD9FB5-6C08-42F5-89F4-D8E268481AD9Q37007726-9604B6E0-F6FE-42AE-9A16-1BE496712EAAQ37013891-69A30A94-2004-4FB5-A4A5-D27BBC5ABCEFQ37022166-E9B316CC-C2DE-403E-8A86-F6F5CC8EB539Q37022345-55409A79-C91C-4B0C-86C0-54328BAE37D8Q37033712-9ED7D9E6-2A70-4E8F-A0A5-6C542F359D7BQ37051223-F7E21A7F-3685-4FF0-9DF6-FA156709CCE1Q37077221-9839CDB3-1CEE-4EF3-B164-6FF792E16811Q37097376-B0416F80-F265-40A3-84AA-28E2D0C94E39Q37107256-73102B8D-0524-4A48-A788-DC5DA172AD78
P2860
Studies on the mechanism of bacterial resistance to complement-mediated killing. II. C8 and C9 release C5b67 from the surface of Salmonella minnesota S218 because the terminal complex does not insert into the bacterial outer membrane.
description
1982 nî lūn-bûn
@nan
1982年の論文
@ja
1982年学术文章
@wuu
1982年学术文章
@zh-cn
1982年学术文章
@zh-hans
1982年学术文章
@zh-my
1982年学术文章
@zh-sg
1982年學術文章
@yue
1982年學術文章
@zh
1982年學術文章
@zh-hant
name
Studies on the mechanism of ba ...... the bacterial outer membrane.
@ast
Studies on the mechanism of ba ...... the bacterial outer membrane.
@en
type
label
Studies on the mechanism of ba ...... the bacterial outer membrane.
@ast
Studies on the mechanism of ba ...... the bacterial outer membrane.
@en
prefLabel
Studies on the mechanism of ba ...... the bacterial outer membrane.
@ast
Studies on the mechanism of ba ...... the bacterial outer membrane.
@en
P2093
P2860
P356
P1476
Studies on the mechanism of ba ...... the bacterial outer membrane.
@en
P2093
P2860
P304
P356
10.1084/JEM.155.3.809
P407
P577
1982-03-01T00:00:00Z