Real-time observation of listeria monocytogenes-phagocyte interactions in living zebrafish larvae.
about
Host-pathogen interactions made transparent with the zebrafish modelModelling of human Wiskott-Aldrich syndrome protein mutants in zebrafish larvae using in vivo live imagingInfection of zebrafish embryos with live fluorescent Streptococcus pneumoniae as a real-time pneumococcal meningitis model.The Macrophage-Specific Promoter mfap4 Allows Live, Long-Term Analysis of Macrophage Behavior during Mycobacterial Infection in ZebrafishThe zebrafish as a new model for the in vivo study of Shigella flexneri interaction with phagocytes and bacterial autophagyRecruitment of the major vault protein by InlK: a Listeria monocytogenes strategy to avoid autophagyLooking through zebrafish to study host-pathogen interactionsA high-throughput chemically induced inflammation assay in zebrafish.mpeg1 promoter transgenes direct macrophage-lineage expression in zebrafish.Live imaging of disseminated candidiasis in zebrafish reveals role of phagocyte oxidase in limiting filamentous growth.Innate immune response to Streptococcus iniae infection in zebrafish larvae.Macrophages mediate flagellin induced inflammasome activation and host defense in zebrafishA Zebrafish Model for Chlamydia Infection with the Obligate Intracellular Pathogen Waddlia chondrophilaSingle-cell techniques using chromosomally tagged fluorescent bacteria to study Listeria monocytogenes infection processes.Zebrafish as a model host for Candida albicans infection.Study of host-microbe interactions in zebrafishImmersion infection of germ-free zebrafish with Listeria monocytogenes induces transient expression of innate immune response genes.Illuminating the landscape of host-pathogen interactions with the bacterium Listeria monocytogenesEvaluation of zebrafish as a model to study the pathogenesis of the opportunistic pathogen Cronobacter turicensisDistinct signalling mechanisms mediate neutrophil attraction to bacterial infection and tissue injuryA Zebrafish Larval Model to Assess Virulence of Porcine Streptococcus suis StrainsNeutrophils in host defense: new insights from zebrafish.Establishment of Infection Models in Zebrafish Larvae (Danio rerio) to Study the Pathogenesis of Aeromonas hydrophila.The pore-forming toxin listeriolysin O is degraded by neutrophil metalloproteinase-8 and fails to mediate Listeria monocytogenes intracellular survival in neutrophils.Mycobacterium abscessus cording prevents phagocytosis and promotes abscess formation.Host-microbe interactions in the developing zebrafishTrolling for the ideal model host: zebrafish take the baitDeciphering and Imaging Pathogenesis and Cording of Mycobacterium abscessus in Zebrafish Embryos.Assessment of Listeria monocytogenes virulence in the Galleria mellonella insect larvae model.Zebrafish: an animal model for research in veterinary medicine.Endoplasmic reticulum chaperone Gp96 controls actomyosin dynamics and protects against pore-forming toxins.Using the chicken embryo to assess virulence of Listeria monocytogenes and to model other microbial infections.Exploring the chicken embryo as a possible model for studying Listeria monocytogenes pathogenicity.Non-invasive imaging of disseminated candidiasis in zebrafish larvaeZebrafish as a novel vertebrate model to dissect enterococcal pathogenesis.Listeria monocytogenes: at the coalface of host-pathogen research.Actin-based motility of bacterial pathogens: mechanistic diversity and its impact on virulence.Macrophage-Microbe Interactions: Lessons from the Zebrafish Model.Cold-Shock Domain Family Proteins (Csps) Are Involved in Regulation of Virulence, Cellular Aggregation, and Flagella-Based Motility in Listeria monocytogenes.Adoption of in vitro systems and zebrafish embryos as alternative models for reducing rodent use in assessments of immunological and oxidative stress responses to nanomaterials.
P2860
Q24604664-2E6EB22D-C270-49C9-8EFC-33905B43F8D4Q26863462-FD99C9C9-74DA-43F8-B58C-F0222214103EQ27303066-B800D0CE-0814-43D2-AB5D-3E6B70F9329DQ27316548-F89CD9FF-E567-4E12-BA1A-73DAEB01A04CQ27333637-6EBD35CE-D901-4D6D-9CBF-F452AC1DBD04Q27349252-30985B21-AFB0-4793-A96D-6FB376651C3FQ28086777-581348F9-DD74-4D70-AAE2-AD0759E11711Q30497926-4F444D95-00F1-48E4-B7F6-3231DF0C4142Q30498615-E18607AA-9254-48AC-84BC-7EC960FEB445Q30503045-926C1F64-9163-4344-A6B2-9B5E01A19936Q30531277-B1856341-CB56-430B-8FC5-2C2A77004259Q30813096-DFCAEEAF-E42E-49BE-BA73-0BE497339C48Q30829026-3220C7CB-C9FA-45A0-872C-5F263DDF9E9FQ33876723-1464F83B-AB5D-4CA1-8E55-A455FE95D9ECQ33877150-951F449B-093A-401A-9549-6517007CB20DQ34032546-A21A110D-8529-4AE4-947B-22A7B6A594C0Q35550772-51975015-3044-4BC1-A612-F3D3B8D1E907Q35621306-5398AF79-5F73-442E-90D8-EDB22D195864Q35671632-1E911AB5-9181-4CA3-811B-71D0452B3BD2Q35828007-569885B7-BDC8-41C4-A338-3BC0E5E00C5EQ35964732-947A88F0-9CE2-43E0-BEEF-BD4E7A4109FBQ36057930-705C8045-52C0-4AF6-BD0E-3B5B0DA1BBACQ37150364-2747D93E-6109-49CA-9787-8C90BC29E71EQ37423030-E37DD574-E2B8-40C2-BA25-70F47C347B28Q37640941-67BD441E-54A4-4306-AF8D-302023B4392CQ37691890-B07E080E-E15D-416D-80D3-A0D76C573FE7Q37721409-1E6D0CDE-BF96-485A-8D05-CCA22D98F889Q38962641-E241C97C-5EBA-4760-A4EC-06165C416FF7Q40045575-3E5D3968-8EE0-46B8-97C2-2ACF022833F2Q40262301-F12E87A0-17C7-443E-B576-C6E80478D493Q40389933-6B160CF5-21C8-42C2-BECA-1CE45AC65CB8Q41128017-4A4F3D16-BC04-4499-9E6E-35F1B0921222Q41581693-54F7DFD0-A2F8-4E2D-86BF-7725C06B9818Q41838571-932249A8-9749-4BEE-8E01-FDEF371B7478Q41908874-B975A83B-C699-46B7-B123-A19C1284057BQ42682983-60DD6DB6-2B72-41A7-9559-D7E95F043B9BQ44555946-B81C5431-7194-4541-939F-3B7B13F9E43EQ47126966-54D968AC-4AD2-4A95-8221-E5490433EB06Q47418139-8998A354-F416-45A9-B914-5A7CDBCE1027Q48119346-F3D61F45-1374-4558-8ECB-1B9F56CC378F
P2860
Real-time observation of listeria monocytogenes-phagocyte interactions in living zebrafish larvae.
description
2009 nî lūn-bûn
@nan
2009 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
name
Real-time observation of liste ...... ns in living zebrafish larvae.
@ast
Real-time observation of liste ...... ns in living zebrafish larvae.
@en
type
label
Real-time observation of liste ...... ns in living zebrafish larvae.
@ast
Real-time observation of liste ...... ns in living zebrafish larvae.
@en
prefLabel
Real-time observation of liste ...... ns in living zebrafish larvae.
@ast
Real-time observation of liste ...... ns in living zebrafish larvae.
@en
P2093
P2860
P50
P356
P1476
Real-time observation of liste ...... ns in living zebrafish larvae.
@en
P2093
Isabelle Bonne
Karima Kissa
Olivier Disson
Philippe Herbomel
P2860
P304
P356
10.1128/IAI.00408-09
P407
P577
2009-06-22T00:00:00Z