The facultative intracellular pathogen Candida glabrata subverts macrophage cytokine production and phagolysosome maturation.
about
Two unlike cousins: Candida albicans and C. glabrata infection strategiesFungal allergy in asthma-state of the art and research needsCandida glabrata: new tools and technologies-expanding the toolkitLocal and regional chromatin silencing in Candida glabrata: consequences for adhesion and the response to stressTipping the balance both ways: drug resistance and virulence in Candida glabrataThe potential impact of antifungal drug resistance mechanisms on the host immune response to CandidaProtection of Candida parapsilosis from neutrophil killing through internalization by human endothelial cellsOne small step for a yeast--microevolution within macrophages renders Candida glabrata hypervirulent due to a single point mutationModulation of phagosomal pH by Candida albicans promotes hyphal morphogenesis and requires Stp2p, a regulator of amino acid transportIdentification of Candida glabrata genes involved in pH modulation and modification of the phagosomal environment in macrophagesAnti-Immune Strategies of Pathogenic FungiSystematic phenotyping of a large-scale Candida glabrata deletion collection reveals novel antifungal tolerance genesHuman endothelial cells internalize Candida parapsilosis via N-WASP-mediated endocytosisRab14 regulates maturation of macrophage phagosomes containing the fungal pathogen Candida albicans and outcome of the host-pathogen interactionEstablishment of an in vitro system to study intracellular behavior of Candida glabrata in human THP-1 macrophagesSecreted Candida parapsilosis lipase modulates the immune response of primary human macrophages.Local silencing controls the oxidative stress response and the multidrug resistance in Candida glabrata.Mechanisms of microbial escape from phagocyte killing.Functional genomic analysis of Candida glabrata-macrophage interaction: role of chromatin remodeling in virulence.Analysis of the secretomes of Paracoccidioides mycelia and yeast cells.Metabolism in fungal pathogenesis.Candida albicans hypha formation and mannan masking of β-glucan inhibit macrophage phagosome maturationDefining the transcriptomic landscape of Candida glabrata by RNA-Seq.Fungal Pathogens: Survival and Replication within MacrophagesInnate inflammatory response and immunopharmacologic activity of micafungin, caspofungin, and voriconazole against wild-type and FKS mutant Candida glabrata isolates.Fungal KATs/KDACs: A New Highway to Better Antifungal Drugs?Collapse of the Microbiome, Emergence of the Pathobiome, and the Immunopathology of Sepsis.ALL2, a Homologue of ALL1, Has a Distinct Role in Regulating pH Homeostasis in the Pathogen Cryptococcus neoformans.Gain-of-function mutations in PDR1, a regulator of antifungal drug resistance in Candida glabrata, control adherence to host cells.A Network of Paralogous Stress Response Transcription Factors in the Human Pathogen Candida glabrataIL-27 Induced by Select Candida spp. via TLR7/NOD2 Signaling and IFN-β Production Inhibits Fungal Clearance.Fungal Dysbiosis in Mucosa-associated Microbiota of Crohn's Disease Patients.Lectin-Glycan Interaction Network-Based Identification of Host Receptors of Microbial Pathogenic AdhesinsA novel renal epithelial cell in vitro assay to assess Candida albicans virulenceRole of Dectin-2 for host defense against systemic infection with Candida glabrata.Stress response in Candida glabrata: pieces of a fragmented picture.Fungal pathogens-a sweet and sour treat for toll-like receptorsThriving within the host: Candida spp. interactions with phagocytic cells.Candida glabrata: a deadly companion?Intracellular survival of Candida glabrata in macrophages: immune evasion and persistence.
P2860
Q21999041-C4D2F091-8AF2-491D-AEC4-3ED3E77A87D2Q22001138-9EA2C835-CBDD-428B-A08E-B69F5B0E8DE6Q26800080-5DE46AF9-1B11-446A-B6DB-B3387BF505DEQ26864043-2314020B-4A08-47E7-A79E-EA37C5A47062Q26996199-2922B0AE-45B1-4C27-95F0-0F086DA30679Q27026751-9BD91669-1E7D-4C8C-91E3-75AF2D807FC3Q27311102-5F015531-F4A4-4A2C-96B8-6CAD255392C9Q27322886-435F23DF-EDFF-4FFC-8BF5-63DFE9F81942Q27329992-13ADD185-E7EE-4C03-86B2-0310ADB89282Q27335258-CE682907-390D-4E60-8AE6-45DEF15B86B4Q28071716-C8E9ACCB-AD07-47D6-A3D4-580F5CCB8CDDQ28539874-C255CA8E-6FD0-4774-85F1-A9D62E4AC673Q30541724-D9A42820-D45C-4162-BECD-E7BDA551A4ADQ30628883-D083F5A3-1787-48BE-A0BE-44C624F17D15Q33720389-22B7CD8A-CC8B-46FA-A765-8021519254C5Q33779121-A7941A90-39AE-4279-ACA4-D523C6A9C35AQ34036604-DB9DEEA5-2439-4F4D-AB8F-8495C4373175Q34334191-CE0CB09C-D895-4B50-9C84-37A0A0B1F629Q34390528-165DDCB3-5C7A-45AC-97F3-24AE1405019CQ34526160-C6F6318C-3D54-47BF-8CCE-E3A3B7E008A0Q34930405-14A8E3EE-6729-4F9C-9E5B-A8F8E9537215Q35072121-CBAEDECC-9EE3-470B-B1E8-1149CDE2AB4DQ35088957-389934F0-F48F-425D-B41C-73B5B455772AQ35795556-4AC33E87-AEF2-4776-9156-62E91E54C76EQ35960887-CAC7C2EE-008B-408D-8D5A-407CAA9077E5Q36188969-C555BB43-2770-4C1A-8ABC-BE568BA5833DQ36252387-7D492735-7618-485C-BE25-1F9070A9A076Q36513491-023AD19B-37B3-471E-A546-FF1FE627B458Q36827007-22AB2913-43E8-4F75-B329-C26119C77112Q36882825-3F02731B-A344-4EE2-B675-AE9751D448A2Q37015050-87395870-2618-4009-9213-EBAD64AFBAF3Q37118457-2CDEC1B8-B20C-43D7-BCEC-EC73E3E9F117Q37120236-39B6FD16-8771-49A6-9485-7B20912D3FDDQ37641496-7F3D4C64-F861-4B65-B45F-30600041173DQ37643830-F743A512-7358-4E85-94E6-0D536CC15ACFQ37961910-1E28EAAC-F842-43E4-841A-DF84F66A0A7FQ38063202-41AD6C79-6753-4D0D-9B2B-ED382F90BD6BQ38077110-26A00560-7CB9-4D3B-B6FD-1D62E1B18557Q38214878-F5689265-EB26-425C-8CE3-7D124798FF10Q38525376-3633B91E-8E67-4F9E-8569-F56B556445AD
P2860
The facultative intracellular pathogen Candida glabrata subverts macrophage cytokine production and phagolysosome maturation.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
The facultative intracellular ...... and phagolysosome maturation.
@en
The facultative intracellular ...... and phagolysosome maturation.
@nl
type
label
The facultative intracellular ...... and phagolysosome maturation.
@en
The facultative intracellular ...... and phagolysosome maturation.
@nl
prefLabel
The facultative intracellular ...... and phagolysosome maturation.
@en
The facultative intracellular ...... and phagolysosome maturation.
@nl
P2093
P50
P356
P1476
The facultative intracellular ...... and phagolysosome maturation.
@en
P2093
Albert Haas
Dagmar Barz
Katja Seider
Lydia Schild
Martin Schaller
Nadja Jablonowski
Olivia Majer
P304
P356
10.4049/JIMMUNOL.1003730
P407
P577
2011-08-17T00:00:00Z