Goa1p of Candida albicans localizes to the mitochondria during stress and is required for mitochondrial function and virulence.
about
System-level impact of mitochondria on fungal virulence: to metabolism and beyondOma1 Links Mitochondrial Protein Quality Control and TOR Signaling To Modulate Physiological Plasticity and Cellular Stress Responses.A vanillin derivative causes mitochondrial dysfunction and triggers oxidative stress in Cryptococcus neoformansThe Candida albicans Histone Acetyltransferase Hat1 Regulates Stress Resistance and Virulence via Distinct Chromatin Assembly Pathways'Division of labour' in response to host oxidative burst drives a fatal Cryptococcus gattii outbreak.Mitochondrial complex I bridges a connection between regulation of carbon flexibility and gastrointestinal commensalism in the human fungal pathogen Candida albicansA novel bZIP protein, Gsb1, is required for oxidative stress response, mating, and virulence in the human pathogen Cryptococcus neoformans.Mitochondrial two-component signaling systems in Candida albicans.Azole susceptibility and transcriptome profiling in Candida albicans mitochondrial electron transport chain complex I mutants.Multidrug-resistant transporter mdr1p-mediated uptake of a novel antifungal compoundMolecular mechanisms of action of herbal antifungal alkaloid berberine, in Candida albicans.Protein phosphatase Pph3 and its regulatory subunit Psy2 regulate Rad53 dephosphorylation and cell morphogenesis during recovery from DNA damage in Candida albicans.Contribution of Fdh3 and Glr1 to Glutathione Redox State, Stress Adaptation and Virulence in Candida albicansThe transcriptome of Candida albicans mitochondria and the evolution of organellar transcription units in yeastsMitochondrial sorting and assembly machinery subunit Sam37 in Candida albicans: insight into the roles of mitochondria in fitness, cell wall integrity, and virulenceCell Wall N-Linked Mannoprotein Biosynthesis Requires Goa1p, a Putative Regulator of Mitochondrial Complex I in Candida albicansMoDnm1 Dynamin Mediating Peroxisomal and Mitochondrial Fission in Complex with MoFis1 and MoMdv1 Is Important for Development of Functional Appressorium in Magnaporthe oryzae.Fungal-specific subunits of the Candida albicans mitochondrial complex I drive diverse cell functions including cell wall synthesisCandida albicans biofilms do not trigger reactive oxygen species and evade neutrophil killing.Functional diversity of complex I subunits in Candida albicans mitochondria.The Rbf1, Hfl1 and Dbp4 of Candida albicans regulate common as well as transcription factor-specific mitochondrial and other cell activitiesMitochondrial Complex V α Subunit Is Critical for Candida albicans Pathogenicity through Modulating Multiple Virulence Properties.Mitochondria and fungal pathogenesis: drug tolerance, virulence, and potential for antifungal therapy.Sfp1 and Rtg3 reciprocally modulate carbon source-conditional stress adaptation in the pathogenic yeast Candida albicansExploiting mitochondria as targets for the development of new antifungals.Cell surface changes in the Candida albicans mitochondrial mutant goa1Δ are associated with reduced recognition by innate immune cells.Candida species Rewired Hyphae Developmental Programs for Chlamydospore Formation.Mitochondria influence CDR1 efflux pump activity, Hog1-mediated oxidative stress pathway, iron homeostasis, and ergosterol levels in Candida albicans.Enzymatic dysfunction of mitochondrial complex I of the Candida albicans goa1 mutant is associated with increased reactive oxidants and cell death.Amino acid-derived 1,2-benzisothiazolinone derivatives as novel small-molecule antifungal inhibitors: identification of potential genetic targets.Ydj1 governs fungal morphogenesis and stress response, and facilitates mitochondrial protein import via Mas1 and Mas2.Host species and pathogenicity effects in the evolution of the mitochondrial genomes of Eimeria species (Apicomplexa; Coccidia; Eimeriidae).Exploring and Exploiting the Connection between Mitochondria and the Virulence of Human Pathogenic Fungi.Identification and Characterization of Key Charged Residues in the Cofilin Protein Involved in Azole Susceptibility, Apoptosis, and Virulence of Aspergillus fumigatus.Evidence for Mitochondrial Genome Methylation in the Yeast Candida albicans: A Potential Novel Epigenetic Mechanism Affecting Adaptation and Pathogenicity?Use of Haploid Model of Candida albicans to Uncover Mechanism of Action of a Novel Antifungal Agent.The F1Fo-ATP Synthase β Subunit Is Required for Candida albicans Pathogenicity Due to Its Role in Carbon Flexibility.Hypoxia Promotes Immune Evasion by Triggering β-Glucan Masking on the Candida albicans Cell Surface via Mitochondrial and cAMP-Protein Kinase A SignalingFungicidal action of geraniol against Candida albicans is potentiated by abrogated CaCdr1p drug efflux and fluconazole synergism
P2860
Q26996390-A72FE516-7BF8-4752-9B76-EE02D5343E7BQ27936052-08E3CAF9-1872-417A-8243-51176F33E956Q28539994-D5A58F53-7B1C-4232-8382-C30DF0E9072CQ28550375-EF41F7D1-98BB-4A9F-B535-12420C61FE0BQ30596156-F831065D-1EB2-42D4-AD03-88261044E221Q33793655-D49678AF-D55A-43D6-BBF0-DDFC583E549EQ33826387-90F922E6-C1A5-44E7-B2E0-532035A4BBE4Q34339161-B1BE7BE8-26DC-470D-92D8-B3245DFBE9BCQ34475368-4CE05DB1-F37D-43AA-9729-1C9E6476DF10Q34991073-FA6D740B-A854-4F6C-9DA8-F41BBD09733AQ35221728-C3ABDEF9-D46E-44FE-B632-A82BF6C288EFQ35530396-C4BCAD33-D381-4DFA-A0E9-CF25295EF5FCQ35651454-69083FA6-ED28-4594-9DF9-E97E467A329FQ35815418-DD9990A3-25F2-4044-80C0-54B77B4C3AC9Q35867270-5DEACB36-238C-428F-A968-D914B41F950EQ35904054-1817D8E3-D1ED-4BC5-B739-82257097AC96Q36111262-587CA19E-662F-4AC7-9DFD-0BEBCD798C6FQ36368380-251A3B9B-746A-4901-A011-33A182BCAF94Q36412239-79EB3E56-EF35-4777-9BD7-F85A9BE42A6FQ36495215-A003B20E-13AC-420B-AB48-5851025061F1Q37522581-87849582-ACFC-4CBC-9228-5D6AAC04BF51Q37661624-5BA03D85-B25D-48E6-AA5D-5A782A3F85DFQ37934279-ACDB56A2-F772-4BB2-A754-AD7EEC86B081Q38748830-F5E6AF03-D53D-4161-A493-6B95A9E60967Q38837358-B64EE2E2-17BF-44F3-919F-F15364A390BFQ39181204-0EE68B90-73B3-465C-9078-200FE37A229DQ41586651-A9F68E97-BAFE-4A3B-A537-00D14AA816FFQ41789295-4D9A34E0-E3E5-488A-BBD8-33262B46B530Q42259358-CCC78F83-85DF-4B58-B41F-FF06D5D6D547Q42281238-F619C3A9-F934-4FCA-908D-851DCF10BED9Q42624195-E5CC88EE-AB82-4100-BACD-0DD0370FC951Q47156023-A4BA6E3E-3300-47DD-9DF2-5162E7A7E7A2Q47772041-D6843458-29D3-429A-BE76-AE203EB176DDQ52684508-5D1AEE2C-CAFD-4208-835D-B39C580AA7DEQ55108557-2982758E-4DFA-4D47-876A-C4FA29A1053EQ55332102-2F77F34C-B37A-4B27-B78C-8A3E2AB1EB61Q55399399-9EB6E48B-0396-4A5E-B144-312CE8938C30Q58607987-AB76332B-EEDB-49A8-A39A-501999530E98Q58695993-D3ABFB00-3BE3-4BC9-B667-ECE134DC3EBD
P2860
Goa1p of Candida albicans localizes to the mitochondria during stress and is required for mitochondrial function and virulence.
description
2009 nî lūn-bûn
@nan
2009 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@ast
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@en
type
label
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@ast
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@en
prefLabel
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@ast
Goa1p of Candida albicans loca ...... ndrial function and virulence.
@en
P2093
P2860
P356
P1433
P1476
Goa1p of Candida albicans loca ...... ondrial function and virulence
@en
P2093
Adrienne Bambach
Anibal E Vercesi
Anup Ghosh
Deepu Alex
Dongmei Li
Michael Kruppa
Neeraj Chauhan
Orlando A Agrellos
Richard Calderone
P2860
P304
P356
10.1128/EC.00066-09
P577
2009-08-28T00:00:00Z