A sterol-regulatory element binding protein is required for cell polarity, hypoxia adaptation, azole drug resistance, and virulence in Aspergillus fumigatus
about
Pathogenesis of Aspergillus fumigatus in Invasive AspergillosisModulation of Host Angiogenesis as a Microbial Survival Strategy and Therapeutic TargetHost pathogen relations: exploring animal models for fungal pathogensHypoxia and fungal pathogenesis: to air or not to air?Sterol Biosynthesis and Azole Tolerance Is Governed by the Opposing Actions of SrbA and the CCAAT Binding ComplexTranscriptional Control of Drug Resistance, Virulence and Immune System Evasion in Pathogenic Fungi: A Cross-Species ComparisonThe immune interplay between the host and the pathogen in Aspergillus fumigatus lung infectionA Novel Zn2-Cys6 Transcription Factor AtrR Plays a Key Role in an Azole Resistance Mechanism of Aspergillus fumigatus by Co-regulating cyp51A and cdr1B ExpressionsSREBP coordinates iron and ergosterol homeostasis to mediate triazole drug and hypoxia responses in the human fungal pathogen Aspergillus fumigatusIn vivo hypoxia and a fungal alcohol dehydrogenase influence the pathogenesis of invasive pulmonary aspergillosisDiscovery of a HapE mutation that causes azole resistance in Aspergillus fumigatus through whole genome sequencing and sexual crossingZinc finger transcription factors displaced SREBP proteins as the major Sterol regulators during Saccharomycotina evolutionA novel sterol regulatory element-binding protein gene (sreA) identified in penicillium digitatum is required for prochloraz resistance, full virulence and erg11 (cyp51) regulationChIP-seq and in vivo transcriptome analyses of the Aspergillus fumigatus SREBP SrbA reveals a new regulator of the fungal hypoxia response and virulenceAlginate oligosaccharides inhibit fungal cell growth and potentiate the activity of antifungals against Candida and Aspergillus sppCharacterization of the Paracoccidioides Hypoxia Response Reveals New Insights into Pathogenesis Mechanisms of This Important Human Pathogenic FungusMitochondrial Complex I Is a Global Regulator of Secondary Metabolism, Virulence and Azole Sensitivity in FungiSterol Regulatory Element Binding Protein (Srb1) Is Required for Hypoxic Adaptation and Virulence in the Dimorphic Fungus Histoplasma capsulatumTriazole Resistance in Aspergillus Species: An Emerging Problem.Regulation of hypoxia adaptation: an overlooked virulence attribute of pathogenic fungi?Microtubules are reversibly depolymerized in response to changing gaseous microenvironments within Aspergillus nidulans biofilms.Deciphering the Regulatory Network between the SREBP Pathway and Protein Secretion in Neurospora crassa.Aspergillus fumigatus Trehalose-Regulatory Subunit Homolog Moonlights To Mediate Cell Wall Homeostasis through Modulation of Chitin Synthase Activity.Genetic diversity and antifungal susceptibility profiles in causative agents of sporotrichosis.Filamentous fungal carbon catabolite repression supports metabolic plasticity and stress responses essential for disease progression.Functional analysis of two sterol regulatory element binding proteins in Penicillium digitatumSterol regulatory element binding proteins in fungi: hypoxic transcription factors linked to pathogenesisSynergistic regulation of hyphal elongation by hypoxia, CO(2), and nutrient conditions controls the virulence of Candida albicansComparative proteomic profiles of Aspergillus fumigatus and Aspergillus lentulus strains by surface-enhanced laser desorption ionization time-of-flight mass spectrometry (SELDI-TOF-MS)Cryptococcus neoformans Site-2 protease is required for virulence and survival in the presence of azole drugsHacA-independent functions of the ER stress sensor IreA synergize with the canonical UPR to influence virulence traits in Aspergillus fumigatus.Aspergillus fumigatus: contours of an opportunistic human pathogen.Regulatory interactions for iron homeostasis in Aspergillus fumigatus inferred by a Systems Biology approachTranscriptomic and proteomic analyses of the Aspergillus fumigatus hypoxia response using an oxygen-controlled fermenter.Fungal siderophore metabolism with a focus on Aspergillus fumigatus.Regulatory circuitry governing fungal development, drug resistance, and disease.Trehalose 6-phosphate phosphatase is required for cell wall integrity and fungal virulence but not trehalose biosynthesis in the human fungal pathogen Aspergillus fumigatus.Transcriptional and proteomic analysis of the Aspergillus fumigatus ΔprtT protease-deficient mutant.Myeloid derived hypoxia inducible factor 1-alpha is required for protection against pulmonary Aspergillus fumigatus infectionThe two-component sensor kinase TcsC and its role in stress resistance of the human-pathogenic mold Aspergillus fumigatus.
P2860
Q24650911-857D04B0-9ECC-4F6A-BAC6-F7AE9CD27DB9Q26748251-67974C9F-61F9-4CC6-9BE3-CEB68A63A8D3Q26862890-55046D07-616E-4C5D-B210-3E63FD4B33BEQ27023320-E0E5DF11-F2FC-4A26-8F3D-6CD65895A398Q27312432-D96EB8FB-8633-4A59-8ED7-A0D319F2D7FAQ28079641-3C74BFC0-E746-48BC-9FAC-829CCF6E832CQ28387394-8E41BC79-461F-432F-AAE6-C7D5FC903A59Q28468399-AA6DBFDD-0839-49C1-8193-3245034DFD63Q28478226-155FA981-AA4E-499A-874E-5A7FD18E4DFCQ28479237-99F110C2-4AED-4253-9794-EC2558E762A0Q28485433-FBFD182F-F5BF-43FB-A875-F54F3ADDFB0CQ28538769-50DDA5C0-688A-413E-9717-14E202F241E0Q28543563-7D3E2912-A709-446B-BDBC-5AF16C4018A0Q28544794-978F7668-9566-4E97-AAB6-1C5C09E2A9AEQ28545048-EAEAD3DB-7679-4A94-BFDA-3EAFD11D1C92Q28551656-0E3BD3DD-EF64-4452-8AB5-6F011E804F04Q28552733-ACA88634-2094-4945-B656-0914AB6AB236Q28554525-9628E5C3-AA67-4612-BFFB-D8A08F1BCE45Q30235566-E0D3B824-DB88-4D04-9196-2DA2088A53A6Q30377415-668DF18B-CEF4-4F04-9380-E5876AD9E9F4Q30840060-A51CB2A4-852D-4DE9-B12A-37F617C9A50AQ33576037-04E41DD9-6E21-4090-8419-41DFFD32AE5FQ33603815-64671FC7-8944-47B8-9C62-5B28AD676C02Q33611290-9F5E1694-5067-4324-B0BE-5D33B8D2EDACQ33621006-2A524952-763A-4960-887F-8C8ACFA3C529Q33632720-3EBB1B9B-8E6C-4B07-9256-3BF4F028D98BQ33725227-9A0D2628-602B-4F46-9A10-0463CE7E785AQ33727070-8608586F-C783-4AC9-96E2-FDDC2403187FQ33974176-905ECD9E-3C3A-4DE8-B434-1D9DD6E1BA39Q34048162-42B9BA60-BE94-4C75-B3A3-1B56E3527894Q34058167-69216CFD-D3B7-4D5D-BF62-4848E69494D4Q34131696-6F56C410-988A-4F27-8507-D171F307509FQ34133098-BAE620D6-6C62-4641-9DA4-8D169BBB18A0Q34151913-239BA0EB-441D-4EA0-91A4-3C0FBAF6E102Q34172089-F32F6E82-B951-497E-BDFB-F64C8C9BD589Q34190284-69D37394-0FA2-4881-BE4B-C2A0C2327CB8Q34195426-3C51D38E-8369-403F-9B93-3F22B3077360Q34238420-1D10D685-F8FA-419F-A907-F3AFCFDB6249Q34257883-B058B20E-E054-4371-AB43-B547D4EEF584Q34295783-B362EFFE-63BE-4808-B56B-E3744C25D3E6
P2860
A sterol-regulatory element binding protein is required for cell polarity, hypoxia adaptation, azole drug resistance, and virulence in Aspergillus fumigatus
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@ast
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@en
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@nl
type
label
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@ast
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@en
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@nl
prefLabel
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@ast
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@en
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@nl
P2093
P2860
P921
P3181
P1433
P1476
A sterol-regulatory element bi ...... lence in Aspergillus fumigatus
@en
P2093
Christopher B Lawrence
James B Burritt
Kwang-Hyung Kim
Laurel J Metzler
Martin Bard
Nora Grahl
Robert A Cramer
Robert Barbuch
Srisombat Puttikamonkul
P2860
P304
P3181
P356
10.1371/JOURNAL.PPAT.1000200
P407
P577
2008-11-01T00:00:00Z