about
P688
Comparative analysis of programmed cell death pathways in filamentous fungiHsp90 orchestrates stress response signaling governing fungal drug resistanceHsp90 governs dispersion and drug resistance of fungal biofilmsIntegrative analysis of the heat shock response in Aspergillus fumigatus.Molecular cloning of Aspergillus fumigatus allergens and their role in allergic bronchopulmonary aspergillosis.Fungal antigens expressed during invasive aspergillosisAnalysis of major intracellular proteins of Aspergillus fumigatus by MALDI mass spectrometry: identification and characterisation of an elongation factor 1B protein with glutathione transferase activity.What makes Aspergillus fumigatus a successful pathogen? Genes and molecules involved in invasive aspergillosis.Two-dimensional proteome reference maps for the human pathogenic filamentous fungus Aspergillus fumigatus.Exploring temporal transcription regulation structure of Aspergillus fumigatus in heat shock by state space model.Identification of a key lysine residue in heat shock protein 90 required for azole and echinocandin resistance in Aspergillus fumigatus.Regulatory circuitry governing fungal development, drug resistance, and disease.The proteomic signature of Aspergillus fumigatus during early development.Molecular characterization of aspergillus fumigatus allergens.Genes and molecules involved in Aspergillus fumigatus virulence.Development stage-specific proteomic profiling uncovers small, lineage specific proteins most abundant in the Aspergillus Fumigatus conidial proteome.Aspergillus antigens: which are important?Comparative genome analysis between Aspergillus oryzae strains reveals close relationship between sites of mutation localization and regions of highly divergent genes among Aspergillus species.In vitro activity of calcineurin and heat shock protein 90 Inhibitors against Aspergillus fumigatus azole- and echinocandin-resistant strains.Harnessing Hsp90 function as a powerful, broadly effective therapeutic strategy for fungal infectious diseaseTranscriptional activation of heat shock protein 90 mediated via a proximal promoter region as trigger of caspofungin resistance in Aspergillus fumigatusThe host-infecting fungal transcriptome.Hsp90-dependent regulatory circuitry controlling temperature-dependent fungal development and virulence.Heat shock protein 90 is required for conidiation and cell wall integrity in Aspergillus fumigatus.Aspergillus fumigatus allergen expression is coordinately regulated in response to hydrogen peroxide and cyclic AMP.Novel cytosolic allergens of Aspergillus fumigatus identified from germinating conidia.Functional genomic profiling of Aspergillus fumigatus biofilm reveals enhanced production of the mycotoxin gliotoxin.Differential proteomic analysis of Aspergillus fumigatus morphotypes reveals putative drug targets.In vitro and in vivo role of heat shock protein 90 in Amphotericin B resistance of Aspergillus terreus.Serum IgG responses against Aspergillus proteins before hematopoietic stem cell transplantation or chemotherapy identify patients who develop invasive aspergillosis.Genomic analysis of allergen genes in Aspergillus spp: the relevance of genomics to everyday research.Proteome Analysis Reveals the Conidial Surface Protein CcpA Essential for Virulence of the Pathogenic Fungus
P921
Q25255138-9B94A1EB-D332-4CF4-BDF7-8CD9E0634306Q28475988-F683A93A-A276-4175-849A-05F141A0E1FCQ28476836-0ED7B43E-65CD-4EBA-88AB-C6AB95839C8CQ30493084-60713486-7F47-4337-ADC2-5F128A468F0FQ32151176-381E1F37-9EFA-471F-B74F-7C0D04D54916Q33220252-F01C72A0-5716-4DE0-A0F7-77B8C6D3A417Q33232985-0E7D1CAE-1812-4209-8105-5B8AD3FB1F1BQ33349990-B0707C62-868A-4BFB-84C7-73D25326BDC2Q33413884-E5F62493-E105-4E5A-9B79-A85F1C6F6CE4Q33479781-2ABCBF57-C013-448E-89BA-5C4A91CF3710Q33622943-C41B11CD-C762-44E1-B665-FAACE19148BAQ34190284-2E8C8056-CC71-4308-9E74-BA23F68563EDQ35579624-79877689-05C7-4D44-ACFC-90354B3CA7B9Q35983170-47B1A3F5-8DE7-45B1-A2D6-D9BAEC0831A8Q36090676-ECE8FB2F-47A1-4FCC-A640-939579C9E4A0Q36178962-B977DD39-5DF6-4AE9-BE5A-40EF02C7FAD2Q36235144-F1910406-65AD-49CF-A698-515B0621A3C7Q36323668-1164EC26-32D2-49A3-AA19-9CE010909B96Q36558376-06EB3566-3F91-4530-A41B-0149D52E8AD1Q37115266-5EFBC0F2-5FF8-46AA-8C5B-6A14FD954A72Q37443093-C1E6AE33-AC08-4D00-83AC-0CF740F1B4EEQ37765943-62FFE757-CCEB-43DA-A905-21D72206DB84Q38179499-D57E1A11-1E0D-431A-8359-AD22F2E9441AQ41585535-99C76A8D-2D2F-4448-BEC7-00E7E6A893EDQ41704299-4ED8DECE-539A-41CE-A37D-755605474332Q42912397-C7B6C8A7-F9A9-4EFE-A3F3-E7D4F0B0589AQ42964826-D1E6EE44-3FAB-4039-B2E3-D82B97458D63Q45636071-A8F355E0-915C-4750-AD81-ED698CD8EFFFQ46625202-0629E690-6ED1-4446-855B-186F80BC8AE5Q47352386-CB585D0E-2A69-4062-A50E-3FF49BF36955Q48081255-68C64C3E-2485-4444-9B14-6DA710409AB9Q57048245-377C57A7-7BB3-4AB0-98B6-0D9B051CA99E
P921
description
protein
@id
proteïne in Heat shock protein
@nl
protèin
@ace
name
Heat shock protein
@en
Heat shock protein
@nl
type
label
Heat shock protein
@en
Heat shock protein
@nl
altLabel
AFUA_5G04170
@en
CADAFUAG00002754
@en
aspf12
@en
hsp1
@en
mod-E
@en
prefLabel
Heat shock protein
@en
Heat shock protein
@nl
P279
P31
P3382
Afu5g04170-T