Efg1p, an essential regulator of morphogenesis of the human pathogen Candida albicans, is a member of a conserved class of bHLH proteins regulating morphogenetic processes in fungi.
about
Genetic and phenotypic intra-species variation in Candida albicansRegulation of gene expression by ambient pH in filamentous fungi and yeastsControl of white-opaque phenotypic switching in Candida albicans by the Efg1p morphogenetic regulatorEFG1 null mutants of Candida albicans switch but cannot express the complete phenotype of white-phase budding cellsTranscriptional response of Candida albicans upon internalization by macrophagesTranscription factors Mat2 and Znf2 operate cellular circuits orchestrating opposite- and same-sex mating in Cryptococcus neoformansRegulators of pseudohyphal differentiation in Saccharomyces cerevisiae identified through multicopy suppressor analysis in ammonium permease mutant strainsSok2 regulates yeast pseudohyphal differentiation via a transcription factor cascade that regulates cell-cell adhesionRegulatory roles of phosphorylation in model and pathogenic fungiDetermination of mRNA half-lives in Candida albicans using thiolutin as a transcription inhibitorChlamydospore formation in Candida albicans and Candida dubliniensis--an enigmatic developmental programmeA potential phosphorylation site for an A-type kinase in the Efg1 regulator protein contributes to hyphal morphogenesis of Candida albicansDevelopment of Saccharomyces cerevisiae as a model pathogen. A system for the genetic identification of gene products required for survival in the mammalian host environmentThe Set3/Hos2 histone deacetylase complex attenuates cAMP/PKA signaling to regulate morphogenesis and virulence of Candida albicansThe protein kinase Tor1 regulates adhesin gene expression in Candida albicansSmall molecule inhibitors of the Candida albicans budded-to-hyphal transition act through multiple signaling pathwaysMicroevolution of Candida albicans in macrophages restores filamentation in a nonfilamentous mutantActivation and alliance of regulatory pathways in C. albicans during mammalian infectionMitochondrial Activity and Cyr1 Are Key Regulators of Ras1 Activation of C. albicans Virulence PathwaysPhenotypic Profiling Reveals that Candida albicans Opaque Cells Represent a Metabolically Specialized Cell State Compared to Default White CellsCdc24, the GDP-GTP exchange factor for Cdc42, is required for invasive hyphal growth of Candida albicans.Infection structure-specific expression of β-1,3-glucan synthase is essential for pathogenicity of Colletotrichum graminicola and evasion of β-glucan-triggered immunity in maize.Developmental regulation of an adhesin gene during cellular morphogenesis in the fungal pathogen Candida albicans.Pho4 mediates phosphate acquisition in Candida albicans and is vital for stress resistance and metal homeostasisEAP1, a Candida albicans gene involved in binding human epithelial cells.A physical map of chromosome 7 of Candida albicansIsolation and characterization of EPD1, an essential gene for pseudohyphal growth of a dimorphic yeast, Candida maltosa.FoSTUA, encoding a basic helix-loop-helix protein, differentially regulates development of three kinds of asexual spores, macroconidia, microconidia, and chlamydospores, in the fungal plant pathogen Fusarium oxysporum.Self-regulation of Candida albicans population size during GI colonization.Candida and invasive candidiasis: back to basics.the hyphal-associated adhesin and invasin Als3 of Candida albicans mediates iron acquisition from host ferritinDeletion of Candida albicans SPT6 is not lethal but results in defective hyphal growth.A 5' UTR-mediated translational efficiency mechanism inhibits the Candida albicans morphological transition.Lack of consistent short sequence repeat polymorphisms in genetically homologous colonizing and invasive Candida albicans strainsThe G protein-coupled receptor Gpr1 and the Galpha protein Gpa2 act through the cAMP-protein kinase A pathway to induce morphogenesis in Candida albicans.Roles of the Candida albicans mitogen-activated protein kinase homolog, Cek1p, in hyphal development and systemic candidiasisRegulation of the Cdc42/Cdc24 GTPase module during Candida albicans hyphal growth.Molecular genetic techniques for gene manipulation in Candida albicans.Role for the SCFCDC4 ubiquitin ligase in Candida albicans morphogenesisStrains and strategies for large-scale gene deletion studies of the diploid human fungal pathogen Candida albicans
P2860
Q21999063-27E8439C-B942-4989-9455-538F92269A92Q24533246-2A1657C2-B21A-44A6-AF10-03E77600EBC2Q24548815-0B4FF7DB-CCC1-4E32-966D-76D1815D6F1BQ24548979-ABB101C0-9978-4B41-B43E-08E24264F1DDQ24563309-D9F98E67-9778-4F55-8D68-9D1609BAC0C3Q27347551-7F2C23E2-7626-42CE-8998-98206418CAFEQ27932900-88455A5E-C83C-41A1-BD98-F41FF59C8DC5Q27938487-F3DE6A2E-35F3-442E-9F25-A4B92A17D157Q28087413-7ECC366C-068C-4121-8C5B-323547B18BE0Q28268148-5D5547DF-67F7-4FEE-996E-64DFE4160CE9Q28288387-01C1AE5B-8EC9-4714-9F2D-8F47DCF78B1BQ28362095-8D1A8C58-2976-4E80-91FA-DB41B909506EQ28362118-09BFAD81-8E6E-4E0C-91CD-D5E833BE76B2Q28473928-FA86B686-949E-4488-AEC1-22FB1F243426Q28474672-05308D6F-5B53-45F4-AD4D-98E07B21FB20Q28477230-10AC7B3B-7299-4BEC-BC6D-461DA8DC9A0CQ28542485-9E1B3709-BAD9-41D2-804B-03DCBEEC721BQ28543508-B15394C1-65F2-47BC-B168-11DF86A8D3D6Q28547568-19E14EB6-AA20-4A1C-86E5-060B26E0AD08Q28820771-12AE7B90-7E5E-45F0-AA4A-250FC03812D9Q30164900-2F3054B2-403E-4330-9152-E6C0349E839BQ30317761-FDD8555C-32F9-46D9-AD91-7990E931B71BQ30479432-918E9211-F1BD-437E-B1AE-C50C1F87AB3BQ30806103-6CB7237F-97A7-4045-B421-2BD3BC1D5FCBQ31031903-F3F5AE03-B814-4FC6-A86E-EFFE54DBAF32Q32045024-015E9E11-5F99-40D7-B517-205184A3F01DQ32066793-C164207F-4BB2-42AB-A5D4-03BEA83156BFQ33209770-1D4752DE-D06E-4BC6-9C10-F31711C511B3Q33309459-0F69DACB-E698-404B-89B4-0A0CFE77AD29Q33351140-828A0F30-D54C-4501-814E-B1AE2879639FQ33386007-F6DB3D4E-7477-42B6-AA10-9DB7E4EBAE76Q33522845-AA7EA6CF-4EEA-4FAD-8619-705FAE124A40Q33654175-3625552E-4860-46EC-8774-4793E4502E75Q33734364-001B31B0-AD86-43FF-8051-1110346DA1C7Q33734589-C57B66B9-2825-40BB-9211-14AA3997B6C5Q33754752-7490070A-427B-49F2-A2B1-84F2DCFA611FQ33770569-6DE814BC-1E26-4B1D-8661-80BBE670FDBBQ33779105-64131EE4-E88D-4C35-B683-7478056AFA24Q33841398-ED285AA5-4514-4B2D-95FB-144909782EA8Q33859372-08A7E71B-2A50-4448-8E7A-C12C22C97124
P2860
Efg1p, an essential regulator of morphogenesis of the human pathogen Candida albicans, is a member of a conserved class of bHLH proteins regulating morphogenetic processes in fungi.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@en
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@nl
type
label
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@en
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@nl
prefLabel
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@en
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@nl
P2093
P2860
P356
P1433
P1476
Efg1p, an essential regulator ...... phogenetic processes in fungi.
@en
P2093
P2860
P304
P356
10.1093/EMBOJ/16.8.1982
P407
P577
1997-04-01T00:00:00Z