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Literature DB >> 23771905

Histidine phosphotransfer proteins in fungal two-component signal transduction pathways.

Abstract

The histidine phosphotransfer (HPt) protein Ypd1 is an important participant in the Saccharomyces cerevisiae multistep two-component signal transduction pathway and, unlike the expanded histidine kinase gene family, is encoded by a single gene in nearly all model and pathogenic fungi. Ypd1 is essential for viability in both S. cerevisiae and in Cryptococcus neoformans. These and other aspects of Ypd1 biology, combined with the availability of structural and mutational data in S. cerevisiae, suggest that the essential interactions between Ypd1 and response regulator domains would be a good target for antifungal drug development. The goal of this minireview is to summarize the wealth of data on S. cerevisiae Ypd1 and to consider the potential benefits of conducting related studies in pathogenic fungi.

Entities: Gene Species

Mesh：

Substances：

Year: 2013 PMID： 23771905 PMCID： PMC3754533 DOI： 10.1128/EC.00083-13

Source DB: PubMed Journal: Eukaryot Cell ISSN： 1535-9786

97 in total

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Authors: A Tossi; L Sandri; A Giangaspero
Journal: Biopolymers Date: 2000 Impact factor: 2.505

2. CDART: protein homology by domain architecture.

Authors: Lewis Y Geer; Michael Domrachev; David J Lipman; Stephen H Bryant
Journal: Genome Res Date: 2002-10 Impact factor: 9.043

3. The two-component histidine kinase Fhk1 controls stress adaptation and virulence of Fusarium oxysporum.

Authors: Nicolas Rispail; Antonio Di Pietro
Journal: Mol Plant Pathol Date: 2010-05 Impact factor: 5.663

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Authors: M Tsuzuki; K Ishige; T Mizuno
Journal: Mol Microbiol Date: 1995-12 Impact factor: 3.501

5. Multistep phosphorelay proteins transmit oxidative stress signals to the fission yeast stress-activated protein kinase.

Authors: A N Nguyen; A Lee; W Place; K Shiozaki
Journal: Mol Biol Cell Date: 2000-04 Impact factor: 4.138

6. Characterization of mutations in the two-component histidine kinase gene that confer fludioxonil resistance and osmotic sensitivity in the os-1 mutants of Neurospora crassa.

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Journal: Pest Manag Sci Date: 2001-05 Impact factor: 4.845

7. A fission yeast gene (prr1(+)) that encodes a response regulator implicated in oxidative stress response.

Authors: R Ohmiya; C Kato; H Yamada; H Aiba; T Mizuno
Journal: J Biochem Date: 1999-06 Impact factor: 3.387

8. Kinetic and mechanistic analyses of new classes of inhibitors of two-component signal transduction systems using a coupled assay containing HpkA-DrrA from Thermotoga maritima.

Authors: J Estelle Foster; Qin Sheng; Jonathan R McClain; Mark Bures; Thalia I Nicas; Kenneth Henry; Malcolm E Winkler; Raymond Gilmour
Journal: Microbiology Date: 2004-04 Impact factor: 2.777

9. MUC7 20-Mer: investigation of antimicrobial activity, secondary structure, and possible mechanism of antifungal action.

Authors: Libuse A Bobek; Hongsa Situ
Journal: Antimicrob Agents Chemother Date: 2003-02 Impact factor: 5.191

10. A histidine protein kinase homologue required for regulation of bacterial cell division and differentiation.

Authors: N Ohta; T Lane; E G Ninfa; J M Sommer; A Newton
Journal: Proc Natl Acad Sci U S A Date: 1992-11-01 Impact factor: 11.205

26 in total

1. Global Epitranscriptomics Profiling of RNA Post-Transcriptional Modifications as an Effective Tool for Investigating the Epitranscriptomics of Stress Response.

Authors: Rebecca E Rose; Manuel A Pazos; M Joan Curcio; Daniele Fabris
Journal: Mol Cell Proteomics Date: 2016-01-05 Impact factor: 5.911

2. Phosphoryl Group Flow within the Pseudomonas aeruginosa Pil-Chp Chemosensory System: DIFFERENTIAL FUNCTION OF THE EIGHT PHOSPHOTRANSFERASE AND THREE RECEIVER DOMAINS.

Authors: Ruth E Silversmith; Boya Wang; Nanette B Fulcher; Matthew C Wolfgang; Robert B Bourret
Journal: J Biol Chem Date: 2016-06-27 Impact factor: 5.157

Histidine phosphotransfer proteins in fungal two-component signal transduction pathways.

Review 1. Amphipathic, alpha-helical antimicrobial peptides.

2. CDART: protein homology by domain architecture.

3. The two-component histidine kinase Fhk1 controls stress adaptation and virulence of Fusarium oxysporum.

4. Phosphotransfer circuitry of the putative multi-signal transducer, ArcB, of Escherichia coli: in vitro studies with mutants.

5. Multistep phosphorelay proteins transmit oxidative stress signals to the fission yeast stress-activated protein kinase.

6. Characterization of mutations in the two-component histidine kinase gene that confer fludioxonil resistance and osmotic sensitivity in the os-1 mutants of Neurospora crassa.

7. A fission yeast gene (prr1(+)) that encodes a response regulator implicated in oxidative stress response.

8. Kinetic and mechanistic analyses of new classes of inhibitors of two-component signal transduction systems using a coupled assay containing HpkA-DrrA from Thermotoga maritima.

9. MUC7 20-Mer: investigation of antimicrobial activity, secondary structure, and possible mechanism of antifungal action.

10. A histidine protein kinase homologue required for regulation of bacterial cell division and differentiation.

1. Global Epitranscriptomics Profiling of RNA Post-Transcriptional Modifications as an Effective Tool for Investigating the Epitranscriptomics of Stress Response.

2. Phosphoryl Group Flow within the Pseudomonas aeruginosa Pil-Chp Chemosensory System: DIFFERENTIAL FUNCTION OF THE EIGHT PHOSPHOTRANSFERASE AND THREE RECEIVER DOMAINS.

3. Unraveling the Function of the Response Regulator BcSkn7 in the Stress Signaling Network of Botrytis cinerea.

4. A pseudo-receiver domain in Atg32 is required for mitophagy.

Review 5. The yeasts phosphorelay systems: a comparative view.

6. Two-component histidine phosphotransfer protein Ypd1 is not essential for viability in Candida albicans.

Review 7. Stress signaling pathways for the pathogenicity of Cryptococcus.

8. Imidazole as a Small Molecule Analogue in Two-Component Signal Transduction.

9. Progressive loss of hybrid histidine kinase genes during the evolution of budding yeasts (Saccharomycotina).

10. The phosphorelay signal transduction system in Candida glabrata: an in silico analysis.