Sodium and potassium transporting protein observed in yeast cells through a fluorescence microscope. Green fluorescence corresponds to the protein localized in the cell plasma membrane; red fluorescence visualizes membranes of vacuoles.
We study the proteins transporting compounds and signals across the cell membranes. These proteins, called transporters, assure the uptake of nutrients into the cells, efflux of waste compounds from cells and communication with the environment. To study the animal and plant transporters, we mainly use a model eukaryotic microorganism – yeasts. Our research is focused mainly on:
- Structure, function and regulation of cell transport systems at protein molecule level.
- Role of transporters in specific cell properties and in diseases.
- Role of transporters in Candida virulence and pathogenicity.
- Development of new techniques to estimate cell physiological parameters.
Projects
The intracellular concentration of potassium and sodium cations, as well as of protons, is strictly regulated via the activity of a series of membrane proteins that mediate the flux of cations and protons with various transport mechanisms. Incorrect functioning of some transporters results in serious disorders and diseases. We study in detail the roles of individual transporters and the impact of their activity on cell fitness.
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Some of the transporters existing in the membranes of pathogenic Candida species differ by its structure and activity from those of the host organism. These transporters thus may serve as targets for the development of new antifungal drugs that will affect yeast cells but not cells of the host.
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Some yeast species survive extreme changes in the environmental pH, temperature or osmotic pressure. We aim to identify and characterize specific transporters whose activity contributes to the ability to survive adverse environmental conditions. Acquired knowledge will help to improve the properties of yeast species used in industrial processes.
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Achievements
Our laboratory is already for many years involved in project Otevřená věda organised by Czech Academy of Sciences. The mission of this successful project is to lure enthusiastic students from secondary schools and show them how amusing the science can be.
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One of our latest papers characterizes a novel type of yeast transporters that we have named Vhc1.
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Klara Richterova is the author of award-winning poster at 6th Czech-Swiss symposium BioTech 2014. The work with name „Heterologous expression of three laccases from different source of origin in yeast Saccharomyces cerevisiae and their use for environmental application.“ was born in collaboration with Institute of Organic Chemistry and Biochemistry AS CR. Congratulation!
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Publications
Masaryk; Jakub - Sychrová; Hana
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Yeast Trk1 Potassium Transporter Gradually Changes Its Affinity in Response to Both External and Internal Signals
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Journal of Fungi. 2022; 8(5)); 432
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IF = 5.724
[ASEP]
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doi
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Mane; S. - Pathan; E. - Tupe; S. - Deshmukh; S. - Kale; Deepika - Ghormade; V. - Chaudhari; B. - Deshpande; M.
Isolation and Characterization of Chitosans from Different Fungi with Special Emphasis on Zygomycetous Dimorphic Fungus Benjaminiella poitrasii: Evaluation of Its Chitosan Nanoparticles for the Inhibition of Human Pathogenic Fungi
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Biomacromolecules. 2022; 23(3); 808-815
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IF = 6.978
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doi
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Zimmermannová; Olga - Felcmanová; Kristina - Sácká; Lenka - Colinet; A. S. - Morsomme; P. - Sychrová; Hana
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K+-specific importers Trk1 and Trk2 play different roles in Ca2+ homeostasis and signalling in Saccharomyces cerevisiae cells
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FEMS Yeast Research. 2021; 21(3)); foab015
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IF = 2.923
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doi
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Ruiz-Castilla; F. J. - Bieber; Jan - Caro; G. - Michán; C. - Sychrová; Hana - Ramos; J.
Regulation and activity of CaTrk1; CaAcu1 and CaHak1; the three plasma membrane potassium transporters in Candida albicans
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Biochimica Et Biophysica Acta-Biomembranes. 2021; 1863(1)); 183486
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IF = 4.019
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doi
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Papoušková; Klára - Moravcová; Michaela - Masrati; G. - Ben-Tal; N. - Sychrová; Hana - Zimmermannová; Olga
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C5 conserved region of hydrophilic C-terminal part of Saccharomyces cerevisiae Nha1 antiporter determines its requirement of Erv14 COPII cargo receptor for plasma-membrane targeting
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Molecular Microbiology. 2021; 115(1); 41-57
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IF = 3.979
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doi
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