K+ Starvation in Saccharomyces cerevisiae

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Gene interaction networks and models of cation homeostasis in Saccharomyces cerevisiae

Multi experimental approach to define the gene expression remodelling under potassium starvation conditions.

How does the Volume, internal pH, membrane potential and intracellular cation content change in a time dependent scale during potassium limitation.

How do the fluxes of rubidium (potassium) change during potassium starvation.

What is the proteome of starved cells. Main characteristics?

Are there one or several stationary states for physiological parameters dependent on external KCl? For which range of external potassium the cell is able to maintain a constant pH, potassium content, membrane potential and volume?

Cells are starved. Potassium and subsequently glucose are added to the medium. Proton and potassium fluxes across the plasma membrane are recorded before and after these events for WT and mutants lacking specific transporter proteins.

Is cell volume affected by potassium starvation?

The volume reduction as a response to the shift of cells from a medium of high potassium to potassium free medium will be studied in mutants lacking certain membrane transporters like Trk1,2 Nha1, etc. The conditions for the experiments follow Navarrete et al. (2010). Additionally knockouts of related regulation proteins (SAP155, SAP185) will be tested. For each mutant several time points will be measured to generate time courses.

Time courses of the internal pH changes under the conditions of Navarrete et al. (2010) will be obtained. The usage of different mutants (transport systems and regulation factors) will reveal the influence and key systems of pH regulation.

To estimate the changes of internal pH, the pH-dependent variant of GFP pHluorin is expressed in cells from a multicopy plasmid, and the changes in cell fluorescence are monitored during 5 hours of incubation in YNB-F growth media without added potassium.

How does internal potassium changes (decreases) during several hours of potassium starvation. Is there a limit for internal potassium decrease? Sampling potassium content in cells during starvation The relative membrane potential will be measured according to the conditions of Navarrete et al. (2010). Various mutants will be tested for their effect. To estimate the relative changes of plasma-membrane potential, the diSC3(3) fluorescent probe was used and the changes in cell fluorescence monitored ...

Determination of protein content at several times.

The potassium content measurements of Navarrete et al. (2010) are the basis for potassium content analysis in various mutants (Nha1, Trk1, Trk2).

External concentration changes under the conditions of Navarrete et al. (2010) will be estimated from the internal concentration changes and the volume ratio of cell sample to medium.

External pH changes for the conditions of Navarrete et al. (2010) will be estimated from the internal pH changes and the volume ratio of cell sample to medium.

The potassium fluxes will be estimated from the internal and external concentration changes.

How potassium starvation regulates the parameters of rubidium (potassium) transport. Analysis of transport characteristics during the starvation process. Kinetic characteristics of rubidium transport.

Related to the internal pH changes the proton efflux will be estimated from the internal and external concentration changes.

Based on Hess et al. (2006) ammonium is suspected to be transported via Trk1,2 under potassium shortage. The ammonium concentration in the medium will be determined for several time points under the conditions of Navarrete et al. (2010).

Is it possible to see changes in the proteome after starvation in 2D- Gels? Preparation of 2D Gels of cells incubated different periods of time in the absence of potassium.

What are the main proteins identified? Spots sampling and identification by MS

The potassium content of cells grown overnight in a certain amount (0.1, 0.2, 0.5, 1, 5, 20, 50, 200 mM) of KCl will be determined. Additionally the potassium content of cells grown overnight in high potassium and shifted to the amounts of potassium used in the former experiment. After growing overnight again in the lower potassium, the cells should contain finally a comparable potassium concentration than the cells grown in the respecting KCl in the first experiment.

The pH of cells grown overnight in a certain concentration of KCl will be determined, to reveal a functional relationship between external KCl and a stable pH. See also "2D-Gel Electrophoresis" Assay for further details.

The membrane potential of cells grown overnight in a certain concentration of KCl will be determined, to reveal a relation between external KCl and a possibly stable membrane potential. See also "2D-Gel Electrophoresis " Assay for further details.