Studies

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?

How does the current mediated by Trk1,2 depend on external and internal ion concentrations? How is the membrane potential shifted by the concentrations of various ions, especially ammonium?

Does the general proteome of yeast cells change in a strain lacking Trk1,2 transporter? Under which conditions?

Studies on the effect of deletion of genes encoding 14-3-3 proteins on the transcriptional response of yeast cells to potassium starvation.

Studies on genetic interactions between genes encoding 14-3-3 proteins and genes encoding transporters to elucidate which transporter(s) are regulated by 14-3-3 proteins.

Bioinformatic studies to elucidate the role of 14-3-3 proteins in cation homeostasis.

How does the flux of potassium, hydrogen change during potassium uptake? Which ions are involved in maintaining the required charge balance?

How does the transport of potassium and hydrogen ions effect the concentrations in the near surrounding of the cell.

How does the current mediated by Trk1,2 depend on external and internal ion concentrations? How is the membrane potential shifted by the concentrations of various ions, especially ammonium?

At external potassium concentrations in the range of 10uM to 1mM Trk is major cellular uptake system for potassium. This system responds to the activiy of the proton pump. Transmembrane fluxes of protons and potassium cations are analysed in a signal-response relationship.

To model the ENA1 transcriptional regulation a model has to be established. First this will be just a graphical representation, it shall then be extended to a boolean model and shall at one point be converted to a kinetic model.