Control of mitosis in fission yeast

Background: Fission yeast cells growth up to a given size and then enters mitosis. The question this project addresses is how does the cell knows it has reached to right size for division. This is achieved by a gradient of the pom1 protein along the cortex.

Biological aspects: Pom1 is a protein which forms a cortical intracellular gradient that permits to control the entry of mitosis of the fission yeast, S. Pombe. The fact is that interaction of Pom1 with Cdr2 induces a cell cycle delay following to a gene activation cascade. Microtubules recruits proteins Pom1 parts of the membrane and bind to the cell poles. Then Pom1 will migrate along the membrane. They undergo five autophosphorylation cycles, which increases the probability of detachment of them. When the cells are large enough, the quantity at the equator of Pom1 attached to the membrane is not sufficient to inhibits mitosis and thus Cdr2.

Goal: The goal is to mathematically describe the mechanism by which such a gradient is achieved using differential equation and analyze such gradients from fluorescence microscopy images.

Mathematical tools: Ordinary differential equations, Mathematica, Matlab

Supervisor: Sascha Dalessi

Students: Degrugillier Lucas, Delapierre Fabien, Merçay Johan.

Presentations:

References: <biblio>

1. hachet10 pmid=21703453
2. Martin SG, Berthelot-Grosjean M. Polar gradients of the DYRK-family kinase Pom1 couple cell length with the cell cycle. Nature. 2009 Jun 11;459(7248):852-6. Epub 2009 May 27. pmid:19474792. PubMed
3. Wartlick O, Kicheva A, González-Gaitán M. Morphogen gradient formation. Cold Spring Harb Perspect Biol. 2009 Sep;1(3):a001255. pmid:20066104 PubMed

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