Dresden 2009 – scientific programme

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BP: Fachverband Biologische Physik

BP 17: Poster II

BP 17.24: Poster

Wednesday, March 25, 2009, 17:15–19:45, P3

Phenotype Decision in B. subtilis: Low Number Fluctuations Enhanced by Non-linear Dynamics — •Jan-Timm Kuhr^1,3, Madeleine Leisner^2,3, Joachim O. Rädler³, Berenike Maier^2,3, and Erwin Frey^1,3 — ¹Arnold Sommerfeld Center for Theoretical Physics (ASC) and Center for NanoScience (CeNS), LMU, Germany — ²Institut für Allgemeine Zoologie und Genetik, Westfälische Wilhelms Universität, Germany — ³Department für Physik, Ludwig-Maximilians-Universität München, Germany

Clonal populations of the bacterium B. subtilis exhibit a variety of phenotypes, depending on the environment. If starved 15-20% of all cells become “competent”, gaining the ability to incorporate external DNA into their genome. Competent individuals can adapt quicker to stress conditions than the residual population. Whether to become competent or not is decided on the single cell level.

To elucidate switching to competence we performed single cell experiments and set up a theoretical model incorporating non-linear feedback dynamics and low number fluctuations. Identifying the master regulator protein comK and its corresponding mRNA as the main players, we can describe switching by an effective two-species system: switching is induced by fluctuations and subsequent relaxation to one of two stable fixed points. Deterministic switching, as encountered in mutant strains, is easily explained by disappearance of one fixed point.

Using well-motivated rate constants we quantitatively reproduce our experimental results and give an intuitive picture of stochastic single cell phenotype decision.