Regulation of cell size in response to nutrient availability by fatty acid biosynthesis in Escherichia coli.

Zhizhong Yao, Rebecca M Davis, Roy Kishony, Daniel Kahne, Natividad Ruiz

Proceedings of the National Academy of Sciences of the United States of America 2012 Sep 18

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Cell size varies greatly among different types of cells, but the range in size that a specific cell type can reach is limited. A long-standing question in biology is how cells control their size. Escherichia coli adjusts size and growth rate according to the availability of nutrients so that it grows larger and faster in nutrient-rich media than in nutrient-poor media. Here, we describe how, using classical genetics, we have isolated a remarkably small E. coli mutant that has undergone a 70% reduction in cell volume with respect to wild type. This mutant lacks FabH, an enzyme involved in fatty acid biosynthesis that previously was thought to be essential for the viability of E. coli. We demonstrate that although FabH is not essential in wild-type E. coli, it is essential in cells that are defective in the production of the small-molecule and global regulator ppGpp. Furthermore, we have found that the loss of FabH causes a reduction in the rate of envelope growth and renders cells unable to regulate cell size properly in response to nutrient excess. Therefore we propose a model in which fatty acid biosynthesis plays a central role in regulating the size of E. coli cells in response to nutrient availability.

Citation

Zhizhong Yao, Rebecca M Davis, Roy Kishony, Daniel Kahne, Natividad Ruiz. Regulation of cell size in response to nutrient availability by fatty acid biosynthesis in Escherichia coli. Proceedings of the National Academy of Sciences of the United States of America. 2012 Sep 18;109(38):E2561-8