Abstract
The shaping of individual cells requires a tight coordination of cell mechanics and growth. However, it is unclear how information about the mechanical state of the wall is relayed to the molecular processes building it, thereby enabling the coordination of cell wall expansion and assembly during morphogenesis. Combining theoretical and experimental approaches, we show that a mechanical feedback coordinating cell wall assembly and expansion is essential to sustain mating projection growth in budding yeast (Saccharomyces cerevisiae). Our theoretical results indicate that the mechanical feedback provided by the Cell Wall Integrity pathway, with cell wall stress sensors Wsc1 and Mid2 increasingly activating membrane-localized cell wall synthases Fks1/2 upon faster cell wall expansion, stabilizes mating projection growth without affecting cell shape. Experimental perturbation of the osmotic pressure and cell wall mechanics, as well as compromising the mechanical feedback through genetic deletion of the stress sensors, leads to cellular phenotypes in agreement with the theoretical predictions. Our results show that while the existence of mechanical feedback is essential to stabilize mating projection growth, the shape and size of the cell are insensitive to the feedback.
Highlights
1619-Pos Board B528 A Constitutive Flow Relation for Lymphatic Endothelium Emily A
While prior work suggests that myosin RLC kinase (MLCK) and Rho-associated kinase (ROCK) respectively regulate stress fibers (SFs) located in the cellular center and periphery, it is unclear how these kinases differ in their effects on regulatory light chains (RLCs) phosphorylation state and how each phosphospecies influences the mechanics of central and peripheral SFs
Immunoblots and quantitative immunofluorescence imaging reveal that graded MLCK overexpression preferentially produces graded increases in p-RLC, which localizes to peripheral SFs, while graded ROCK overexpression increases ppRLC, which localizes to central SFs
Summary
1619-Pos Board B528 A Constitutive Flow Relation for Lymphatic Endothelium Emily A. 1615-Pos Board B524 Mechanical Feedback Coordinates Cell Wall Expansion and Assembly in Yeast Mating Morphogenesis Samhita Banavar1, Carlos Gomez2, Michael Trogdon3, Linda Petzold3, Tau Mu Yi2, Otger Campas3. Combining theoretical and experimental approaches, we show that a mechanical feedback coordinating cell wall assembly and expansion is essential to sustain mating projection growth in budding yeast (Saccharomyces cerevisiae).
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