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Cryo-EM structures of CTP synthase filaments reveal mechanism of pH-sensitive assembly during budding yeast starvation

Jesse M Hansen, Avital Horowitz, Eric M Lynch, Daniel P Farrell, Joel Quispe, Frank DiMaio, Justin M Kollman

2021eLife61 citationsDOIOpen Access PDF

Abstract

Many metabolic enzymes self-assemble into micron-scale filaments to organize and regulate metabolism. The appearance of these assemblies often coincides with large metabolic changes as in development, cancer, and stress. Yeast undergo cytoplasmic acidification upon starvation, triggering the assembly of many metabolic enzymes into filaments. However, it is unclear how these filaments assemble at the molecular level and what their role is in the yeast starvation response. CTP Synthase (CTPS) assembles into metabolic filaments across many species. Here, we characterize in vitro polymerization and investigate in vivo consequences of CTPS assembly in yeast. Cryo-EM structures reveal a pH-sensitive assembly mechanism and highly ordered filament bundles that stabilize an inactive state of the enzyme, features unique to yeast CTPS. Disruption of filaments in cells with non-assembly or pH-insensitive mutations decreases growth rate, reflecting the importance of regulated CTPS filament assembly in homeotstasis.

Topics & Concepts

YeastCell biologyProtein filamentBudding yeastCytoplasmChemistrySaccharomyces cerevisiaeIntermediate filamentEnzymeATP synthaseBiochemistryBiologyMechanism (biology)BiophysicsIn vitroPolymerizationMetabolic pathwayCytoskeletonStarvationNucleusBiochemical and Molecular ResearchEnzyme Structure and FunctionProtein Tyrosine Phosphatases
Cryo-EM structures of CTP synthase filaments reveal mechanism of pH-sensitive assembly during budding yeast starvation | Litcius