Cell Reports (Sep 2020)

Principles of Membrane Adaptation Revealed through Environmentally Induced Bacterial Lipidome Remodeling

  • Grzegorz Chwastek,
  • Michal A. Surma,
  • Sandra Rizk,
  • Daniel Grosser,
  • Oksana Lavrynenko,
  • Magdalena Rucińska,
  • Helena Jambor,
  • James Sáenz

Journal volume & issue
Vol. 32, no. 12
p. 108165

Abstract

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Summary: Cells, from microbes to mammals, adapt their membrane lipid composition in response to environmental changes to maintain optimal properties. Global patterns of lipidome remodeling are poorly understood, particularly in organisms with simple lipid compositions that can provide insight into fundamental principles of membrane adaptation. Using shotgun lipidomics, we examine the simple yet, as we show here, adaptive lipidome of the plant-associated Gram-negative bacterium Methylobacterium extorquens. We observe that minimally 11 lipids account for 90% of total variability, thus constraining the upper limit of variable lipids required for an adaptive living membrane. Through lipid features analysis, we reveal that acyl chain remodeling is not evenly distributed across lipid classes, resulting in headgroup-specific effects of acyl chain variability on membrane properties. Results herein implicate headgroup-specific acyl chain remodeling as a mechanism for fine-tuning the membrane’s physical state and provide a resource for using M. extorquens to explore the design principles of living membranes.

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