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Free energies of membrane stalk formation from a lipidomics perspective

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  • Chetan S. Poojari

    (Theoretical Physics and Center for Biophysics, Saarland University)

  • Katharina C. Scherer

    (Theoretical Physics and Center for Biophysics, Saarland University)

  • Jochen S. Hub

    (Theoretical Physics and Center for Biophysics, Saarland University)

Abstract

Many biological membranes are asymmetric and exhibit complex lipid composition, comprising hundreds of distinct chemical species. Identifying the biological function and advantage of this complexity is a central goal of membrane biology. Here, we study how membrane complexity controls the energetics of the first steps of membrane fusions, that is, the formation of a stalk. We first present a computationally efficient method for simulating thermodynamically reversible pathways of stalk formation at coarse-grained resolution. The method reveals that the inner leaflet of a typical plasma membrane is far more fusogenic than the outer leaflet, which is likely an adaptation to evolutionary pressure. To rationalize these findings by the distinct lipid compositions, we computed ~200 free energies of stalk formation in membranes with different lipid head groups, tail lengths, tail unsaturations, and sterol content. In summary, the simulations reveal a drastic influence of the lipid composition on stalk formation and a comprehensive fusogenicity map of many biologically relevant lipid classes.

Suggested Citation

  • Chetan S. Poojari & Katharina C. Scherer & Jochen S. Hub, 2021. "Free energies of membrane stalk formation from a lipidomics perspective," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26924-2
    DOI: 10.1038/s41467-021-26924-2
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