Computational design and molecular dynamics simulations suggest the mode of substrate binding in ceramide synthases

Authors :: Iris D. Zelnik
Beatriz Mestre
Jonathan J. Weinstein
Tamir Dingjan
Stav Izrailov
Shifra Ben-Dor
Sarel J. Fleishman
Anthony H. Futerman
Source :: Nature Communications, Vol 14, Iss 1, Pp 1-6 (2023)
Publication Year :: 2023
Publisher :: Nature Portfolio, 2023.
Abstract: Abstract Until now, membrane-protein stabilization has relied on iterations of mutations and screening. We now validate a one-step algorithm, mPROSS, for stabilizing membrane proteins directly from an AlphaFold2 model structure. Applied to the lipid-generating enzyme, ceramide synthase, 37 designed mutations lead to a more stable form of human CerS2. Together with molecular dynamics simulations, we propose a pathway by which substrates might be delivered to the ceramide synthases.

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