Author
Listed:
- Xeni Miliara
(South Kensington)
- Takashi Tatsuta
(Max-Planck-Institute for Biology of Ageing
University of Cologne)
- Jamie-Lee Berry
(South Kensington)
- Sarah L. Rouse
(South Kensington)
- Kübra Solak
(Max-Planck-Institute for Biology of Ageing
University of Cologne)
- Dror S. Chorev
(University of Oxford)
- Di Wu
(University of Oxford)
- Carol V. Robinson
(University of Oxford)
- Stephen Matthews
(South Kensington)
- Thomas Langer
(Max-Planck-Institute for Biology of Ageing
University of Cologne)
Abstract
Conserved lipid transfer proteins of the Ups/PRELI family regulate lipid accumulation in mitochondria by shuttling phospholipids in a lipid-specific manner across the intermembrane space. Here, we combine structural analysis, unbiased genetic approaches in yeast and molecular dynamics simulations to unravel determinants of lipid specificity within the conserved Ups/PRELI family. We present structures of human PRELID1–TRIAP1 and PRELID3b–TRIAP1 complexes, which exert lipid transfer activity for phosphatidic acid and phosphatidylserine, respectively. Reverse yeast genetic screens identify critical amino acid exchanges that broaden and swap their lipid specificities. We find that amino acids involved in head group recognition and the hydrophobicity of flexible loops regulate lipid entry into the binding cavity. Molecular dynamics simulations reveal different membrane orientations of PRELID1 and PRELID3b during the stepwise release of lipids. Our experiments thus define the structural determinants of lipid specificity and the dynamics of lipid interactions by Ups/PRELI proteins.
Suggested Citation
Xeni Miliara & Takashi Tatsuta & Jamie-Lee Berry & Sarah L. Rouse & Kübra Solak & Dror S. Chorev & Di Wu & Carol V. Robinson & Stephen Matthews & Thomas Langer, 2019.
"Structural determinants of lipid specificity within Ups/PRELI lipid transfer proteins,"
Nature Communications, Nature, vol. 10(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09089-x
DOI: 10.1038/s41467-019-09089-x
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