EMD-18653
Cryo-EM structure of the FB-bound yeast Ceramide Synthase
EMD-18653
Single-particle3.2 Å
Deposition: 13/10/2023Map released: 23/10/2024
Last modified: 27/11/2024
Sample Organism:
Saccharomyces cerevisiae
Sample: Heterotetrameric complex of yeast ceramide synthase with Lag1, Lac1 and Lip1
Fitted models: 8qtr (Avg. Q-score: 0.464)
Deposition Authors: Schaefer J
,
Clausmeyer L ,
Koerner C ,
Moeller A ,
Froehlich F
Sample: Heterotetrameric complex of yeast ceramide synthase with Lag1, Lac1 and Lip1
Fitted models: 8qtr (Avg. Q-score: 0.464)
Deposition Authors: Schaefer J
,
Clausmeyer L ,
Koerner C ,
Moeller A ,
Froehlich F
Structure of the yeast ceramide synthase.
Schafer JH ,
Clausmeyer L ,
Korner C,
Esch BM ,
Wolf VN ,
Sapia J ,
Ahmed Y,
Walter S ,
Vanni S ,
Januliene D ,
Moeller A ,
Frohlich F
(2024) Nat Struct Mol Biol
,
Clausmeyer L ,
Korner C,
Esch BM ,
Wolf VN ,
Sapia J ,
Ahmed Y,
Walter S ,
Vanni S ,
Januliene D ,
Moeller A ,
Frohlich F
(2024) Nat Struct Mol Biol
Abstract:
Ceramides are essential lipids involved in forming complex sphingolipids and acting as signaling molecules. They result from the N-acylation of a sphingoid base and a CoA-activated fatty acid, a reaction catalyzed by the ceramide synthase (CerS) family of enzymes. Yet, the precise structural details and catalytic mechanisms of CerSs have remained elusive. Here we used cryo-electron microscopy single-particle analysis to unravel the structure of the yeast CerS complex in both an active and a fumonisin B1-inhibited state. Our results reveal the complex's architecture as a dimer of Lip1 subunits bound to the catalytic subunits Lag1 and Lac1. Each catalytic subunit forms a hydrophobic crevice connecting the cytosolic site with the intermembrane space. The active site, located centrally in the tunnel, was resolved in a substrate preloaded state, representing one intermediate in ceramide synthesis. Our data provide evidence for competitive binding of fumonisin B1 to the acyl-CoA-binding tunnel.
Ceramides are essential lipids involved in forming complex sphingolipids and acting as signaling molecules. They result from the N-acylation of a sphingoid base and a CoA-activated fatty acid, a reaction catalyzed by the ceramide synthase (CerS) family of enzymes. Yet, the precise structural details and catalytic mechanisms of CerSs have remained elusive. Here we used cryo-electron microscopy single-particle analysis to unravel the structure of the yeast CerS complex in both an active and a fumonisin B1-inhibited state. Our results reveal the complex's architecture as a dimer of Lip1 subunits bound to the catalytic subunits Lag1 and Lac1. Each catalytic subunit forms a hydrophobic crevice connecting the cytosolic site with the intermembrane space. The active site, located centrally in the tunnel, was resolved in a substrate preloaded state, representing one intermediate in ceramide synthesis. Our data provide evidence for competitive binding of fumonisin B1 to the acyl-CoA-binding tunnel.