EMD-32833
Gid12 bound Chelator-GIDSR4
EMD-32833
Single-particle19.4 Å
Deposition: 08/02/2022Map released: 08/06/2022
Last modified: 13/12/2023
Sample Organism:
Saccharomyces cerevisiae
Sample: Gid12-Chelator-GIDSR4
Deposition Authors: Qiao S
,
Cheng DJ ,
Schulman BA
Sample: Gid12-Chelator-GIDSR4
Deposition Authors: Qiao S
,
Cheng DJ ,
Schulman BA
Cryo-EM structures of Gid12-bound GID E3 reveal steric blockade as a mechanism inhibiting substrate ubiquitylation.
Qiao S ,
Lee CW ,
Sherpa D ,
Chrustowicz J ,
Cheng J ,
Duennebacke M,
Steigenberger B,
Karayel O ,
Vu DT,
von Gronau S,
Mann M ,
Wilfling F ,
Schulman BA
(2022) Nat Commun , 13 , 3041 - 3041
,
Lee CW ,
Sherpa D ,
Chrustowicz J ,
Cheng J ,
Duennebacke M,
Steigenberger B,
Karayel O ,
Vu DT,
von Gronau S,
Mann M ,
Wilfling F ,
Schulman BA
(2022) Nat Commun , 13 , 3041 - 3041
Abstract:
Protein degradation, a major eukaryotic response to cellular signals, is subject to numerous layers of regulation. In yeast, the evolutionarily conserved GID E3 ligase mediates glucose-induced degradation of fructose-1,6-bisphosphatase (Fbp1), malate dehydrogenase (Mdh2), and other gluconeogenic enzymes. "GID" is a collection of E3 ligase complexes; a core scaffold, RING-type catalytic core, and a supramolecular assembly module together with interchangeable substrate receptors select targets for ubiquitylation. However, knowledge of additional cellular factors directly regulating GID-type E3s remains rudimentary. Here, we structurally and biochemically characterize Gid12 as a modulator of the GID E3 ligase complex. Our collection of cryo-EM reconstructions shows that Gid12 forms an extensive interface sealing the substrate receptor Gid4 onto the scaffold, and remodeling the degron binding site. Gid12 also sterically blocks a recruited Fbp1 or Mdh2 from the ubiquitylation active sites. Our analysis of the role of Gid12 establishes principles that may more generally underlie E3 ligase regulation.
Protein degradation, a major eukaryotic response to cellular signals, is subject to numerous layers of regulation. In yeast, the evolutionarily conserved GID E3 ligase mediates glucose-induced degradation of fructose-1,6-bisphosphatase (Fbp1), malate dehydrogenase (Mdh2), and other gluconeogenic enzymes. "GID" is a collection of E3 ligase complexes; a core scaffold, RING-type catalytic core, and a supramolecular assembly module together with interchangeable substrate receptors select targets for ubiquitylation. However, knowledge of additional cellular factors directly regulating GID-type E3s remains rudimentary. Here, we structurally and biochemically characterize Gid12 as a modulator of the GID E3 ligase complex. Our collection of cryo-EM reconstructions shows that Gid12 forms an extensive interface sealing the substrate receptor Gid4 onto the scaffold, and remodeling the degron binding site. Gid12 also sterically blocks a recruited Fbp1 or Mdh2 from the ubiquitylation active sites. Our analysis of the role of Gid12 establishes principles that may more generally underlie E3 ligase regulation.