Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Cryo-EM structure of the ClpXP protein degradation machinery
View through CrossRef
Abstract
The ClpXP machinery is a two component protease complex performing targeted protein degradation in bacteria and eukaryotes. The complex consists of the AAA+ chaperone ClpX and the peptidase ClpP. The hexameric ClpX utilizes the energy of ATP binding and hydrolysis to engage, unfold and translocate substrates into the catalytic chamber of tetradecameric ClpP where they are degraded. Formation of the complex involves a symmetry mismatch, since hexameric AAA+ rings bind axially to the opposing stacked heptameric rings of the tetradecameric ClpP. Here we present the first high-resolution cryo-EM structure of ClpXP from
Listeria monocytogenes
. We unravel the heptamer-hexamer binding interface and provide novel insights into the ClpX-ClpP crosstalk and activation mechanism. The comparison with available crystal structures of ClpP and ClpX in different states allows us to understand important aspects of ClpXP’s complex mode of action and provides a structural framework for future pharmacological applications.
Title: Cryo-EM structure of the ClpXP protein degradation machinery
Description:
Abstract
The ClpXP machinery is a two component protease complex performing targeted protein degradation in bacteria and eukaryotes.
The complex consists of the AAA+ chaperone ClpX and the peptidase ClpP.
The hexameric ClpX utilizes the energy of ATP binding and hydrolysis to engage, unfold and translocate substrates into the catalytic chamber of tetradecameric ClpP where they are degraded.
Formation of the complex involves a symmetry mismatch, since hexameric AAA+ rings bind axially to the opposing stacked heptameric rings of the tetradecameric ClpP.
Here we present the first high-resolution cryo-EM structure of ClpXP from
Listeria monocytogenes
.
We unravel the heptamer-hexamer binding interface and provide novel insights into the ClpX-ClpP crosstalk and activation mechanism.
The comparison with available crystal structures of ClpP and ClpX in different states allows us to understand important aspects of ClpXP’s complex mode of action and provides a structural framework for future pharmacological applications.
Related Results
Imaging of specialized plant cell walls by improved cryo-CLEM and cryo-electron tomography
Imaging of specialized plant cell walls by improved cryo-CLEM and cryo-electron tomography
Cryo-focused ion beam scanning electron microscopy (cryo-FIBSEM) has become essential for preparing electron-transparent lamellae from cryo-plunged and high-pressure frozen specime...
Development of Fluorescent Markers for Super-Resolution Microscopy at Cryogenic Temperature
Development of Fluorescent Markers for Super-Resolution Microscopy at Cryogenic Temperature
Développement de marqueurs fluorescents pour la microscopie super-résolution à température cryogénique
Single-molecule localization microscopy is a powerful tool fo...
Super‐resolution fluorescence microscopy of cryo‐immobilized samples
Super‐resolution fluorescence microscopy of cryo‐immobilized samples
Correlative light and electron microscopy (CLEM) benefits greatly from the development of super‐resolution fluorescence microscopy. With a resolution down to the 10 nm range it ena...
Cryo-Expansion Microscopy of C. elegans and Tardigrades v1
Cryo-Expansion Microscopy of C. elegans and Tardigrades v1
Expansion microscopy (ExM) improves imaging resolution through sample-level physical expansion, complementing optical resolution improvements and enabling the two to compound (1). ...
A comprehensive foundation model for cryo-EM image processing
A comprehensive foundation model for cryo-EM image processing
Abstract
Cryogenic electron microscopy (cryo-EM) has become a premier technique for high-resolution structural determination of biological macrom...
Structural insights into the regulation of SOS mutagenesis.
Structural insights into the regulation of SOS mutagenesis.
The Escherichia coli Umu proteins are best characterized by their role in damage inducible mutagenesis. Recently, we discovered that the intracellular levels of the UmuD and UmuC p...
Endothelial Protein C Receptor
Endothelial Protein C Receptor
IntroductionThe protein C anticoagulant pathway plays a critical role in the negative regulation of the blood clotting response. The pathway is triggered by thrombin, which allows ...
Soil degradation – the result of anthropogenic factors
Soil degradation – the result of anthropogenic factors
Annotation
Purpose. To develop a matrix for the classification of degradation processes, regarding the possibility of soil restoration according to their list, which will allow to ...