Add to ORKGMolecular chaperones and proteases monitor the folded state of other proteins. In addition to recognizing non-native conformations, these quality control factors distinguish substrates that can be refolded from those that need to be degraded(1). To investigate the molecular basis of this process, we have solved the crystal structure of DegP (also known as HtrA), a widely conserved heat shock protein that combines refolding and proteolytic activities(2). The DegP hexamer is formed by staggered association of trimeric rings. The proteolytic sites are located in a central cavity that is only accessible laterally. The mobile side-walls are constructed by twelve PDZ domains, which mediate the opening and closing of the particle and probably the ...
Structure-function analysis of DegP revealed a novel mechanism for protease and chaperone regulation...
AbstractMisfolding or unfolding of polypeptides can occur as a consequence of environmental stress a...
To react to distinct stress situations and to prevent the accumulation of misfolded proteins, all ce...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recogn...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recogn...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recog...
Channeling of misfolded proteins into repair, assembly or degradation pathways is often mediated by ...
All organisms have to monitor the folding state of cellular proteins precisely. The heat-shock prote...
DegP (a.k.a. HtrA) is an essential heat-shock protein in the periplasm of Escherichia coli. Recently...
DegP is a heat-shock protein which is localized in the periplasm of Escherichia coli. It is a common...
The HtrA protein family combines chaperone and protease activities and is essential for protein qual...
Structure-function analysis of DegP revealed a novel mechanism for protease and chaperone regulation...
AbstractMisfolding or unfolding of polypeptides can occur as a consequence of environmental stress a...
To react to distinct stress situations and to prevent the accumulation of misfolded proteins, all ce...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recogn...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recogn...
Molecular chaperones and proteases monitor the folded state of other proteins. In addition to recog...
Channeling of misfolded proteins into repair, assembly or degradation pathways is often mediated by ...
All organisms have to monitor the folding state of cellular proteins precisely. The heat-shock prote...
DegP (a.k.a. HtrA) is an essential heat-shock protein in the periplasm of Escherichia coli. Recently...
DegP is a heat-shock protein which is localized in the periplasm of Escherichia coli. It is a common...
The HtrA protein family combines chaperone and protease activities and is essential for protein qual...
Structure-function analysis of DegP revealed a novel mechanism for protease and chaperone regulation...
AbstractMisfolding or unfolding of polypeptides can occur as a consequence of environmental stress a...
To react to distinct stress situations and to prevent the accumulation of misfolded proteins, all ce...