Abstract
Cells use molecular chaperones and proteases to implement the essential quality control mechanism of proteins. The DegP (HtrA) protein, essential for the survival of Escherichia coli cells at elevated temperatures with homologues found in almost all organisms uniquely has both functions. Here we report a mechanism for DegP to activate both functions via formation of large cage-like 12- and 24-mers after binding to substrate proteins. Cryo-electron microscopic and biochemical studies revealed that both oligomers are consistently assembled by blocks of DegP trimers, via pairwise PDZ1-PDZ2 interactions between neighboring trimers. Such interactions simultaneously eliminate the inhibitory effects of the PDZ2 domain. Additionally, both DegP oligomers were also observed in extracts of E. coli cells, strongly implicating their physiological importance.
Publication types
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Research Support, N.I.H., Extramural
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Research Support, Non-U.S. Gov't
MeSH terms
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Enzyme Activation
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Escherichia coli / enzymology
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Escherichia coli / genetics
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Heat-Shock Proteins / chemistry
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Heat-Shock Proteins / genetics
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Heat-Shock Proteins / metabolism*
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Heat-Shock Proteins / ultrastructure
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Microscopy, Electron
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Models, Molecular
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Molecular Chaperones / chemistry
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Molecular Chaperones / genetics
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Molecular Chaperones / metabolism*
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Molecular Chaperones / ultrastructure
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Periplasmic Proteins / chemistry
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Periplasmic Proteins / genetics
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Periplasmic Proteins / metabolism*
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Periplasmic Proteins / ultrastructure
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Protein Binding
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Protein Folding
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Protein Structure, Quaternary
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Protein Structure, Tertiary
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Serine Endopeptidases / chemistry
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Serine Endopeptidases / classification
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Serine Endopeptidases / genetics
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Serine Endopeptidases / metabolism*
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Serine Endopeptidases / ultrastructure
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Substrate Specificity
Substances
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Heat-Shock Proteins
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Molecular Chaperones
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Periplasmic Proteins
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DegP protease
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Serine Endopeptidases
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chymostatin-sensitive angiotensin II-generating enzyme