Abstract
We define the target, mechanism, and structural basis of inhibition of bacterial RNA polymerase (RNAP) by the tetramic acid antibiotic streptolydigin (Stl). Stl binds to a site adjacent to but not overlapping the RNAP active center and stabilizes an RNAP-active-center conformational state with a straight-bridge helix. The results provide direct support for the proposals that alternative straight-bridge-helix and bent-bridge-helix RNAP-active-center conformations exist and that cycling between straight-bridge-helix and bent-bridge-helix RNAP-active-center conformations is required for RNAP function. The results set bounds on models for RNAP function and suggest strategies for design of novel antibacterial agents.
Publication types
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Research Support, N.I.H., Extramural
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Research Support, Non-U.S. Gov't
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Research Support, U.S. Gov't, P.H.S.
MeSH terms
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Aminoglycosides / chemistry
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Aminoglycosides / pharmacology*
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Bacteria / enzymology*
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Bacteria / genetics*
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Binding Sites / drug effects
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Binding Sites / physiology
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DNA-Directed RNA Polymerases / antagonists & inhibitors*
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DNA-Directed RNA Polymerases / chemistry
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DNA-Directed RNA Polymerases / metabolism*
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Feedback, Physiological / physiology
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Models, Molecular
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Molecular Structure
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Protein Structure, Secondary / drug effects
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Protein Structure, Secondary / genetics
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RNA, Messenger / biosynthesis*
Substances
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Aminoglycosides
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RNA, Messenger
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streptolydigin
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DNA-Directed RNA Polymerases