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Mechanism of NanR gene repression and allosteric induction of bacterial sialic acid metabolism
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Abstract
Bacteria respond to environmental changes by inducing transcription of some genes and repressing others. Sialic acids, which coat human cell surfaces, are a nutrient source for pathogenic and commensal bacteria. The
Escherichia coli
GntR-type transcriptional repressor, NanR, regulates sialic acid metabolism, but the mechanism is unclear. Here, we demonstrate that three NanR dimers bind a (GGTATA)
3
-repeat operator cooperatively and with high affinity. Truncation of an N-terminal extension abolishes cooperative binding. The effector,
N
-acetylneuraminate, binds NanR and attenuates DNA binding. Crystal structure data show that
N
-acetylneuraminate binding to NanR causes a domain rearrangement that locks the protein in a conformation that prevents DNA binding. Single-particle cryo-electron microscopy structures of NanR bound to DNA reveal the DNA binding domain is reorganized to engage DNA, while the three dimers assemble in close proximity across the (GGTATA)
3
-repeat operator allowing protein-protein interactions to form
via
the N-terminal extensions. Our data provides a molecular basis for the regulation of bacterial sialic acid metabolism.
Title: Mechanism of NanR gene repression and allosteric induction of bacterial sialic acid metabolism
Description:
Abstract
Bacteria respond to environmental changes by inducing transcription of some genes and repressing others.
Sialic acids, which coat human cell surfaces, are a nutrient source for pathogenic and commensal bacteria.
The
Escherichia coli
GntR-type transcriptional repressor, NanR, regulates sialic acid metabolism, but the mechanism is unclear.
Here, we demonstrate that three NanR dimers bind a (GGTATA)
3
-repeat operator cooperatively and with high affinity.
Truncation of an N-terminal extension abolishes cooperative binding.
The effector,
N
-acetylneuraminate, binds NanR and attenuates DNA binding.
Crystal structure data show that
N
-acetylneuraminate binding to NanR causes a domain rearrangement that locks the protein in a conformation that prevents DNA binding.
Single-particle cryo-electron microscopy structures of NanR bound to DNA reveal the DNA binding domain is reorganized to engage DNA, while the three dimers assemble in close proximity across the (GGTATA)
3
-repeat operator allowing protein-protein interactions to form
via
the N-terminal extensions.
Our data provides a molecular basis for the regulation of bacterial sialic acid metabolism.
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