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ampR

AmpR is a transcriptional regulatory protein found in many Gram-negative bacteria, most notably in Pseudomonas aeruginosa and members of the Enterobacteriaceae. It governs the expression of the chromosomal AmpC beta-lactamase, an enzyme that confers resistance to many beta-lactam antibiotics. AmpR acts as a key component of the cell’s response to antibiotic exposure and cell-wall turnover.

AmpR function is dual: it can repress or activate ampC transcription depending on signal molecules in the

Genetic and biochemical studies show that AmpR activity is intertwined with peptidoglycan recycling pathways and other

AmpR homologs are widespread in Gram-negative pathogens; while the core mechanism of AmpC regulation is conserved,

cytoplasm.
In
the
absence
of
inducers,
AmpR
binds
to
the
ampC
promoter
region
and
maintains
low
expression.
When
beta-lactams
or
cell-wall
remodeling
generate
specific
muropeptides,
these
molecules
are
imported
into
the
cytoplasm
via
the
AmpG
transporter
and
processed
by
AmpD;
binding
of
these
ligands
to
AmpR
shifts
its
conformation
to
an
activator
form,
increasing
ampC
transcription
and
beta-lactamase
production.
regulators.
Changes
in
ampR,
muropeptide
flux,
or
related
genes
can
alter
the
level
of
AmpC
and
the
degree
of
antibiotic
resistance.
Because
AmpC
overproduction
reduces
beta-lactam
susceptibility,
AmpR
is
a
focus
of
research
into
strategies
to
counter
resistance,
including
inhibitors
of
AmpR
signaling
or
interference
with
the
muropeptide
recycling
pathway.
individual
species
show
variations
in
regulatory
strength
and
target
genes.