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opéron

Opéron is the French term for the genetic unit known in English as the operon. It denotes a functioning stretch of DNA that contains a cluster of genes under the control of a single promoter and is regulated as a unit, allowing coordinated expression of genes involved in a common pathway.

An opéron typically includes a promoter, an operator region where regulatory proteins bind, and one or more

Regulation of opérons occurs mainly through two modes: inducible and repressible. Inducible opérons, such as the

Distribution and significance vary. The opéron concept is a hallmark of prokaryotic gene regulation, enabling efficient,

Historically, the operon model was proposed by François Jacob and Jacques Monod in 1961, based on experiments

structural
genes
that
encode
proteins
for
a
shared
function.
A
regulatory
gene
(which
can
be
located
nearby
or
elsewhere
in
the
genome)
may
produce
a
repressor
or
activator
that
modulates
transcription.
Some
opérons
also
contain
regulatory
elements
such
as
an
attenuator,
which
can
influence
transcription
termination.
lac
operon
in
Escherichia
coli,
are
activated
in
response
to
an
inducer
that
alleviates
repression.
Repressible
opérons,
such
as
the
trp
operon,
are
turned
off
when
the
end
product
is
plentiful,
via
a
repressor–cofactor
complex.
Attenuation
provides
an
additional
layer
of
control
in
some
repressible
opérons,
using
leader
sequences
to
terminate
transcription
under
specific
conditions.
coordinated
expression
of
genes
for
a
pathway.
Most
eukaryotes
transcribe
genes
individually,
but
operon-like
gene
clusters
exist
in
a
few
organisms
and
have
influenced
the
study
of
gene
regulation
and
synthetic
biology.
with
lactose
utilization
in
bacteria,
and
has
shaped
modern
understanding
of
transcriptional
regulation.