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clcA

clcA is a gene symbol used in prokaryotes to denote a member of the chloride channel (ClC) family. Proteins encoded by clcA are integral membrane proteins that mediate transport of chloride ions across the cell membrane. Most ClcA family members function as Cl−/H+ exchangers, coupling chloride movement to proton gradients, although some orthologs may act primarily as channels under certain conditions. The ClcA protein is typically predicted to have multiple transmembrane helices and the characteristic topology associated with ClC transporters.

In bacteria and archaea that inhabit saline or osmotically challenging environments, clcA contributes to osmoregulation by

Distribution and evolution: The clcA gene is found across diverse prokaryotic lineages, including halophiles and marine

Research and relevance: ClcA and its homologs are studied to elucidate chloride transport mechanisms, microbial osmoregulation,

helping
to
regulate
intracellular
chloride
concentration
and
pH.
Expression
of
clcA
is
often
responsive
to
salinity
or
osmotic
stress
and
can
be
part
of
broader
gene
networks
that
support
salt
tolerance.
The
functional
role
of
clcA
may
vary
among
species,
reflecting
differences
in
physiology
and
environmental
adaptation.
bacteria,
indicating
a
broadly
conserved
need
to
manage
chloride
homeostasis.
Comparative
studies
of
clcA
homologs
inform
understanding
of
the
range
of
transport
mechanisms
within
the
ClC
family
and
the
evolution
of
chloride
transport
in
prokaryotes.
and
the
functional
diversity
of
ClC
transporters
across
organisms.