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DNAn

DnaN is the gene that encodes the beta sliding clamp subunit of bacterial DNA polymerase III. The beta clamp acts as a processivity factor, enabling the polymerase to synthesize long stretches of DNA without dissociating. The protein functions as a dimer, with each monomer contributing to a ring-shaped clamp that encircles double-stranded DNA.

The beta clamp is loaded onto primer-template DNA by a clamp loader in an ATP-dependent reaction, after

In terms of structure and conservation, the beta clamp is a highly conserved bacterial component and is

DnaN is distinct from the eukaryotic PCNA sliding clamp, which serves a similar function in archaea and

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which
it
tethers
the
DNA
polymerase
III
core
to
DNA.
Once
loaded,
the
clamp
remains
associated
with
the
polymerase,
allowing
rapid
and
processive
DNA
synthesis
during
replication.
The
clamp
also
serves
as
a
docking
platform
for
other
proteins
involved
in
replication
and
repair,
coordinating
activities
such
as
lagging-strand
synthesis,
mismatch
repair,
and
translesion
synthesis
through
interactions
with
conserved
binding
motifs.
typically
around
40
kilodaltons
per
monomer,
forming
an
80-
kilodalton
dimer.
Its
role
is
essential
for
viability
in
most
bacteria,
making
it
a
central
part
of
the
replication
machinery.
The
dnaN
gene
is
typically
studied
in
the
context
of
Escherichia
coli
and
related
bacteria,
where
it
is
part
of
the
coordinated
expression
of
replication
factors.
eukaryotes
but
is
structurally
different.
See
also:
DNA
polymerase
III,
sliding
clamp,
clamp
loader,
PCNA.