Home

uvrA

uvrA is a bacterial gene that encodes the UV repair A (UvrA) protein, a central component of the nucleotide excision repair (NER) pathway. In many bacteria, including Escherichia coli, UvrA participates in the initial recognition of DNA damage and works together with UvrB to locate lesions caused by ultraviolet light and other DNA-damaging agents.

UvrA functions as a damage sensor that forms a complex with UvrB. The predominant functional form is

Expression of uvrA is part of the bacterial SOS response, induced by DNA damage. The LexA repressor

Genetically, uvrA is often co-located with uvrB and uvrC in operons or gene clusters involved in excision

a
UvrA2-UvrB
complex,
which
scans
the
genome
for
distortions
in
the
DNA
helix.
UvrA
contains
two
ATPase
domains
and
two
ATP-binding
sites;
ATP
binding
and
hydrolysis
drive
conformational
changes
that
promote
stable
interaction
with
damaged
DNA
and
the
recruitment
of
UvrB.
Once
a
lesion
is
detected,
UvrB
is
positioned
at
the
damage
and
UvrA
dissociates
to
allow
UvrC
to
make
incisions
on
both
sides
of
the
damaged
strand.
The
damaged
oligonucleotide
is
then
removed
by
a
helicase/exonuclease
activity,
and
DNA
polymerase
fills
the
gap
followed
by
ligation.
normally
suppresses
SOS
genes,
and
RecA-mediated
cleavage
of
LexA
increases
transcription
of
uvrA,
along
with
other
repair
genes
such
as
uvrB,
uvrC,
and
uvrD.
repair.
The
UvrA
protein
is
typically
around
90–95
kDa,
comprising
multiple
DNA-binding
domains
and
the
two
ATPase
modules
that
underpin
its
activity
in
damage
recognition.