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Human RECQ1 interacts with Ku70/80 and modulates DNA end-joining of double-strand breaks.
[werner syndrome]
Genomic
instability
is
a
known
precursor
to
cancer
and
aging
.
The
RecQ
helicases
are
a
highly
conserved
family
of
DNA-unwinding
enzymes
that
play
key
roles
in
maintaining
genome
stability
in
all
living
organisms
.
Human
RecQ
homologs
include
RECQ
1
,
BLM
,
WRN
,
RECQ
4
,
and
RECQ
5
β
,
three
of
which
have
been
linked
to
diseases
with
elevated
risk
of
cancer
and
growth
defects
(
Bloom
Syndrome
and
Rothmund-
Thomson
Syndrome
)
or
premature
aging
(
Werner
Syndrome
)
.
RECQ
1
,
the
first
RecQ
helicase
discovered
and
the
most
abundant
in
human
cells
,
is
the
least
well
understood
of
the
five
human
RecQ
homologs
.
We
have
previously
described
that
knockout
of
RECQ
1
in
mice
or
knockdown
of
its
expression
in
human
cells
results
in
elevated
frequency
of
spontaneous
sister
chromatid
exchanges
,
chromosomal
instability
,
increased
load
of
DNA
damage
and
heightened
sensitivity
to
ionizing
radiation
.
We
have
now
obtained
evidence
implicating
RECQ
1
in
the
nonhomologous
end-joining
pathway
of
DNA
double
-strand
break
repair
.
We
show
that
RECQ
1
interacts
directly
with
the
Ku
70
/
80
subunit
of
the
DNA-PK
complex
,
and
depletion
of
RECQ
1
results
in
reduced
end-joining
in
cell
free
extracts
.
In
vitro
,
RECQ
1
binds
and
unwinds
the
Ku
70
/
80
-
bound
partial
duplex
DNA
substrate
efficiently
.
Linear
DNA
is
co
-bound
by
RECQ
1
and
Ku
70
/
80
,
and
DNA
binding
by
Ku
70
/
80
is
modulated
by
RECQ
1
.
Collectively
,
these
results
provide
the
first
evidence
for
an
interaction
of
RECQ
1
with
Ku
70
/
80
and
a
role
of
the
human
RecQ
helicase
in
double
-strand
break
repair
through
nonhomologous
end-joining
.
Diseases
Validation
Diseases presenting
"double-strand break repair"
symptom
werner syndrome
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