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The RECQL4 protein, deficient in Rothmund-Thomson syndrome is active on telomeric D-loops containing DNA metabolism blocking lesions.
[werner syndrome]
Telomeres
are
critical
for
cell
survival
and
functional
integrity
.
Oxidative
DNA
damage
induces
telomeric
instability
and
cellular
senescence
that
are
associated
with
normal
aging
and
segmental
premature
aging
disorders
such
as
Werner
Syndrome
and
Rothmund-
Thomson
Syndrome
,
caused
by
mutations
in
WRN
and
RECQL
4
helicases
respectively
.
Characterizing
the
metabolic
roles
of
RECQL
4
and
WRN
in
telomere
maintenance
is
crucial
in
understanding
the
pathogenesis
of
their
associated
disorders
.
We
have
previously
shown
that
WRN
and
RECQL
4
display
a
preference
in
vitro
to
unwind
telomeric
DNA
substrates
containing
the
oxidative
lesion
8
-
oxoguanine
.
Here
,
we
show
that
RECQL
4
helicase
has
a
preferential
activity
in
vitro
on
telomeric
substrates
containing
thymine
glycol
,
a
critical
lesion
that
blocks
DNA
metabolism
,
and
can
be
modestly
stimulated
further
on
a
D-
loop
structure
by
TRF
2
,
a
telomeric
shelterin
protein
.
Unlike
that
reported
for
telomeric
D-
loops
containing
8
-
oxoguanine
,
RECQL
4
does
not
cooperate
with
WRN
to
unwind
telomeric
D-
loops
with
thymine
glycol
,
suggesting
RECQL
4
helicase
is
selective
for
the
type
of
oxidative
lesion
.
RECQL
4
's
function
at
the
telomere
is
not
yet
understood
,
and
our
findings
suggest
a
novel
role
for
RECQL
4
in
the
repair
of
thymine
glycol
lesions
to
promote
efficient
telomeric
maintenance
.
Diseases
Validation
Diseases presenting
"normal aging"
symptom
hereditary cerebral hemorrhage with amyloidosis
werner syndrome
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