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Protein modeling of cathepsin C mutations found in Papillon-Lefèvre syndrome.
[papillon-lefèvre syndrome]
Papillon-
Lefèvre
syndrome
(
PLS
)
is
a
rare
autosomal
recessive
disorder
characterized
by
hyperkeratosis
involving
the
palms
,
soles
,
elbows
,
and
knees
followed
by
periodontitis
,
destruction
of
alveolar
bone
,
and
loss
of
primary
and
permanent
teeth
.
Mutations
of
the
lysosomal
protease
cathepsin
C
gene
(
CTSC
)
have
been
shown
to
be
the
genetic
cause
of
PLS
.
This
study
analyzed
CTSC
mutations
in
five
Iranian
families
with
PLS
and
modeled
the
protein
for
mutations
found
in
two
of
them
.
DNA
analysis
was
performed
by
direct
automated
sequencing
of
genomic
DNA
amplified
from
exonic
regions
and
associated
splice
intron
site
junctions
of
CTSC
.
RFLP
analyses
were
performed
to
investigate
the
presence
of
previously
unidentified
mutation
(
s
)
in
control
groups
.
Protein
homology
modeling
of
the
deduced
novel
mutations
(
P
35
delL
and
R
272
P
)
was
performed
using
the
online
Swiss
-
Prot
server
for
automated
modeling
and
analyzed
and
tested
with
special
bioinformatics
tools
to
better
understand
the
structural
effects
caused
by
mutations
in
cathepsin
C
protein
(
CTSC
)
.
Six
Iranian
patients
with
PLS
experienced
premature
tooth
loss
and
palm
plantar
hyperkeratosis
.
Sequence
analysis
of
CTSC
revealed
a
novel
mutation
(
P
35
delL
)
in
exon
1
of
Patient
1
,
and
four
previously
reported
mutations
;
R
210
X
in
Patient
2
,
R
272
P
in
Patient
3
,
Q
312
R
in
two
siblings
of
family
4
(
Patients
4
and
5
)
,
and
CS
043636
in
Patient
6
.
RFLP
analyses
revealed
different
restriction
fragment
patterns
between
50
healthy
controls
and
patients
for
the
P
35
delL
mutation
.
Modeling
of
the
mutations
found
in
CTSC
,
P
35
delL
in
Patient
1
and
R
272
P
in
Patient
3
revealed
structural
effects
,
which
caused
the
functional
abnormalities
of
the
mutated
proteins
.
The
presence
of
this
mutation
in
these
patients
provides
evidence
for
founder
CTSC
mutations
in
PLS
.
This
newly
identified
P
35
delL
mutation
leads
to
the
loss
of
a
leucine
residue
in
the
protein
.
The
result
of
this
study
indicates
that
the
phenotypes
observed
in
these
two
patients
are
likely
due
to
CTSC
mutations
.
Also
,
structural
analyses
of
the
altered
proteins
identified
changes
in
energy
and
stereochemistry
that
likely
alter
protein
function
.
Diseases
Validation
Diseases presenting
"functional abnormalities"
symptom
papillon-lefèvre syndrome
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