bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2023,
Номер
unknown
Опубликована: Ноя. 2, 2023
Abstract
Biological
systems
can
gain
complexity
over
time.
While
some
of
these
transitions
are
likely
driven
by
natural
selection,
the
extent
to
which
they
occur
without
providing
an
adaptive
benefit
is
unknown.
At
molecular
level,
one
example
heteromeric
complexes
replacing
homomeric
ones
following
gene
duplication.
Here,
we
build
a
biophysical
model
and
simulate
evolution
homodimers
heterodimers
duplication
using
distributions
mutational
effects
inferred
from
available
protein
structures.
We
keep
specific
activity
each
dimer
identical,
so
their
concentrations
drift
neutrally
new
functions.
show
that
for
more
than
60%
tested
structures,
relative
concentration
heteromer
increases
time
due
biases
favor
heterodimer.
However,
allowing
on
synthesis
rates
differences
in
homo-
limit
or
reverse
observed
bias
toward
heterodimers.
Our
results
accumulation
complex
quaternary
structures
under
neutral
evolution,
selection
would
be
needed
this
tendency.
Current Opinion in Structural Biology,
Год журнала:
2025,
Номер
92, С. 103023 - 103023
Опубликована: Фев. 22, 2025
Despite
massive
sequencing
efforts,
understanding
the
difference
between
human
pathogenic
and
benign
variants
remains
a
challenge.
Computational
variant
effect
predictors
(VEPs)
have
emerged
as
essential
tools
for
assessing
impact
of
genetic
variants,
although
their
performance
varies.
Initially,
sequence-based
methods
dominated
field,
but
recent
advances,
particularly
in
protein
structure
prediction
technologies
like
AlphaFold,
led
to
an
increased
utilization
structural
information
by
VEPs
aimed
at
scoring
missense
variants.
This
review
highlights
progress
integrating
into
VEPs,
showcasing
novel
models
such
AlphaMissense,
PrimateAI-3D,
CPT-1
that
demonstrate
improved
evaluation.
Structural
data
offers
more
interpretability,
especially
non-loss-of-function
provides
insights
complex
interactions
vivo.
As
field
utilizing
biomolecular
structures
will
be
pivotal
future
VEP
development,
with
breakthroughs
protein-ligand
protein-nucleic
acid
offering
new
avenues.
Molecular Systems Biology,
Год журнала:
2024,
Номер
20(5), С. 549 - 572
Опубликована: Март 18, 2024
Biological
systems
can
gain
complexity
over
time.
While
some
of
these
transitions
are
likely
driven
by
natural
selection,
the
extent
to
which
they
occur
without
providing
an
adaptive
benefit
is
unknown.
At
molecular
level,
one
example
heteromeric
complexes
replacing
homomeric
ones
following
gene
duplication.
Here,
we
build
a
biophysical
model
and
simulate
evolution
homodimers
heterodimers
duplication
using
distributions
mutational
effects
inferred
from
available
protein
structures.
We
keep
specific
activity
each
dimer
identical,
so
their
concentrations
drift
neutrally
new
functions.
show
that
for
more
than
60%
tested
structures,
relative
concentration
heteromer
increases
time
due
biases
favor
heterodimer.
However,
allowing
on
synthesis
rates
differences
in
homo-
limit
or
reverse
observed
bias
toward
heterodimers.
Our
results
accumulation
complex
quaternary
structures
under
neutral
evolution,
selection
would
be
needed
this
tendency.
PLoS ONE,
Год журнала:
2024,
Номер
19(8), С. e0307312 - e0307312
Опубликована: Авг. 22, 2024
Many
dominant
genetic
disorders
result
from
protein-altering
mutations,
acting
primarily
through
dominant-negative
(DN),
gain-of-function
(GOF),
and
loss-of-function
(LOF)
mechanisms.
Deciphering
the
mechanisms
by
which
diseases
exert
their
effects
is
often
experimentally
challenging
resource
intensive,
but
essential
for
developing
appropriate
therapeutic
approaches.
Diseases
that
arise
via
a
LOF
mechanism
are
more
amenable
to
be
treated
conventional
gene
therapy,
whereas
DN
GOF
may
require
editing
or
targeting
small
molecules.
Moreover,
pathogenic
missense
mutations
act
difficult
identify
than
those
using
nearly
all
currently
available
variant
effect
predictors.
Here,
we
introduce
tripartite
statistical
model
made
up
of
support
vector
machine
binary
classifiers
trained
predict
whether
human
protein
coding
genes
likely
associated
with
DN,
GOF,
molecular
disease
We
test
utility
predictions
examining
biologically
clinically
meaningful
properties
known
Our
results
strongly
models
able
generalise
on
unseen
data
offer
insight
into
functional
attributes
proteins
different
hope
our
will
serve
as
springboard
researchers
studying
novel
variants
uncertain
clinical
significance,
guiding
interpretation
strategies
experimental
characterisation.
Predictions
UniProt
reference
proteome
at
https://osf.io/z4dcp/
.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Март 26, 2024
Abstract
Advances
in
structure
determination
and
computational
modelling
are
enabling
us
to
study
the
protein
structural
context
of
human
genetic
variants
at
an
unprecedented
scale.
Here,
we
investigate
millions
cancer-associated
missense
mutations
terms
their
locations
predicted
perturbative
effects.
We
find
that,
while
cancer-driving
have
properties
similar
other
known
disease-causing
mutations,
this
is
obscured
by
abundance
passenger
cancer
sequencing
datasets.
Nevertheless,
considering
collective
level
individual
proteins,
identify
distinct
mutational
signatures
associated
with
tumour
suppressors
oncogenes.
Tumour
enriched
structurally
damaging
consistent
loss-of-function
mechanisms.
In
contrast,
oncogene
tend
be
mild,
reflecting
selection
for
gain-of-function
driver
against
mutations.
Although
oncogenes
difficult
distinguish
from
genes
no
role
using
only
damage,
that
alternate
metric
based
on
clustering
three-dimensional
space
highly
predictive
oncogenes,
particularly
when
mutation
recurrence
considered.
These
observations
allow
novel
candidate
speculate
about
molecular
roles,
which
expect
general
utility
analysis
data.
Complexes
of
two
or
more
proteins
form
many,
if
not
most,
the
intracellular
"machines"
that
execute
physical
and
chemical
work,
transmit
information.
can
from
stochastic
post-translational
interactions
fully
formed
proteins,
but
recent
attention
has
shifted
to
co-translational
in
which
most
common
mechanism
involves
binding
a
mature
constituent
an
incomplete
polypeptide
emerging
translating
ribosome.
Studies
yeast
have
revealed
during
formation
multiple
major
complexes,
together
with
mammalian
cell
studies,
suggest
widespread
utilization
mechanism.
These
translation-dependent
involve
single
mRNA
templates,
be
uni-
bi-directional,
use
multi-protein
sub-complexes
as
component.
Here,
we
discuss
benefits
complex
assembly
including
accuracy
efficiency,
overcoming
hidden
interfaces,
localized
hierarchical
assembly,
reduction
orphan
protein
degradation,
toxicity,
dominant-negative
pathogenesis,
all
serving
improve
fitness.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2023,
Номер
unknown
Опубликована: Сен. 8, 2023
Abstract
Many
dominant
genetic
disorders
result
from
protein-altering
mutations,
acting
primarily
through
dominant-negative
(DN),
gain-of-function
(GOF),
and
loss-of-function
(LOF)
mechanisms.
Deciphering
the
mechanisms
by
which
diseases
exert
their
effects
is
often
experimentally
challenging
resource
intensive,
but
essential
for
developing
appropriate
therapeutic
approaches.
Diseases
that
arise
via
a
LOF
mechanism
are
more
amenable
to
be
treated
conventional
gene
therapy,
whereas
DN
GOF
may
require
editing
or
targeting
small
molecules.
Moreover,
pathogenic
missense
mutations
act
difficult
identify
than
those
using
nearly
all
currently
available
variant
effect
predictors.
Here,
we
introduce
tripartite
statistical
model
made
up
of
support
vector
machine
binary
classifiers
trained
predict
whether
human
protein-coding
genes
likely
associated
with
DN,
GOF,
molecular
disease
We
test
utility
predictions
examining
biologically
clinically
meaningful
properties
known
Our
results
strongly
models
able
generalise
on
unseen
data
offer
insight
into
functional
attributes
proteins
different
hope
our
will
serve
as
springboard
researchers
studying
novel
variants
uncertain
clinical
significance,
guiding
interpretation
strategies
experimental
characterisation.
Predictions
UniProt
reference
proteome
at
https://osf.io/z4dcp/
.
Wiley Interdisciplinary Reviews - RNA,
Год журнала:
2024,
Номер
15(4)
Опубликована: Июль 1, 2024
The
mechanics
of
how
proteins
are
generated
from
mRNA
is
increasingly
well
understood.
However,
much
less
known
about
protein
production
coordinated
and
orchestrated
within
the
crowded
intracellular
environment,
especially
in
eukaryotic
cells.
Recent
studies
suggest
that
localized
sites
exist
for
specific
proteins.
These
have
been
termed
"translation
factories"
roles
complex
formation,
localization,
inheritance,
translation
regulation
postulated.
In
this
article,
we
review
evidence
supporting
at
these
sites,
details
their
mechanism
likely
functional
significance.
Finally,
consider
key
uncertainties
regarding
elusive
structures
This
article
categorized
under:
Translation
>
Mechanisms
RNA
Export
Localization
Regulation.
Abstract
Canavan
disease
is
an
autosomal
recessive
and
lethal
neurological
disorder,
characterized
by
the
spongy
degeneration
of
white
matter
in
brain.
The
caused
a
deficiency
cytosolic
aspartoacylase
(ASPA)
enzyme,
which
catalyzes
hydrolysis
N-acetyl-aspartate
(NAA),
abundant
brain
metabolite,
into
aspartate
acetate.
On
physiological
level,
mechanism
pathogenicity
remains
somewhat
obscure,
with
multiple,
not
mutually
exclusive,
suggested
hypotheses.
At
molecular
recent
studies
have
shown
that
most
linked
ASPA
gene
variants
lead
to
structural
destabilization
subsequent
proteasomal
degradation
protein
variants,
accordingly
should
general
be
considered
misfolding
disorder.
Here,
we
comprehensively
summarize
cell
biology
ASPA,
particular
focus
on
disease-linked
pathophysiology
disease.
We
highlight
importance
high-throughput
technologies
computational
prediction
tools
for
making
genotype–phenotype
predictions
as
await
results
ongoing
trials
therapy
FEBS Journal,
Год журнала:
2023,
Номер
291(16), С. 3557 - 3567
Опубликована: Май 19, 2023
Recent
discoveries
have
highlighted
the
prevalence
of
cotranslational
assembly
in
proteomes,
revealing
a
range
mechanisms
that
enables
protein
complex
subunits
on
ribosome.
Structural
analyses
uncovered
emergent
properties
may
inherently
control
whether
subunit
undergoes
assembly.
However,
evolutionary
paths
yielded
such
complexes
over
an
extended
timescale
remain
largely
unclear.
In
this
review,
we
reflect
historical
experiments
contributed
to
field,
including
breakthroughs
made
possible
proteome-wide
detection
assembly,
and
technical
challenges
yet
be
overcome.
We
introduce
simple
framework
encapsulates
hallmarks
discuss
how
results
from
new
are
shaping
our
view
mechanistic,
structural
factors
driving
phenomenon.
