Biochemical Society Transactions,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 6, 2024
Cryo-electron
tomography
(cryo-ET)
has
become
a
key
technique
for
obtaining
structures
of
macromolecular
complexes
in
their
native
environment,
assessing
local
organization
and
describing
the
molecular
sociology
cell.
While
microorganisms
adherent
mammalian
cells
are
common
targets
studies,
appropriate
sample
preparation
data
acquisition
strategies
larger
cellular
assemblies
such
as
tissues,
organoids
or
small
model
organisms
have
only
recently
sufficiently
practical
to
allow
in-depth
structural
characterization
samples
situ.
These
advances
include
tailored
lift-out
approaches
using
focused
ion
beam
(FIB)
milling,
improved
schemes.
Consequently,
cryo-ET
FIB
lamellae
from
large
volume
can
complement
ultrastructural
analysis
with
another
level
information:
anatomy.
This
review
highlights
recent
developments
towards
anatomy
studies
cryo-ET,
briefly
outlines
what
be
expected
near
future.
PLoS Biology,
Journal Year:
2025,
Volume and Issue:
23(2), P. e3003024 - e3003024
Published: Feb. 3, 2025
Nuclear
export
of
mRNAs
requires
loading
the
mRNP
to
transporter
Mex67/Mtr2
in
nucleoplasm,
controlled
access
pore
by
basket-localised
TREX-2
complex
and
mRNA
release
at
cytoplasmic
site
DEAD-box
RNA
helicase
Dbp5.
Asymmetric
localisation
nucleoporins
(NUPs)
transport
components
as
well
ATP
dependency
Dbp5
ensure
unidirectionality
transport.
Trypanosomes
possess
homologues
Mex67/Mtr2,
but
not
or
Instead,
nuclear
is
likely
fuelled
GTP/GDP
gradient
created
Ran
GTPase.
However,
it
remains
unclear,
how
directionality
achieved
since
current
model
trypanosomatid
mostly
symmetric.
We
have
revisited
architecture
trypanosome
using
a
novel
combination
expansion
microscopy,
proximity
labelling
streptavidin
imaging.
could
confidently
assign
NUP76
complex,
known
Mex67
interaction
platform,
NUP64/NUP98/NUP75
site.
Having
defined
markers
for
both
sites
pore,
we
set
out
map
all
75
proteins
with
subregion
mass
spectrometry
data
from
labelling.
This
approach
several
further
specific
including
predicted
structural
homology
components.
mapped
Ran-based
system
(RanBPL),
(RanGAP,
RanBP1)
(Ran,
MEX67).
Lastly,
demonstrate,
deploying
an
auxin
degron
system,
that
holds
essential
role
consistent
possible
functional
orthology
NUP82/88.
Altogether,
microscopy
revealed
asymmetric
supporting
inherent
roles
directed
Our
delivered
associated
inclusive
positional
information,
which
can
now
be
interrogated
explore
trypanosome-specific
adaptions
basket,
control,
remodelling.
Proceedings of the National Academy of Sciences,
Journal Year:
2025,
Volume and Issue:
122(11)
Published: March 14, 2025
Dynamic
processes
involving
biomolecules
are
essential
for
the
function
of
cell.
Here,
we
introduce
an
integrative
method
computing
models
these
based
on
multiple
heterogeneous
sources
information,
including
time-resolved
experimental
data
and
physical
dynamic
processes.
First,
each
time
point,
a
set
coarse
compositional
structural
heterogeneity
is
computed
(heterogeneity
models).
Second,
model,
static
structure
(a
snapshot
model).
Finally,
selected
connected
into
series
trajectories
that
optimize
likelihood
both
transitions
between
them
trajectory
The
demonstrated
by
application
to
assembly
process
human
nuclear
pore
complex
in
context
reforming
envelope
during
mitotic
cell
division,
live-cell
correlated
electron
tomography,
bulk
fluorescence
correlation
spectroscopy–calibrated
quantitative
live
imaging,
model
fully
assembled
complex.
Modeling
improves
precision
over
modeling
alone.
applicable
wide
range
time-dependent
systems
biology
available
broader
scientific
community
through
implementation
open
source
Integrative
Platform
(IMP)
software.
bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 2, 2025
ABSTRACT
The
nuclear
pore
complex
(NPC),
a
multisubunit
located
within
the
envelope,
regulates
RNA
export
and
import
of
proteins.
Here
we
address
role
NPC
in
driving
thermal
stress-induced
3D
genome
repositioning
Heat
Shock
Responsive
(
HSR
)
genes
yeast.
We
found
that
two
basket
proteins,
Mlp1
Nup2,
although
dispensable
for
integrity,
are
required
into
coalesced
chromatin
clusters,
consistent
with
their
strong,
heat
shock-dependent
recruitment
to
gene
regulatory
coding
regions.
clustering
occurs
predominantly
nucleoplasm
is
independent
essential
scaffold-associated
proteins
Nup1
Nup145.
Notably,
double
depletion
Nup2
has
little
effect
on
formation
Factor
1
(Hsf1)-containing
transcriptional
condensates,
Hsf1
Pol
II
genes,
or
mRNA
abundance.
Our
results
define
restructuring
extrinsic
downstream
activation.
QRB Discovery,
Journal Year:
2025,
Volume and Issue:
6
Published: Jan. 1, 2025
Abstract
Integrative
modeling
enables
structure
determination
for
large
macromolecular
assemblies
by
combining
data
from
multiple
experiments
with
theoretical
and
computational
predictions.
Recent
advancements
in
AI-based
prediction
cryo
electron-microscopy
have
sparked
renewed
enthusiasm
integrative
modeling;
structures
methods
can
be
integrated
situ
maps
to
characterize
assemblies.
This
approach
previously
allowed
us
others
determine
the
architectures
of
diverse
assemblies,
such
as
nuclear
pore
complexes,
chromatin
remodelers,
cell–cell
junctions.
Experimental
spanning
several
scales
was
used
these
studies,
ranging
high-resolution
data,
X-ray
crystallography
AlphaFold
structure,
low-resolution
cryo-electron
tomography
co-immunoprecipitation
experiments.
Two
recurrent
challenges
emerged
across
a
range
studies.
First,
contained
significant
fractions
disordered
regions,
necessitating
development
new
regions
context
ordered
regions.
Second,
needed
developed
utilize
information
tomography,
timely
challenge
structural
biology
is
increasingly
moving
towards
characterization.
Here,
we
recapitulate
recent
developments
proteins
analysis
highlight
other
opportunities
method
modeling.
Viruses,
Journal Year:
2025,
Volume and Issue:
17(2), P. 151 - 151
Published: Jan. 23, 2025
Viruses
frequently
exploit
the
host’s
nucleocytoplasmic
trafficking
machinery
to
facilitate
their
replication
and
evade
immune
defenses.
By
encoding
specialized
proteins
other
components,
they
strategically
target
host
nuclear
transport
receptors
(NTRs)
nucleoporins
within
spiderweb-like
inner
channel
of
pore
complex
(NPC),
enabling
efficient
access
nucleus.
This
review
explores
intricate
mechanisms
governing
import
export
viral
with
a
focus
on
interplay
between
factors
determinants
that
are
essential
for
these
processes.
Given
pivotal
role
shuttling
in
life
cycle,
we
also
examine
therapeutic
strategies
aimed
at
disrupting
pathways.
includes
evaluating
efficacy
pharmacological
inhibitors
impairing
assessing
potential
as
antiviral
treatments.
Furthermore,
emphasize
need
continued
research
develop
targeted
therapies
leverage
vulnerabilities
trafficking.
Emerging
high-resolution
techniques,
such
advanced
imaging
computational
modeling,
transforming
our
understanding
dynamic
interactions
viruses
NPC.
These
cutting-edge
tools
driving
progress
identifying
novel
opportunities
uncovering
deeper
insights
into
pathogenesis.
highlights
importance
advancements
paving
way
innovative
strategies.
The
nuclear
pore
complex
(NPC),
a
multisubunit
located
within
the
envelope,
regulates
RNA
export
and
import
of
proteins.
Here
we
address
role
NPC
in
driving
thermal
stress-induced
3D
genome
repositioning
_Heat
Shock
Responsive_
(_HSR_)
genes
yeast.
We
found
that
two
basket
proteins,
Mlp1
Nup2,
although
dispensable
for
integrity,
are
required
_HSR_
into
coalesced
chromatin
clusters,
consistent
with
their
strong,
heat
shock-dependent
recruitment
to
gene
regulatory
coding
regions.
clustering
occurs
predominantly
nucleoplasm
is
independent
essential
scaffold-associated
proteins
Nup1
Nup145.
Notably,
double
depletion
Nup2
has
little
effect
on
formation
Heat
Factor
1
(Hsf1)-containing
transcriptional
condensates,
Hsf1
Pol
II
genes,
or
mRNA
abundance.
Our
results
define
restructuring
extrinsic
downstream
activation.
Biochemical Society Transactions,
Journal Year:
2025,
Volume and Issue:
53(01)
Published: Feb. 7, 2025
The
nuclear
pore
complex
(NPC)
is
a
vital
regulator
of
molecular
transport
between
the
nucleus
and
cytoplasm
in
eukaryotic
cells.
At
heart
NPC’s
function
are
intrinsically
disordered
phenylalanineglycine-rich
nucleoporins
(FG-Nups),
which
form
dynamic
permeability
barrier
within
central
channel.
This
nature
facilitates
efficient
nucleocytoplasmic
but
also
poses
significant
challenges
to
its
characterization,
especially
nano-confined
environment
NPC.
Recent
advances
experimental
techniques,
such
as
cryo-electron
microscopy,
atomic
force
fluorescence
magnetic
resonance,
along
with
computational
modeling,
have
illuminated
conformational
flexibility
FG-Nups,
underpins
their
functional
versatility.
review
synthesizes
these
advancements,
emphasizing
how
disruptions
FG-Nup
behavior—caused
by
mutations
or
pathological
interactions—contribute
diseases
neurodegenerative
disorders,
aging-related
decline,
viral
infections.
Despite
progress,
persist
deciphering
dynamics
crowded
cellular
environment,
under
conditions.
Addressing
gaps
critical
for
advancing
therapeutic
strategies
targeting
NPC
dysfunction
disease
progression.
bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 4, 2025
Abstract
Lentiviruses
like
HIV-1
infect
non-dividing
cells
by
traversing
the
nuclear
pore,
but
studying
this
process
has
been
challenging
due
to
its
scarcity
and
dynamic
nature
in
infected
cells.
Here,
we
developed
a
robust
cell-permeabilization
system
that
recapitulates
import
established
an
integrated
cryo-correlative
workflow
combining
cryo-CLEM,
cryo-FIB,
cryo-ET
for
targeted
imaging
of
process.
These
advancements
enabled
successful
capture
1,899
cores
at
various
stages
import.
Statistical
structural
analyses
native
wild-type
mutant
revealed
depends
on
both
capsid
elasticity
pore
adaptability,
as
well
factors
such
CPSF6.
Brittle
fail
enter
complex
(NPC),
while
CPSF6-binding-deficient
stall
inside
NPC,
resulting
impaired
Intriguingly,
pores
function
selective
filters
favoring
smaller,
tube-shaped
cores.
Our
study
opens
new
avenues
dissecting
biochemistry
biology
downstream
events
including
core
uncoating
potentially
integration,
with
unprecedented
detail.
