Physiologia Plantarum,
Journal Year:
2025,
Volume and Issue:
177(1)
Published: Jan. 1, 2025
Abstract
Water
is
the
basic
molecule
in
living
beings,
and
it
has
a
major
impact
on
vital
processes.
Plants
are
sessile
organisms
with
sophisticated
regulatory
network
that
regulates
how
resources
distributed
between
developmental
adaptation
Drought‐stressed
plants
can
change
their
survival
strategies
to
adapt
this
unfavorable
situation.
Indeed,
modify,
change,
modulate
gene
expression
when
grown
low‐water
environment.
This
occurs
through
several
mechanisms
affect
of
genes,
allowing
these
resist
dry
regions.
Epigenetic
modulation
emerged
as
factor
transcription
regulation
drought
stress‐related
genes.
Moreover,
specific
molecular
epigenetic
modifications
certain
genetic
networks
lead
adapted
responses
aid
plant's
acclimatization
during
repeated
stress.
understanding
plant
severe
environmental
stresses,
including
drought,
critical
for
biotechnological
applications.
Here,
we
first
focused
stress
general
We
also
discussed
exposed
water
be
passed
down
generations.
Trends in Plant Science,
Journal Year:
2021,
Volume and Issue:
27(7), P. 699 - 716
Published: Dec. 11, 2021
The
agricultural
sector
must
produce
resilient
and
climate-smart
crops
to
meet
the
increasing
needs
of
global
food
production.
Recent
advancements
in
elucidating
mechanistic
basis
plant
stress
memory
have
provided
new
opportunities
for
crop
improvement.
Stress
memory-coordinated
changes
at
organismal,
cellular,
various
omics
levels
prepare
plants
be
more
responsive
reoccurring
within
or
across
generation(s).
exposure
a
primary
stress,
priming,
can
also
elicit
beneficial
impact
when
encountering
secondary
abiotic
biotic
through
convergence
synergistic
signalling
pathways,
referred
as
cross-stress
tolerance.
'Rewired
plants'
with
provide
means
stimulate
adaptable
responses,
safeguard
reproduction,
engineer
future.
New Phytologist,
Journal Year:
2022,
Volume and Issue:
234(4), P. 1144 - 1160
Published: Jan. 17, 2022
Summary
Many
environmental
conditions
fluctuate
and
organisms
need
to
respond
effectively.
This
is
especially
true
for
temperature
cues
that
can
change
in
minutes
seasons
often
follow
a
diurnal
rhythm.
Plants
cannot
migrate
most
regulate
their
temperature.
Therefore,
broad
array
of
responses
have
evolved
deal
with
from
freezing
heat
stress.
A
particular
response
mildly
elevated
temperatures
called
thermomorphogenesis,
suite
morphological
adaptations
includes
thermonasty,
formation
thin
leaves
elongation
growth
petioles
hypocotyl.
Thermomorphogenesis
allows
optimal
performance
suboptimal
by
enhancing
the
cooling
capacity.
When
rise
further,
stress
tolerance
mechanisms
be
induced
enable
plant
survive
stressful
temperature,
which
typically
comprises
cellular
protection
memory
thereof.
Induction
depend
on
gene
expression
regulation,
governed
diverse
epigenetic
processes.
In
this
Tansley
review
we
update
current
knowledge
regulation
signalling
response,
focus
thermomorphogenesis
memory.
highlight
emerging
role
H3K4
methylation
marks
pathways.
Plants,
Journal Year:
2024,
Volume and Issue:
13(2), P. 163 - 163
Published: Jan. 7, 2024
Plant
stress
is
a
significant
challenge
that
affects
the
development,
growth,
and
productivity
of
plants
causes
an
adverse
environmental
condition
disrupts
normal
physiological
processes
hampers
plant
survival.
Epigenetic
regulation
crucial
mechanism
for
to
respond
adapt
stress.
Several
studies
have
investigated
role
DNA
methylation
(DM),
non-coding
RNAs,
histone
modifications
in
responses.
However,
there
are
various
limitations
or
challenges
translating
research
findings
into
practical
applications.
Hence,
this
review
delves
recent
recovery,
implications,
applications
epigenetic
response
To
better
understand
under
stress,
we
reviewed
published
last
5-10
years
made
contributions,
analyzed
novel
techniques
technologies
advanced
field,
such
as
next-generation
sequencing
genome-wide
profiling
modifications.
We
emphasized
breakthrough
uncovered
specific
genes
pathways
potential
implications
understanding
agriculture,
crop
improvement,
sustainability.
Finally,
concluded
holds
immense
significance
its
mechanisms
tolerance
can
revolutionize
breeding
genetic
engineering
strategies,
leading
evolution
stress-tolerant
crops
ensuring
sustainable
food
production
face
climate
change
other
challenges.
Future
field
will
continue
unveil
intricacies
improvement.
Trends in Plant Science,
Journal Year:
2024,
Volume and Issue:
29(2), P. 150 - 166
Published: Jan. 16, 2024
Plants
are
exposed
to
multiple
threats
linked
climate
change
which
can
cause
critical
yield
losses.
Therefore,
designing
novel
crop
management
tools
is
crucial.
Chemical
priming
has
recently
emerged
as
an
effective
technology
for
improving
tolerance
stress
factors.
Several
compounds
such
phytohormones,
reactive
species,
and
synthetic
chimeras
have
been
identified
promising
agents.
Following
remarkable
developments
in
nanotechnology,
several
unique
nanocarriers
(NCs)
engineered
that
act
smart
delivery
systems.
These
provide
eco-friendly,
next-generation
method
chemical
priming,
leading
increased
efficiency
reduced
overall
usage.
We
review
NCs
(NENCs)
vehicles
agents
advanced
strategies,
address
challenges
opportunities
be
met
towards
achieving
sustainable
agriculture.
Science China Life Sciences,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 8, 2025
Abstract
Epigenetic
mechanisms
are
integral
to
plant
growth,
development,
and
adaptation
environmental
stimuli.
Over
the
past
two
decades,
our
comprehension
of
these
complex
regulatory
processes
has
expanded
remarkably,
producing
a
substantial
body
knowledge
on
both
locus-specific
genome-wide
patterns.
Studies
initially
grounded
in
model
Arabidopsis
have
been
broadened
encompass
diverse
array
crop
species,
revealing
multifaceted
roles
epigenetics
physiological
agronomic
traits.
With
recent
technological
advancements,
epigenetic
regulations
at
single-cell
level
large-scale
population
emerging
as
new
focuses.
This
review
offers
an
in-depth
synthesis
regulations,
detailing
catalytic
machinery
functions.
It
delves
into
intricate
interplay
among
various
elements
their
collective
influence
modulation
Furthermore,
it
examines
breakthroughs
technologies
for
modifications
integration
strategies
improvement.
The
underscores
transformative
potential
bolstering
performance,
advocating
development
efficient
tools
fully
exploit
agricultural
benefits
insights.
