Plant Biotechnology Journal,
Год журнала:
2024,
Номер
22(6), С. 1516 - 1535
Опубликована: Янв. 6, 2024
Summary
Plant
health
is
intricately
linked
to
crop
quality,
food
security
and
agricultural
productivity.
Obtaining
accurate
plant
information
of
paramount
importance
in
the
realm
precision
agriculture.
Wearable
sensors
offer
an
exceptional
avenue
for
investigating
status
fundamental
science,
as
they
enable
real‐time
continuous
in‐situ
monitoring
physiological
biomarkers.
However,
a
comprehensive
overview
that
integrates
critically
assesses
wearable
across
various
facets,
including
their
elements,
classification,
design,
sensing
mechanism,
fabrication,
characterization
application,
remains
elusive.
In
this
study,
we
provide
meticulous
description
systematic
synthesis
recent
research
progress
sensor
properties,
technology
application
information.
This
work
endeavours
serve
guiding
resource
utilization
sensors,
empowering
advancement
within
agriculture
paradigm.
Cold
stress
significantly
challenges
cotton
growth
and
productivity,
yet
the
genetic
molecular
mechanisms
underlying
cold
tolerance
remain
poorly
understood.
We
employed
RNA-seq
iterative
weighted
gene
co-expression
network
analysis
(WGCNA)
to
investigate
transposable
element
(TE)
expression
changes
at
six
time
points
(0
h,
2
4
6
12
24
h).
Thousands
of
differentially
expressed
genes
(DEGs)
were
identified,
exhibiting
time-specific
patterns
that
highlight
a
phase-dependent
transcriptional
response.
While
A
D
subgenomes
contributed
comparably
DEG
numbers,
numerous
homeologous
pairs
showed
differential
expression,
indicating
regulatory
divergence.
Iterative
WGCNA
uncovered
125
modules,
with
some
enriched
in
specific
chromosomes
or
chromosomal
regions,
suggesting
localized
hotspots
for
Notably,
transcription
factors,
including
MYB73,
ERF017,
MYB30,
OBP1,
emerged
as
central
regulators
within
these
modules.
Analysis
11
plant
hormone-related
revealed
dynamic
ethylene
(ETH)
cytokinins
(CK)
playing
significant
roles
stress-responsive
pathways.
Furthermore,
we
documented
over
15,000
TEs,
TEs
forming
five
distinct
clusters.
TE
families,
such
LTR/Copia,
demonstrated
enrichment
clusters,
their
potential
role
modulators
under
stress.
These
findings
provide
valuable
insights
into
complex
networks
response
cotton,
highlighting
key
components
involved
regulation.
This
study
provides
targets
breeding
strategies
aimed
enhancing
cotton.
New Phytologist,
Год журнала:
2024,
Номер
243(3), С. 997 - 1016
Опубликована: Июнь 7, 2024
Jasmonic
acid
(JA)
and
gibberellin
(GA)
coordinately
regulate
plant
developmental
programs
environmental
cue
responses.
However,
the
fine
regulatory
network
of
cross-interaction
between
JA
GA
remains
largely
elusive.
In
this
study,
we
demonstrate
that
MdNAC72
together
with
MdABI5
positively
regulates
anthocyanin
biosynthesis
through
an
exquisite
MdNAC72-MdABI5-MdbHLH3
transcriptional
cascade
in
apple.
interacts
to
promote
activation
on
its
target
gene
MdbHLH3
directly
activates
transcription
MdABI5.
The
MdNAC72-MdABI5
module
integration
signals
by
combining
repressor
MdJAZ2
MdRGL2a.
disrupts
interaction
attenuates
MdNAC72.
MdRGL2a
sequesters
from
MdJAZ2-MdNAC72
protein
complex,
leading
release
E3
ubiquitin
ligase
MdSINA2
is
responsive
promotes
ubiquitination-dependent
degradation
interface
fine-regulates
at
posttranslational
levels
MdJAZ2,
MdRGL2a,
MdSINA2.
summary,
our
findings
elucidate
connecting
as
core
Plant and Cell Physiology,
Год журнала:
2024,
Номер
65(10), С. 1552 - 1567
Опубликована: Март 13, 2024
Due
to
their
sessile
lifestyle,
plants
need
optimize
growth
in
order
adapt
ever-changing
environments.
Plants
receive
stimuli
from
the
environment
and
convert
them
into
cellular
responses.
Brassinosteroids
(BRs),
as
growth-promoting
steroid
hormones,
play
a
significant
role
tradeoff
between
environmental
Here,
we
provide
comprehensive
summary
for
understanding
crosstalk
BR
various
stresses,
including
water
availability,
temperature
fluctuations,
salinization,
nutrient
deficiencies
diseases.
We
also
highlight
bottlenecks
that
be
addressed
future
studies.
Ultimately,
suppose
improve
plant
adaptability
crop
yield
by
excavating
natural
mutants
or
modifying
signaling
its
targets.
Horticulture Advances,
Год журнала:
2024,
Номер
2(1)
Опубликована: Окт. 25, 2024
Abstract
Plant
hormones
play
pivotal
roles
in
stress
responses
by
modulating
growth,
development,
stomatal
movement,
and
the
expression
of
stress-related
genes,
thereby
aiding
plants
adapting
to
managing
various
environmental
challenges.
Each
hormone
exhibits
distinct
functions
regulatory
mechanisms
response,
with
potential
complex
interactions
among
them.
Brassinosteroids
(BRs)
represent
a
novel
that
influences
its
target
genes
through
series
phosphorylated
cascade
reactions
involving
transcription
factors.
This
signaling
pathway
regulates
diverse
growth
development
processes
plants.
Additionally,
BRs
interact
other
modulate
physiological
development.
review
examines
biosynthesis
metabolism,
elucidates
between
abscisic
acid
(ABA),
jasmonic
(JA),
gibberellins
(GA),
explores
their
regulating
drought,
salt,
cold,
heat.
The
underscores
importance
hormonal
crosstalk
nutrient
stress,
which
is
vital
for
understanding
plant
regulation,
enhancing
crop
resistance,
advancing
biotechnology
applications,
furthering
science
research.
Future
research
directions
production
application
improve
resilience
are
also
discussed
context
current
findings.
Horticulture Research,
Год журнала:
2025,
Номер
12(4)
Опубликована: Янв. 2, 2025
Abstract
Cold
stress
profoundly
affects
the
growth,
development,
and
productivity
of
horticultural
crops.
Among
diverse
strategies
plants
employ
to
mitigate
adverse
effects
cold
stress,
flavonoids
have
emerged
as
pivotal
components
in
enhancing
plant
resilience.
This
review
was
written
systematically
highlight
critical
role
tolerance,
aiming
address
increasing
need
for
sustainable
practices
under
climate
stress.
We
provide
a
comprehensive
overview
tolerance
crops,
emphasizing
their
biosynthesis
pathways,
molecular
mechanisms,
regulatory
aspects
conditions.
discuss
how
act
antioxidants,
scavenging
reactive
oxygen
species
(ROS)
generated
during
they
regulate
gene
expression
by
modulating
stress-responsive
genes
pathways.
Additionally,
we
explore
application
through
genetic
engineering
breeding
strategies,
offering
insights
into
practical
interventions
improving
crop
Despite
significant
advances,
research
gap
remains
understanding
precise
mechanisms
which
specific
confer
resistance,
especially
across
different
species.
By
addressing
current
knowledge
gaps,
proposing
future
directions
highlighting
implications
horticulture,
aim
advance
enhance
