Plant Communications,
Год журнала:
2024,
Номер
5(6), С. 100918 - 100918
Опубликована: Апрель 10, 2024
Four
distinct
types
of
sulfated
peptides
have
been
identified
in
Arabidopsis
thaliana.
These
play
crucial
roles
regulating
plant
development
and
stress
adaptation.
Recent
studies
revealed
that
Xanthomonas
Meloidogyne
can
secrete
plant-like
peptides,
exploiting
the
peptide
signaling
pathway
to
suppress
immunity.
Over
past
three
decades,
receptors
for
these
four
identified,
all
which
belong
leucine-rich
repeat
receptor-like
protein
kinase
subfamily.
A
number
regulatory
proteins
demonstrated
important
their
corresponding
signal
transduction
pathways.
In
this
review,
we
comprehensively
summarize
discoveries
receptors,
mainly
We
also
discuss
known
biological
functions
Finally,
put
forward
a
questions
reference
future
studies.
Journal of genetics and genomics/Journal of Genetics and Genomics,
Год журнала:
2023,
Номер
51(1), С. 16 - 34
Опубликована: Авг. 29, 2023
Soil
salinization
is
an
essential
environmental
stressor,
threatening
agricultural
yield
and
ecological
security
worldwide.
Saline
soils
accumulate
excessive
soluble
salts
which
are
detrimental
to
most
plants
by
limiting
plant
growth
productivity.
It
of
great
necessity
for
efficiently
deal
with
the
adverse
effects
caused
salt
stress
survival
successful
reproduction.
Multiple
determinants
tolerance
have
been
identified
in
plants,
cellular
physiological
mechanisms
response
adaption
intensely
characterized.
Plants
respond
signals
rapidly
initiate
signaling
pathways
re-establish
homeostasis
adjusted
metabolism.
This
review
summarizes
advances
perception,
signaling,
plants.
A
better
understanding
resistance
will
contribute
improving
crop
performance
under
saline
conditions
using
multiple
engineering
approaches.
The
rhizosphere
microbiome-mediated
as
well
chemical
priming
enhanced
also
discussed
this
review.
Journal of Integrative Plant Biology,
Год журнала:
2023,
Номер
66(3), С. 303 - 329
Опубликована: Дек. 18, 2023
ABSTRACT
Excess
soil
salinity
affects
large
regions
of
land
and
is
a
major
hindrance
to
crop
production
worldwide.
Therefore,
understanding
the
molecular
mechanisms
plant
salt
tolerance
has
scientific
importance
practical
significance.
In
recent
decades,
studies
have
characterized
hundreds
genes
associated
with
responses
stress
in
different
species.
These
substantially
advanced
our
genetic
plants
introduced
an
era
design
breeding
salt‐tolerant
crops.
This
review
summarizes
current
knowledge
tolerance,
emphasizing
advances
elucidating
osmotic
salt‐ion
transport
compartmentalization,
oxidative
alkaline
trade‐off
between
growth
tolerance.
We
also
examine
natural
variation
crops
discuss
possible
strategies
challenges
for
designing
stress‐resilient
focus
on
model
Arabidopsis
(
thaliana
)
four
most‐studied
crops:
rice
Oryza
sativa
),
wheat
Triticum
aestivum
maize
Zea
mays
soybean
Glycine
max
).
Molecular Horticulture,
Год журнала:
2025,
Номер
5(1)
Опубликована: Янв. 23, 2025
Abstract
Peptide
hormones
are
defined
as
small
secreted
polypeptide-based
intercellular
communication
signal
molecules.
Such
peptide
encoded
by
nuclear
genes,
and
often
go
through
proteolytic
processing
of
preproproteins
post-translational
modifications.
Most
out
the
cell
to
interact
with
membrane-associated
receptors
in
neighboring
cells,
subsequently
activate
transductions,
leading
changes
gene
expression
cellular
responses.
Since
discovery
first
plant
hormone,
systemin,
tomato
1991,
putative
have
continuously
been
identified
different
species,
showing
their
importance
both
short-
long-range
transductions.
The
roles
implicated
in,
but
not
limited
to,
processes
such
self-incompatibility,
pollination,
fertilization,
embryogenesis,
endosperm
development,
stem
regulation,
architecture,
tissue
differentiation,
organogenesis,
dehiscence,
senescence,
plant-pathogen
plant-insect
interactions,
stress
This
article,
collectively
written
researchers
this
field,
aims
provide
a
general
overview
for
discoveries,
functions,
chemical
natures,
transcriptional
regulations,
modifications
plants.
We
also
updated
recent
discoveries
receptor
kinases
underlying
hormone
sensing
down-stream
pathways.
Future
prospective
challenges
will
be
discussed
at
end
article.
International Journal of Molecular Sciences,
Год журнала:
2022,
Номер
23(24), С. 16048 - 16048
Опубликована: Дек. 16, 2022
Saline-alkali
stress
is
a
widespread
adversity
that
severely
affects
plant
growth
and
productivity.
Saline-alkaline
soils
are
characterized
by
high
salt
content
pH
values,
which
simultaneously
cause
combined
damage
from
osmotic
stress,
ionic
toxicity,
HCO3−/CO32−
stress.
In
recent
years,
many
determinants
of
tolerance
have
been
identified
their
regulatory
mechanisms
fairly
well
understood.
However,
the
mechanism
plants
respond
to
comprehensive
saline-alkali
remains
largely
unknown.
This
review
summarizes
advances
in
physiological,
biochemical
molecular
salinity
or
salt-
alkali
Focused
on
progress
made
elucidating
regulation
adopted
response
present
some
new
views
understanding
face
Plants
generally
promote
maintaining
Na+
homeostasis,
while
responding
not
exactly
same
as
We
proposed
pH-tolerant
sensitive
evolved
distinct
adapt
saline-alkaline
Finally,
we
highlight
areas
require
further
research
reveal
components
current
potential
application
key
breed
improvement
breeding.
Plant and Soil,
Год журнала:
2022,
Номер
483(1-2), С. 1 - 25
Опубликована: Ноя. 29, 2022
Abstract
In
concert
with
oxygen,
soil
alkalinity
strongly
restricts
the
availability
of
iron,
an
essential
nutrient
a
multitude
functions
in
living
organisms.
addition
to
its
role
mitochondrial
energy
metabolism
and
as
cofactor
for
enzymes,
plants
iron
also
plays
key
roles
photosynthesis
is
required
chlorophyll
biosynthesis.
The
ability
thrive
calcareous
soils,
referred
calcicole
behaviour,
readout
amalgam
traits
which
efficient
foraging
decisive
factor.
Recently,
well-established
concept
two
distinct
uptake
strategies,
phylogenetically
separating
grasses
from
other
land
plants,
was
expanded
by
discovery
auxiliary
mechanisms
that
extend
range
edaphic
conditions
species
can
adapt.
Secretion
tailor-made
cocktail
iron-mobilising
metabolites
into
rhizosphere,
composition
responsive
suite
internal
cues,
allows
survival
soils
through
competitive
acquisition
strategy,
includes
intricate
interactions
consortium
associated
microorganisms
in,
on,
around
roots.
This
versatile,
reciprocal
plant-microbiome
interplay
affects
mobilisation
directly,
but
collaterally
impacting
growth,
fitness,
health
host.
Here,
we
review
multifaceted
regulation
taking
consideration
specific
constraints
alkaline
soils.
Knowledge
on
how
extract
such
sets
stage
better
understanding
ecological
processes
combatting
malnutrition
humans.
