Trade-Off Between Enzymatic Antioxidant Defense and Accumulation of Organic Metabolite Affects Salt Tolerance of White Clover Associated with Redox, Water, and Metabolic Homeostases
Plants,
Год журнала:
2025,
Номер
14(2), С. 145 - 145
Опубликована: Янв. 7, 2025
White
clover
(Trifolium
repens)
is
an
excellent
perennial
cold-season
ground-cover
plant
for
municipal
landscaping
and
urban
greening.
It
is,
therefore,
widely
distributed
utilized
throughout
the
world.
However,
poor
salt
tolerance
greatly
limits
its
promotion
application.
This
study
aims
to
investigate
difference
in
mechanism
of
relation
osmotic
adjustment,
enzymatic
nonenzymatic
antioxidant
defenses,
organic
metabolites
remodeling
between
salt-tolerant
PI237292
(Trp004)
salt-sensitive
Korla
(KL).
Results
demonstrated
that
stress
significantly
induced
chlorophyll
loss,
water
imbalance,
accumulations
malondialdehyde
(MDA),
hydrogen
peroxide
(H2O2),
superoxide
anion
(O2.-),
resulting
reduced
cell
membrane
stability
two
types
white
clovers.
Trp004
maintained
higher
leaf
relative
content
as
well
lower
potential
oxidative
damage,
compared
with
KL
under
stress.
Although
exhibited
activities
dismutase,
peroxidase,
catalase,
ascorbate
monodehydroasorbate
reductase,
dehydroascorbate
glutathione
reductase
than
response
stress,
ascorbic
acid
(ASA),
dehydroascorbic
(DHA),
(GSH),
disulfide
(GSSG),
ASA/DHA,
GSH/GSSG
were
detected
Trp004.
These
findings
indicated
a
trade-off
relationship
enzymes
antioxidants
different
genotypes
adapting
In
addition,
accumulated
more
acids
(glycolic
acid,
succinic
fumaric
malic
linolenic
cis-sinapic
acid),
amino
(serine,
l-allothreonine,
4-aminobutyric
sugars
(tagatose,
fructose,
glucoheptose,
cellobiose,
melezitose),
other
(myo-inositol,
arabitol,
galactinol,
cellobiotol,
stigmasterol)
when
they
suffered
from
same
concentration
duration
helped
maintain
energy
supply,
reactive
oxygen
species
homeostasis,
cellular
metabolic
homeostasis
regard
can
be
used
resource
cultivating
salinized
soils.
Язык: Английский
Composite microbial agent improves cotton yield and resource use efficiency under mild salt stress by optimizing plant resource allocation
Agricultural Water Management,
Год журнала:
2025,
Номер
310, С. 109358 - 109358
Опубликована: Фев. 11, 2025
Язык: Английский
The isolation, identification, whole-genome sequencing of Trichoderma brevicompactum TB2 and its effects on plant growth-promotion
Plant and Soil,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 28, 2025
Язык: Английский
Transcriptomic Profiling Reveals Key Gene in Trichoderma guizhouense NJAU4742 Enhancing Tomato Tolerance Under Saline Conditions
Huiling Mei,
Tuo Li,
Haiyan Wu
и другие.
Agriculture,
Год журнала:
2025,
Номер
15(6), С. 610 - 610
Опубликована: Март 13, 2025
Soil
salinity
stress
inhibits
the
growth
of
most
beneficial
soil
fungi,
thereby
adversely
affecting
crop
growth,
though
underlying
mechanisms
remain
poorly
understood.
Our
study
revealed
that
fungus
Trichoderma
guizhouense
NJAU4742
exhibited
limited
salt
tolerance,
with
its
being
significantly
suppressed
under
elevated
salinity.
To
investigate
physiological,
biochemical,
and
molecular
responses
to
subsequent
effects
on
tomato
we
subjected
X-ray
irradiation,
aiming
obtain
mutants
altered
tolerance.
A
forward
mutant
strain
(designated
M15)
displaying
near-complete
loss
tolerance
was
successfully
isolated.
Comparative
transcriptomic
analysis
between
wild
type
(wt)
M15
identified
gene
Tgmfs,
a
stress-responsive
belonging
major
facilitator
superfamily.
By
constructing
Tgmfs
knockout
(Tgmfs-KO)
overexpression
(Tgmfs-OE)
strains,
observed
deletion
caused
intracellular
Na+
accumulation
in
NJAU4742,
prompting
compensatory
upregulation
Na+/K+-ATPase
activity
maintain
ion
homeostasis.
Concurrently,
induced
reactive
oxygen
species
oxidative
fungal
cells,
which
counteracted
by
enhanced
superoxide
dismutase
an
NAD+/NADH
ratio,
collectively
boosting
antioxidant
defenses.
Pot
experiments
demonstrated
application
Tgmfs-OE
or
wt
spore
suspensions
markedly
improved
treatment
showing
superior
efficacy.
This
advances
our
understanding
filamentous
adaptation
their
synergistic
plant
resilience.
Язык: Английский
Early inoculation and bacterial community assembly in plants: A review
Microbiological Research,
Год журнала:
2025,
Номер
unknown, С. 128141 - 128141
Опубликована: Март 1, 2025
Язык: Английский
Alleviation of saline stress by the bio-priming of cotton ( Gossypium hirsutum ) seeds with prominent indigenous bacterial isolates under axenic conditions
Journal of Plant Nutrition,
Год журнала:
2025,
Номер
unknown, С. 1 - 17
Опубликована: Апрель 24, 2025
Язык: Английский
Paenibacillus polymyxa J2‐4 induces cucumber to enrich rhizospheric Pseudomonas and contributes to Meloidogyne incognita management under field conditions
Pest Management Science,
Год журнала:
2024,
Номер
unknown
Опубликована: Сен. 25, 2024
Abstract
BACKGROUND
Root
knot
nematodes
(RKNs)
pose
a
great
threat
to
agricultural
production
worldwide.
The
bacterial
nematocides
have
received
increasing
attention
due
their
safe
and
efficient
control
against
RKNs.
Here,
we
investigated
the
biocontrol
efficacy
of
Paenibacillus
polymyxa
J2‐4
Meloidogyne
incognita
in
field
analyzed
rhizosphere
microbiome
cucumber
under
nematode
infection
after
application
strain.
Furthermore,
biomarker
strain
Pseudomonas
spp.
was
isolated
from
J2‐4‐inoculated
soil,
its
nematocidal
activity
growth‐promoting
effect
on
host
plants
were
determined.
In
addition,
chemotaxis
assay
P.
fluroescens
ZJ5
toward
root
exudates
carried
out.
RESULTS
experiment
demonstrated
that
could
effectively
suppressed
gall
formation
plants,
with
galling
index
reduced
by
67.63%
2022
65.50%
2023,
respectively,
compared
controls.
Meanwhile,
plant
height
yield
significantly
increased
treated
Metagenomic
analysis
indicated
altered
microbial
communities.
relative
abundance
notably
enhanced
group,
which
consistent
Linear
discriminant
Effect
Size
results
determined
as
one
biomarkers
group.
strain,
strains,
soil
identified
fluorescens.
fluorescens
exhibited
high
nematicidal
vitro
vivo
,
99.20%
mortality
rate
M.
at
24
h
69.75%
reduction.
efficiency
synthetic
community
plus
superior
any
other
single
bacteria
.
Additionally,
ability
inoculated
J2‐4.
CONCLUSION
has
good
potential
biological
conditions.
Enrichment
beneficial
contributes
management.
©
2024
Society
Chemical
Industry.
Язык: Английский