Chinese Herbal Medicines,
Journal Year:
2023,
Volume and Issue:
16(2), P. 190 - 203
Published: Feb. 3, 2023
Microbial
resource
influences
the
life
activities
of
medicinal
plants
from
several
perspectives.
Endophytes,
rhizosphere
microorganisms,
and
other
environmental
microorganisms
play
essential
roles
in
plant
growth
development,
yield,
clinical
efficacy.
The
microbiota
can
influence
biosynthesis
active
compounds
by
stimulating
specific
metabolic
pathways.
They
induce
host
to
improve
their
resistance
stresses
accumulating
secondary
metabolites.
Microorganisms
interact
with
produce
long-term,
targeted
selection
results
ability
adapt
environment.
Due
interdependence
interaction
between
plants,
Chinese
herbal
medicines
(CHMs)
quality
is
closely
related
associated
microorganisms.
This
review
summarizes
relationship
including
species,
distribution,
activities,
aid
control,
efficacy
provide
markers
for
identifying
origin
storage
time
CHMs.
Therefore,
a
comprehensive
understanding
will
help
control
CHMs
different
Annual Review of Plant Biology,
Journal Year:
2023,
Volume and Issue:
74(1), P. 539 - 568
Published: March 1, 2023
The
aboveground
parts
of
terrestrial
plants
are
colonized
by
a
variety
microbes
that
collectively
constitute
the
phyllosphere
microbiota.
Decades
pioneering
work
using
individual
microbes,
including
commensals
and
pathogens,
have
provided
foundational
knowledge
about
how
adapt
to
environment
their
role
in
providing
biological
control
against
pathogens.
Recent
studies
revealed
more
complete
repertoire
microbiota
across
plant
taxa
respond
regulate
level
composition
Importantly,
development
several
gnotobiotic
systems
is
allowing
causative
mechanistic
determine
contributions
health
productivity.
New
insights
into
carries
out
key
processes,
photosynthesis,
biomass
accumulation,
reproduction,
defense
biotic
abiotic
insults,
either
presence
or
absence
normal
could
unleash
novel
plant-
microbiota-based
technologies
improve
agriculturally
relevant
traits
crop
plants.
Journal of Agricultural and Food Chemistry,
Journal Year:
2022,
Volume and Issue:
70(16), P. 4860 - 4870
Published: April 18, 2022
The
leaves
of
plants
are
colonized
by
various
microorganisms.
In
comparison
to
the
rhizosphere,
less
is
known
about
characteristics
and
ecological
functions
phyllosphere
Phyllosphere
microorganisms
mainly
originate
from
soil,
air,
seeds.
composition
affected
abiotic
factors.
execute
multiple
influencing
leaf
longevity,
seed
mass,
fruit
development,
homeostasis
host
growth.
A
plant
can
respond
secondary
metabolite
secretion
its
immune
system.
Meanwhile,
play
an
important
role
in
stability
environmental
safety
assessment.
However,
as
a
result
instability
environment
poor
cultivability
current
research,
there
still
many
limitations,
such
lack
insight
into
mechanisms
plant–microorganism
interactions,
roles
growth
processes,
responses
metabolites,
etc.
This
review
summarizes
latest
progress
made
research
recent
years.
beneficial
for
deepening
our
understanding
promoting
plant–atmosphere
pathogens,
biological
control.
Plants,
Journal Year:
2023,
Volume and Issue:
12(8), P. 1668 - 1668
Published: April 17, 2023
Bacteria
have
been
used
to
increase
crop
yields.
For
their
application
on
crops,
bacteria
are
provided
in
inoculant
formulations
that
continuously
changing,
with
liquid-
and
solid-based
products.
for
inoculants
mainly
selected
from
natural
isolates.
In
nature,
microorganisms
favor
plants
exhibit
various
strategies
succeed
prevail
the
rhizosphere,
such
as
biological
nitrogen
fixation,
phosphorus
solubilization,
siderophore
production.
On
other
hand,
maintain
beneficial
microorganisms,
exudation
of
chemoattractanst
specific
signaling
pathways
regulate
plant–bacteria
interactions.
Transcriptomic
approaches
helpful
attempting
elucidate
plant–microorganism
Here,
we
present
a
review
these
issues.
Frontiers in Bioscience-Landmark,
Journal Year:
2025,
Volume and Issue:
30(1)
Published: Jan. 14, 2025
The
use
of
biological
control
agents
is
one
the
best
strategies
available
to
combat
plant
diseases
in
an
ecofriendly
manner.
Biocontrol
bacteria
capable
providing
beneficial
effect
crop
growth
and
health,
have
been
developed
for
several
decades.
It
highlights
need
a
deeper
understanding
colonization
mechanisms
employed
by
biocontrol
enhance
their
efficacy
pathogen
control.
present
review
deals
with
in-depth
steps
involved
host
bacteria.
process
starts
from
root
zone,
where
establish
initial
interactions
plant’s
system.
Moving
beyond
roots,
migrate
colonize
other
organs,
including
stems,
leaves,
even
flowers.
Also,
attempts
explore
facilitating
bacterial
movement
within
such
as
migrating
through
interconnected
spaces
vessels
or
apoplast,
applying
quorum
sensing
extracellular
enzymes
during
what
needed
long-term
association
plant.
impacts
on
microbial
community
dynamics,
nutrient
cycling,
overall
health
are
discussed,
emphasizing
intricate
relationships
between
microbiome
benefits
above-ground
parts,
40
confer.
By
unraveling
these
mechanisms,
researchers
can
develop
targeted
enhancing
efficiency
effectiveness
bacteria,
leading
more
sustainability
resilience.
Microbial Ecology,
Journal Year:
2022,
Volume and Issue:
85(3), P. 1113 - 1135
Published: Nov. 1, 2022
Abstract
This
review
evaluates
oilseed
crop
soybean
endophytic
bacteria,
their
prospects,
and
challenges
for
sustainable
agriculture.
Soybean
is
one
of
the
most
important
crops
with
about
20–25%
protein
content
20%
edible
oil
production.
The
ability
root-associated
microbes
to
restore
soil
nutrients
enhances
yield.
Naturally,
root
endosphere
harbors
nodule
which
help
increase
nitrogen
pool
reclamation
another
nutrient
loss
in
plant
nutrition.
Endophytic
bacteria
can
sustain
growth
health
by
exhibiting
antibiosis
against
phytopathogens,
production
enzymes,
phytohormone
biosynthesis,
organic
acids,
secondary
metabolite
secretions.
Considerable
effort
agricultural
industry
focused
on
multifunctional
concepts
bioprospecting
use
bioinput
from
ensure
a
stable
ecosystem.
Bioprospecting
case
this
systemic
overview
biorational
approach
harness
beneficial
plant-associated
food
security
future.
Progress
endeavor
limited
available
techniques.
molecular
techniques
unraveling
functions
explore
integrated
farming.
Our
brings
light
microbial
dynamics
soybeans
current
status
microbiome
research
Microorganisms,
Journal Year:
2024,
Volume and Issue:
12(3), P. 448 - 448
Published: Feb. 22, 2024
Plant-microbe
associations
define
a
key
interaction
and
have
significant
ecological
biotechnological
perspectives.
In
recent
times,
plant-associated
microbes
from
extreme
environments
been
extensively
explored
for
their
multifaceted
benefits
to
plants
the
environment,
thereby
gaining
momentum
in
global
research.
Plant-associated
extremophiles
highlight
ubiquitous
occurrences,
inhabiting
habitats
exhibiting
enormous
diversity.
The
remarkable
capacity
of
exist
environmental
conditions
is
attributed
evolution
adaptive
mechanisms
these
at
genetic
physiological
levels.
addition,
major
impact
promoting
plant
growth
development
conferring
stress
tolerance
host
plant,
contributing
immensely
adaptation
survival
conditions.
Considering
socio-economic
perspective,
article
discusses
significance
emerging
biotechnologies
with
focus
on
role
dynamic
plants.
Through
this
article,
authors
aim
discuss
understand
favorable
dynamics
utilities.