Microbiological Research,
Год журнала:
2023,
Номер
278, С. 127544 - 127544
Опубликована: Ноя. 9, 2023
The
application
of
bacterial
biofortifiers
is
an
increasingly
common
technique.
In
recent
years,
some
strains
have
been
shown
to
improve
the
nutraceutical
qualities
crops.
This
work
analyses
impact
biofortification
with
3
genera
Rhizobium,
Paenibacillus
and
Lactiplantibacillus
on
nutritional
characteristics
organic
composition
blueberry
in
Portugal.
sp.
VMFR46
treatment
showed
increase
71.36
%
79.88
total
production.
Biofortified
treatments
were
able
Brix
degree,
maturity
index
(up
48.05
for
cv.
Legacy
up
26.04
Duke)
CIEL*a*b*
respect
uninoculated
control.
this
way,
(poly)phenolic
compounds
concentration
increased
biofortified
treatment,
their
profile
was
modified,
such
as
myricetin
aglycone
or
derivative
are
exclusive
fruits
from
plants,
increases
concentrations
related
R.
laguerreae
PEPV16
inoculation
Legacy.
These
modifications
resulted
improvement
obtained.
Plants,
Год журнала:
2023,
Номер
12(3), С. 606 - 606
Опубликована: Янв. 30, 2023
Phytohormones
are
regulators
of
plant
growth
and
development,
which
under
different
types
stress
can
play
a
fundamental
role
in
plant's
adaptation
survival.
Some
these
phytohormones
such
as
cytokinin,
gibberellin,
salicylic
acid,
auxin,
ethylene
also
produced
by
growth-promoting
bacteria
(PGPB).
In
addition,
numerous
volatile
organic
compounds
released
PGPB
and,
like
bacterial
phytohormones,
modulate
physiology
genetics.
the
present
work
we
review
basic
functions
during
their
interaction
with
species.
Moreover,
discuss
most
recent
advances
beneficial
effects
on
PGPB.
Finally,
some
aspects
cross-link
between
phytohormone
production
other
promotion
(PGP)
mechanisms.
This
highlights
essential
performed
potential
application
agricultural
production.
Horticulturae,
Год журнала:
2022,
Номер
8(10), С. 910 - 910
Опубликована: Окт. 5, 2022
Reduction
of
plant
growth,
yield
and
quality
due
to
diverse
environmental
constrains
along
with
climate
change
significantly
limit
the
sustainable
production
horticultural
crops.
In
this
review,
we
highlight
prospective
impacts
that
are
positive
challenges
for
application
beneficial
microbial
endophytes,
nanomaterials
(NMs),
exogenous
phytohormones
strigolactones
(SLs)
new
breeding
techniques
(CRISPR),
as
well
controlled
environment
horticulture
(CEH)
using
artificial
light
in
The
benefits
such
applications
often
evaluated
by
measuring
their
impact
on
metabolic,
morphological
biochemical
parameters
a
variety
cultures,
which
typically
results
higher
yields
efficient
use
resources
when
applied
greenhouse
or
field
conditions.
Endophytic
microbes
promote
growth
play
key
role
adapting
plants
habitat,
thereby
improving
prolonging
protection
from
biotic
abiotic
stresses.
Focusing
control,
considered
effects
novel
class
SLs,
NMs
CEH
commodities.
addition,
genomic
editing
CRISPR,
including
its
modulating
gene
expression/transcription
factors
crop
tolerance,
was
also
reviewed.
Frontiers in Microbiology,
Год журнала:
2024,
Номер
15
Опубликована: Май 27, 2024
Plant-microbe
interactions
are
pivotal
for
ecosystem
dynamics
and
sustainable
agriculture,
influenced
by
various
factors,
such
as
host
characteristics,
environmental
conditions,
human
activities.
Omics
technologies,
including
genomics,
transcriptomics,
proteomics,
metabolomics,
have
revolutionized
our
understanding
of
these
interactions.
Genomics
elucidates
key
genes,
transcriptomics
reveals
gene
expression
dynamics,
proteomics
identifies
essential
proteins,
metabolomics
profiles
small
molecules,
thereby
offering
a
holistic
perspective.
This
review
synthesizes
diverse
microbial-plant
interactions,
showcasing
the
application
omics
in
mechanisms,
nitrogen
fixation,
systemic
resistance
induction,
mycorrhizal
association,
pathogen-host
Despite
challenges
data
integration
ethical
considerations,
approaches
promise
advancements
precision
intervention
resilient
agricultural
practices.
Future
research
should
address
challenges,
enhance
technology
resolution,
explore
epigenomics,
understand
plant-microbe
under
conditions.
In
conclusion,
technologies
hold
immense
optimizing
strategies
fortifying
alliances,
paving
way
agriculture
stewardship.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
14
Опубликована: Янв. 24, 2024
Many
recent
studies
have
highlighted
the
importance
of
plant
growth-promoting
(rhizo)bacteria
(PGPR)
in
supporting
plant’s
development,
particularly
under
biotic
and
abiotic
stress.
Most
focus
on
traits
selected
strains
latter’s
effect
biomass,
root
architecture,
leaf
area,
specific
metabolite
accumulation.
Regarding
energy
balance,
growth
is
outcome
an
input
(photosynthesis)
several
outputs
(i.e.,
respiration,
exudation,
shedding,
herbivory),
frequently
neglected
classical
PGPR-plant
interaction.
Here,
we
discuss
primary
evidence
underlying
modifications
triggered
by
PGPR
their
metabolites
ecophysiology.
We
propose
to
detect
PGPR-induced
variations
photosynthetic
activity
using
gas
exchange
recommend
setting
up
correct
timing
for
monitoring
responses
according
objectives
experiment.
This
research
identifies
challenges
tries
provide
future
directions
scientists
working
interactions
exploit
potential
microorganisms’
application
improving
value.
Stresses,
Год журнала:
2025,
Номер
5(1), С. 16 - 16
Опубликована: Фев. 17, 2025
Cannabis
(Cannabis
sativa
L.)
is
one
of
the
earliest
cultivated
crops
and
valued
for
its
medicinal
compounds,
food,
fibre,
bioactive
secondary
metabolites.
The
rapid
expansion
cannabis
industry
has
surpassed
development
production
system
knowledge.
scientific
community
currently
focuses
on
optimising
agronomic
environmental
factors
to
enhance
yield
quality.
However,
cultivators
face
significant
challenges
from
severe
pathogens,
with
limited
effective
control
options.
principal
diseases
include
root
rot,
wilt,
bud
powdery
mildew,
stunt
disease,
microorganisms
that
reduce
post-harvest
Sustainable
management
strategies
involve
utilising
clean
planting
stocks,
modifying
conditions,
implementing
sanitation,
applying
fungal
bacterial
biological
agents,
drawing
decades
research
other
crops.
Plant–microbe
interactions
can
promote
growth
regulate
metabolite
production.
This
review
examines
recent
literature
pathogen
in
indoor
using
biocontrol
agents.
Specific
morphological,
biochemical,
characteristics
hinder
implementation
cannabis.
Subsequent
investigations
should
focus
elucidating
plant–microbe
essential
effectiveness
methodologies
cultivation
systems.
Journal of Experimental Botany,
Год журнала:
2023,
Номер
75(5), С. 1289 - 1313
Опубликована: Ноя. 9, 2023
Abstract
Advances
in
high
throughput
omics
techniques
provide
avenues
to
decipher
plant
microbiomes.
However,
there
is
limited
information
on
how
integrated
informatics
can
help
deeper
insights
into
plant–microbe
interactions
a
concerted
way.
Integrating
multi-omics
datasets
transform
our
understanding
of
the
microbiome
from
unspecified
genetic
influences
interacting
species
specific
gene-by-gene
interactions.
Here,
we
highlight
recent
progress
and
emerging
strategies
crop
research
review
key
aspects
integration
host
microbial
omics-based
be
used
comprehensive
outline
complex
crop–microbe
We
describe
these
technological
advances
have
helped
unravel
crucial
genes
pathways
that
control
beneficial,
pathogenic,
commensal
identify
knowledge
gaps
synthesize
current
limitations
approaches.
studies
which
multi-omics-based
approaches
led
improved
models
community
structure
function.
Finally,
recommend
holistic
integrating
achieve
precision
efficiency
data
analysis,
for
biotic
abiotic
stress
contribution
microbiota
shaping
fitness.
Current Opinion in Chemical Biology,
Год журнала:
2024,
Номер
79, С. 102427 - 102427
Опубликована: Янв. 29, 2024
In
the
rhizosphere,
plants
and
microbes
communicate
chemically,
especially
under
environmental
stress.
Over
millions
of
years,
their
microbiome
have
coevolved,
sharing
various
chemicals,
including
signaling
molecules.
This
mutual
exchange
impacts
bacterial
communication
influences
plant
metabolism.
Inter-kingdom
signal
crosstalk
affects
colonization
fitness.
Beneficial
metabolomes
offer
eco-friendly
ways
to
enhance
resilience
agriculture.
Plant
metabolites
are
pivotal
in
this
dynamic
interaction
between
host
interacting
beneficial
microbes.
Understanding
these
associations
is
key
engineering
a
robust
for
stress
mitigation
improved
growth.
review
explores
mechanisms
behind
plant-microbe
interactions,
role
metabolomics,
practical
applications
addressing
climate
change's
impact
on
Integrating
microbes'
activities
metabolomics'
application
study
metabolome-driven
corresponding
holds
promise
enhancing
crop
productivity.
Bioinformatics and Biology Insights,
Год журнала:
2024,
Номер
18
Опубликована: Янв. 1, 2024
The
future
global
food
security
depends
on
the
availability
of
water
for
agriculture.
Yet,
ongoing
rise
in
nonagricultural
uses
water,
such
as
urban
and
industrial
uses,
growing
environmental
quality
concerns
have
increased
pressure
irrigation
demand
posed
danger
to
security.
Nevertheless,
its
severity
duration
are
predicted
shortly.
Drought
causes
stunted
growth,
severe
damage
photosynthesis
activity,
loss
crop
yield,
reduced
seed
germination,
nutrient
intake
by
plants.
To
overcome
effects
a
devastating
drought
plants,
it
is
essential
think
about
causes,
mechanisms
action,
long-term
agronomy
management
genetics.
As
result,
there
an
urgent
need
medication
deal
with
harmful
pressure.
review
focuses
adverse
impact
plant,
physiological,
biochemical
aspects,
measures
control
conditions.
This
article
reviews
role
genome
editing
(GE)
technologies
CRISPR
9
(CRISPR-Cas9)
related
spaces
short
palindromic
relapse
between
proteins
reducing
phytohormones,
osmolytes,
external
compounds,
proteins,
microbes
(plant
growth-promoting
microorganism
[PGPM]),
approach
omics,
plants
that
support
plant
growth.
research
examine
potential
using
microbiome
associated
resistance
sustainable
Researchers
also
advocate
mix
biotechnology,
agronomic,
advanced
GE
create
drought-tolerant
varieties.
