Potential application of endophytic bacteria for induction of abiotic stress tolerance in plants
Symbiosis,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 3, 2025
Language: Английский
The potential of Paraburkholderia species to enhance crop growth
World Journal of Microbiology and Biotechnology,
Journal Year:
2025,
Volume and Issue:
41(2)
Published: Feb. 1, 2025
Abstract
Agrochemicals
are
the
primary
alternative
for
maintaining
high
yields
necessary
to
produce
sufficient
plant-based
foods
supply
world
population.
In
recent
decades,
one
of
most
extensively
explored
alternatives
replace
agrochemicals
and
reduce
their
environmental
impact
has
been
use
microorganism-based
products
boost
crop
with
less
impact.
This
review
focuses
on
results
studies
that
have
demonstrated
potential
genus
Paraburkholderia
increase
be
utilized
in
biofertilizers
biocontrol
products.
A
literature
search
was
performed
electronically
considering
articles
books
published
until
August
19,
2024.
We
identified
24
species
ability
improve
after
inoculation
by
different
methods
seeds,
seedlings,
plantlets,
adult
crops,
or
fruits.
The
effects
these
bacteria
tested
under
laboratory,
greenhouse,
field
conditions.
These
mediate
positive
growth
direct
indirect
plant
growth-promoting
mechanisms,
which
include
improving
nutrient
uptake,
stimulating
phytohormone
production,
regulation
stimulation
metabolic
pathways,
induction
abiotic
stress
tolerance,
disease
control
pathogen
inhibition
systemic
resistance
plants.
reviewed
here
supports
bio-inputs
actual
panorama
climate
change
necessity
sustainable
agriculture
worldwide.
Language: Английский
Two Antarctic endophytic bacteria of Colobanthus quitensis show functional and genomic characteristics potentially responsible for plant growth promotion and cold tolerance
Giorgio Licciardello,
No information about this author
Livio Antonielli,
No information about this author
Carmela Sicher
No information about this author
et al.
Polar Biology,
Journal Year:
2025,
Volume and Issue:
48(2)
Published: Feb. 13, 2025
Language: Английский
Comparative Analysis of Endophytic Curtobacterium Species Reveals Commonalities and Adaptations
Annabel Arhin,
No information about this author
Sydney Wiegand,
No information about this author
Isabella Foriska
No information about this author
et al.
Bacteria,
Journal Year:
2025,
Volume and Issue:
4(2), P. 25 - 25
Published: May 20, 2025
Curtobacterium
species
are
increasingly
recognized
as
plant
pathogens
and
soil
decomposers,
but
their
prevalence
function
endophytes
in
aerial
organs
less
clear.
In
this
study,
we
isolated
six
endophytic
from
the
fruits,
flower
petals
(previously
unreported)
stem
tissue
of
plants
diverse
environments
examined
general
characteristics.
We
found
that
all
belonging
to
three
major
clusters—C.
oceanosedimentum
(a
group
not
previously
endophytic),
C.
luteum
flaccumfaciens—shared
some
common
features.
All
or
nearly
isolates
tested
were
pigmented,
displayed
moderate
salt
tolerance
and,
surprisingly,
psychrotolerant,
being
able
grow
at
6
°C.
The
exception
was
a
fruit
isolate
appears
have
evolved
thermotolerance
(up
45
°C)
instead
likely
adaptation
its
environment.
metabolize
starch
casein
solubilize
inorganic
phosphate,
indicating
conserved
secreted
hydrolase
activity,
only
absorb
citrate.
Finally,
ferment
sugars
sucrose
fructose,
while
they
differed
ability
use
other
sugars.
Thus,
study
documents
traits
adaptations
various
endophytes,
presence
these
floral
implies
possible
seed-borne
inheritance
isolates.
Language: Английский