BMC Plant Biology,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: Aug. 15, 2024
Abstract
Background
β-Aminobutyric
acid
(BABA)
has
been
successfully
used
to
prime
stress
resistance
in
numerous
plant
species;
however,
its
effectiveness
forest
trees
poorly
explored
thus
far.
This
study
aimed
investigate
the
influence
of
BABA
on
morphological,
physiological,
and
epigenetic
parameters
field
elms
under
various
growth
conditions.
Epigenetic
changes
were
assessed
both
DNA
RNA
through
use
reversed-phase
ultra-performance
liquid
chromatography
(UPLC)
coupled
with
sensitive
mass
spectrometry.
Results
The
presented
results
confirm
development,
physiology,
tolerance
elms.
However,
most
important
findings
are
related
broad
promoted
by
this
amino
acid,
which
involve
RNA.
Our
confirm,
for
first
time,
that
influences
not
only
well-known
markers
plants,
such
as
5-methylcytosine,
but
also
several
other
non-canonical
nucleobases,
5-hydroxymethyluracil,
5-formylcytosine,
5-hydroxymethylcytosine,
N6-methyladenine,
uracil
(in
DNA)
thymine
RNA).
significant
effect
levels
main
bacterial
marker,
is
particularly
noteworthy.
In
case,
question
arises
whether
due
microbiome,
genome,
or
both.
Conclusions
phenotype
result
complex
interactions
between
plant’s
DNA,
environment.
We
propose
different
types
microbiome
may
play
roles
largely
unknown
memory
process
enables
plants
adapt
faster
changing
environmental
Frontiers in Agronomy,
Journal Year:
2023,
Volume and Issue:
5
Published: Oct. 24, 2023
Global
climate
change
presents
various
challenges
to
agricultural
biotechnology
in
developing
crops
with
increased
resilience
adverse
natural
conditions.
Given
the
importance
of
this
problem,
we
explored
mechanisms
plant
salt
tolerance
and
role
plant-associated
microbes,
mediating
important
physiological
metabolic
processes
that
increase
resistance
stress.
Understanding
physiological,
metabolic,
molecular
responses
entire
holobiont,
primarily
including
microorganisms,
combination
abiotic
stresses
may
be
key
more
effective
methods
combating
stress
conditions
increasing
efficiency.
This
work
encompassed
86
peer-reviewed
articles
focused
on
aspects
development
saline
especially
mitigating
conditions,
rhizobiome
endophytic
microorganisms.
It
is
shown
host
plants
microorganisms
can
form
complex
relationships
where
each
organism
plays
a
specific
forming
Our
review
proposes
studying
are
resistant
soil
salinity
lead
new
strategies
combat
salinization
improve
crop
resistance.
The
paper
concludes
using
salt-adapted
biostimulant
which
components
microbiomes,
highly
promising
research
area.
Quantitative Plant Biology,
Journal Year:
2023,
Volume and Issue:
4
Published: Jan. 1, 2023
Most
plants
are
adapted
to
their
environments
through
generations
of
exposure
all
elements.
The
adaptation
process
involves
the
best
possible
response
fluctuations
in
environment
based
on
genetic
and
epigenetic
make-up
organism.
Many
plant
species
have
capacity
acclimate
or
adapt
certain
stresses,
allowing
them
respond
more
efficiently,
with
fewer
resources
diverted
from
growth
development.
However,
can
also
acquire
protection
against
stress
across
generations.
Such
a
is
known
as
an
intergenerational
stress;
typically,
lose
most
tolerance
subsequent
generation
when
propagated
without
stress.
Occasionally,
lasts
for
than
one
after
such
called
transgenerational.
In
this
review,
we
will
summarize
what
about
inter-
transgenerational
responses
stress,
focus
phenotypic
events,
mechanisms
ecological
evolutionary
meaning.
BMC Plant Biology,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: Aug. 15, 2024
Abstract
Background
β-Aminobutyric
acid
(BABA)
has
been
successfully
used
to
prime
stress
resistance
in
numerous
plant
species;
however,
its
effectiveness
forest
trees
poorly
explored
thus
far.
This
study
aimed
investigate
the
influence
of
BABA
on
morphological,
physiological,
and
epigenetic
parameters
field
elms
under
various
growth
conditions.
Epigenetic
changes
were
assessed
both
DNA
RNA
through
use
reversed-phase
ultra-performance
liquid
chromatography
(UPLC)
coupled
with
sensitive
mass
spectrometry.
Results
The
presented
results
confirm
development,
physiology,
tolerance
elms.
However,
most
important
findings
are
related
broad
promoted
by
this
amino
acid,
which
involve
RNA.
Our
confirm,
for
first
time,
that
influences
not
only
well-known
markers
plants,
such
as
5-methylcytosine,
but
also
several
other
non-canonical
nucleobases,
5-hydroxymethyluracil,
5-formylcytosine,
5-hydroxymethylcytosine,
N6-methyladenine,
uracil
(in
DNA)
thymine
RNA).
significant
effect
levels
main
bacterial
marker,
is
particularly
noteworthy.
In
case,
question
arises
whether
due
microbiome,
genome,
or
both.
Conclusions
phenotype
result
complex
interactions
between
plant’s
DNA,
environment.
We
propose
different
types
microbiome
may
play
roles
largely
unknown
memory
process
enables
plants
adapt
faster
changing
environmental
