International Journal of Molecular Sciences,
Journal Year:
2020,
Volume and Issue:
21(23), P. 8956 - 8956
Published: Nov. 25, 2020
Volatile
organic
compounds
(VOCs)
are
emitted
by
plants
as
a
consequence
of
their
interaction
with
biotic
and
abiotic
factors,
have
very
important
role
in
plant
evolution.
Floral
VOCs
often
involved
defense
pollinator
attraction.
These
interactions
change
rapidly
over
time,
so
quick
response
to
those
changes
is
required.
Epigenetic
such
DNA
methylation
histone
modification,
which
regulate
both
genes
transcription
might
trigger
adaptive
responses
these
evolutionary
pressures
well
regulating
the
rhythmic
emission
through
circadian
clock
regulation.
In
addition,
transgenerational
epigenetic
effects
whole
genome
polyploidy
could
modify
generation
VOCs’
profiles
offspring,
contributing
long-term
shifts.
this
article,
we
review
available
knowledge
about
mechanisms
that
may
act
regulators
main
VOC
biosynthetic
pathways,
importance
Physiologia Plantarum,
Journal Year:
2019,
Volume and Issue:
168(2), P. 241 - 255
Published: March 7, 2019
In
agriculture,
heat
stress
(HS)
has
become
one
of
the
eminent
abiotic
threats
to
crop
growth,
productivity
and
nutritional
security
because
continuous
increase
in
global
mean
temperature.
Studies
have
annotated
that
response
(HSR)
plants
is
highly
conserved,
involving
complex
regulatory
networks
various
signaling
sensor
molecules.
this
context,
ubiquitous‐signaling
molecules
salicylic
acid
(SA)
nitric
oxide
(NO)
diverted
attention
plant
science
community
their
putative
roles
biotic
tolerance.
However,
involvement
transcriptional
HS
tolerance
still
poorly
understood.
review,
we
conceptualized
current
knowledge
concerning
how
SA
NO
sense
they
trigger
HSR
leading
activation
transcriptional‐signaling
cascades.
Fundamentals
functional
components
associated
with
molecular
mechanisms
involved
SA/NO‐mediated
also
been
discussed.
Increasing
evidences
suggested
epigenetic
modifications
development
a
‘stress
memory’,
thereby
provoking
role
regulation
plant's
innate
immunity
under
HS.
Thus,
explored
recent
advancements
regarding
biological
underlying
significance
regulations
responsive
genes
transcription
factors
by
providing
conceptual
frameworks
for
understanding
behind
‘transcriptional
memory’
as
potential
memory
tools
HSR.
PLoS Genetics,
Journal Year:
2020,
Volume and Issue:
16(7), P. e1008872 - e1008872
Published: July 16, 2020
Transposable
elements
(TEs)
are
genomic
parasites
that
selfishly
replicate
at
the
expense
of
host
fitness.
Fifty
years
evolutionary
studies
TEs
have
concentrated
on
deleterious
genetic
effects
TEs,
such
as
their
disrupting
genes
and
regulatory
sequences.
However,
a
flurry
recent
work
suggests
there
is
another
important
source
TEs’
harmful
effects—epigenetic
silencing.
Host
genomes
typically
silence
by
deposition
repressive
epigenetic
marks.
While
this
silencing
reduces
selfish
replication
should
benefit
hosts,
picture
emerging
triggers
inadvertent
spreading
marks
to
otherwise
expressed
neighboring
genes,
ultimately
jeopardizing
In
Review,
we
provide
long-overdue
overview
genome-wide
evidence
for
presence
prevalence
effects,
highlighting
both
similarities
differences
across
mammals,
insects,
plants.
We
lay
out
current
understanding
functional
fitness
consequences
propose
possible
influences
evolution
hosts
themselves.
These
unique
indicate
effect
not
only
crucial
component
TE
biology
but
could
also
be
significant
contributor
genome
function
evolution.
Population Ecology,
Journal Year:
2019,
Volume and Issue:
62(1), P. 17 - 27
Published: July 30, 2019
Abstract
Being
sessile
organisms,
plants
show
a
high
degree
of
developmental
plasticity
to
cope
with
constantly
changing
environment.
While
in
is
largely
controlled
genetically,
recent
studies
have
demonstrated
the
importance
epigenetic
mechanisms,
especially
DNA
methylation,
for
gene
regulation
and
phenotypic
response
internal
external
stimuli.
Induced
changes
can
be
source
variations
natural
plant
populations
that
inherited
by
progeny
multiple
generations.
Whether
are
advantageous
given
environment,
whether
they
subject
selection
great
interest,
their
roles
adaptation
evolution
an
area
active
research
ecology.
This
review
focused
on
role
heritable
variation
induced
environmental
changes,
its
potential
influence
plants.
New Phytologist,
Journal Year:
2015,
Volume and Issue:
210(2), P. 399 - 412
Published: Nov. 2, 2015
Summary
Phenology
refers
to
the
study
of
seasonal
schedules
organisms.
Molecular
phenology
is
defined
here
as
patterns
organisms
captured
by
molecular
biology
techniques.
The
history
reviewed
briefly
in
relation
advances
quantification
technology
gene
expression.
High‐resolution
(
HMP
)
data
have
enabled
us
with
an
approach
natura
systems
biology.
I
review
recent
analyses
FLOWERING
LOCUS
C
FLC
),
a
temperature‐responsive
repressor
flowering,
along
six
steps
typical
flow
extensive
studies
regulation
made
this
example
successful
case
which
comprehensive
understanding
functions
has
been
progressing.
‐mediated
long‐term
memory
past
temperatures
creates
time
lags
other
signals,
such
photoperiod
and
short‐term
temperature.
Major
signals
that
control
flowering
phase
lag
between
them
under
natural
conditions,
hypothetical
calendars
are
proposed
mechanisms
season
detection
plants.
Transcriptomic
brings
novel
strategy
phenology,
because
it
provides
representation
plant
functions.
discuss
future
perspectives
from
standpoints
biology,
evolutionary
ecology.
Contents
399
I.
Introduction
400
II.
Definition
methodological
advance
401
III.
In
using
high‐resolution
(HMP)
402
IV.
Predicting
properties
temperature‐responding
machinery
(Step
1)
V.
candidate
regulatory
system
for
temperature
2)
404
VI.
3)
405
VII.
Development
phenology‐based
mechanistic
model
4)
406
VIII.
New
insight
into
analysis
mechanism:
digital
repression
5)
IX.
signals:
calendar
hypotheses
6)
407
X.
(revolution
Step
409
XI.
Perspectives:
circles
Acknowledgements
410
References
International Journal of Molecular Sciences,
Journal Year:
2020,
Volume and Issue:
21(23), P. 8956 - 8956
Published: Nov. 25, 2020
Volatile
organic
compounds
(VOCs)
are
emitted
by
plants
as
a
consequence
of
their
interaction
with
biotic
and
abiotic
factors,
have
very
important
role
in
plant
evolution.
Floral
VOCs
often
involved
defense
pollinator
attraction.
These
interactions
change
rapidly
over
time,
so
quick
response
to
those
changes
is
required.
Epigenetic
such
DNA
methylation
histone
modification,
which
regulate
both
genes
transcription
might
trigger
adaptive
responses
these
evolutionary
pressures
well
regulating
the
rhythmic
emission
through
circadian
clock
regulation.
In
addition,
transgenerational
epigenetic
effects
whole
genome
polyploidy
could
modify
generation
VOCs’
profiles
offspring,
contributing
long-term
shifts.
this
article,
we
review
available
knowledge
about
mechanisms
that
may
act
regulators
main
VOC
biosynthetic
pathways,
importance
