New Phytologist,
Год журнала:
2015,
Номер
210(2), С. 399 - 412
Опубликована: Ноя. 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
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Год журнала:
2013,
Номер
5(8), С. a017780 - a017780
Опубликована: Авг. 1, 2013
Sarah
C.R.
Elgin1
and
Gunter
Reuter2
1Department
of
Biology,
CB-1137,
Washington
University,
St.
Louis,
Missouri
63130
2Institute
Developmental
Genetics,
Martin
Luther
University
Halle,
D-06120
Germany
Correspondence:
selgin{at}biology.wustl.edu
Cold Spring Harbor Perspectives in Biology,
Год журнала:
2014,
Номер
6(12), С. a019315 - a019315
Опубликована: Дек. 1, 2014
Craig
S.
Pikaard1
and
Ortrun
Mittelsten
Scheid2
1Department
of
Biology,
Department
Molecular
Cellular
Biochemistry,
Howard
Hughes
Medical
Institute,
Indiana
University,
Bloomington,
47405
2Gregor
Mendel-Institute
Plant
Austrian
Academy
Sciences,
1030
Vienna,
Austria
Correspondence:
ortrun.mittelsten_scheid{at}gmi.oeaw.ac.at
Nucleic Acids Research,
Год журнала:
2015,
Номер
44(D1), С. D1167 - D1171
Опубликована: Окт. 17, 2015
Flowering
is
a
hot
topic
in
Plant
Biology
and
important
progress
has
been
made
Arabidopsis
thaliana
toward
unraveling
the
genetic
networks
involved.
The
increasing
complexity
explosion
of
literature
however
require
development
new
tools
for
information
management
update.
We
therefore
created
an
evolutive
interactive
database
flowering
time
genes,
named
FLOR-ID
(Flowering-Interactive
Database),
which
freely
accessible
at
http://www.flor-id.org.
hand-curated
contains
on
306
genes
links
to
1595
publications
gathering
work
>4500
authors.
Gene/protein
functions
interactions
within
pathways
were
inferred
from
analysis
related
publications,
included
translated
into
manually
drawn
snapshots.
Cold Spring Harbor Perspectives in Biology,
Год журнала:
2015,
Номер
7(1), С. a019364 - a019364
Опубликована: Янв. 1, 2015
Steven
Henikoff1
and
M.
Mitchell
Smith2
1Howard
Hughes
Medical
Institute,
Fred
Hutchinson
Cancer
Research
Center,
Seattle,
Washington
98109-1024
2Department
of
Microbiology,
University
Virginia,
Charlottesville,
Virginia
22908
Correspondence:
steveh{at}fhcrc.org
Annual Review of Genetics,
Год журнала:
2016,
Номер
50(1), С. 467 - 491
Опубликована: Окт. 12, 2016
Transgenerational
epigenetics
is
defined
in
opposition
to
developmental
and
implies
an
absence
of
resetting
epigenetic
states
between
generations.
Unlike
mammals,
plants
appear
be
particularly
prone
this
type
inheritance.
In
review,
we
summarize
our
knowledge
about
transgenerational
plants,
which
entails
heritable
changes
DNA
methylation.
We
emphasize
the
role
transposable
elements
other
repeat
sequences
creation
epimutable
alleles.
also
argue
that
because
reprogramming
methylation
across
generations
seems
limited
inheritance
defects
results
from
failure
reinforce
rather
than
reset
modification
during
sexual
reproduction.
compare
genome-wide
assessments
variation
its
phenotypic
impact
natural
populations
those
made
using
near-isogenic
derived
crosses
parents
with
experimentally
induced
differences.
Finally,
question
environment
inducing
briefly
present
theoretical
models
under
epimutability
expected
selected
for.
The Plant Journal,
Год журнала:
2015,
Номер
83(1), С. 149 - 159
Опубликована: Март 19, 2015
Summary
Drought,
salinity,
extreme
temperature
variations,
pathogen
and
herbivory
attacks
are
recurring
environmental
stresses
experienced
by
plants
throughout
their
life.
To
survive
repeated
stresses,
provide
responses
that
may
be
different
from
response
during
the
first
encounter
with
stress.
A
to
a
similar
stress
represents
concept
of
‘stress
memory’.
coordinated
reaction
at
organismal,
cellular
gene/genome
levels
is
thought
increase
survival
chances
improving
plant's
tolerance/avoidance
abilities.
Ultimately,
memory
mechanism
for
acclimation
adaptation.
At
molecular
level,
indicates
mechanisms
responsible
memory‐type
transcription
not
based
on
repetitive
activation
same
pathways
activated
Some
recent
advances
in
search
‘memory
factors’
discussed
an
emphasis
super‐induced
dehydration
genes
Arabidopsis.
Nucleic Acids Research,
Год журнала:
2017,
Номер
45(9), С. 5061 - 5073
Опубликована: Апрель 5, 2017
Alternative
splicing
generates
multiple
transcript
and
protein
isoforms
from
the
same
gene
thus
is
important
in
expression
regulation.
To
date,
RNA-sequencing
(RNA-seq)
standard
method
for
quantifying
changes
alternative
on
a
genome-wide
scale.
Understanding
current
limitations
of
RNA-seq
crucial
reliable
analysis
lack
high
quality,
comprehensive
transcriptomes
most
species,
including
model
organisms
such
as
Arabidopsis,
major
constraint
accurate
quantification
isoforms.
address
this,
we
designed
novel
pipeline
with
stringent
filters
assembled
Reference
Transcript
Dataset
Arabidopsis
(AtRTD2)
containing
82,190
non-redundant
transcripts
34
212
genes.
Extensive
experimental
validation
showed
that
AtRTD2
its
modified
version,
AtRTD2-QUASI,
use
Quantification
Alternatively
Spliced
Isoforms,
outperform
other
available
analysis.
This
strategy
can
be
implemented
species
to
build
transcript-level
analyses.
Cold Spring Harbor Perspectives in Biology,
Год журнала:
2014,
Номер
6(11), С. a019331 - a019331
Опубликована: Ноя. 1, 2014
Ueli
Grossniklaus1
and
Renato
Paro2
1Institute
of
Plant
Biology
Zürich-Basel
Science
Center,
University
Zürich,
CH-8008
Switzerland
2Department
Biosystems
Engineering,
ETH
4058
Basel,
Correspondence:
grossnik{at}botinst.uzh.ch
Frontiers in Plant Science,
Год журнала:
2019,
Номер
10
Опубликована: Март 1, 2019
In
recent
years
enormous
progress
has
been
made
in
understanding
the
role
of
epigenetic
regulation
response
to
environmental
stimuli,
especially
stresses.
Molecular
mechanisms
involved
chromatin
silencing
and
dynamics
have
explained,
leading
an
appreciation
how
new
phenotypes
can
be
generated
quickly
modifications.
some
cases,
it
also
shown
that
modifications
stably
transmitted
next
generations.
Despite
this,
vast
majority
studies
carried
out
with
model
plants,
particularly
Arabidopsis,
very
little
is
known
on
native
plants
their
natural
habitat
react
changes
environment.
Climate
change
affecting,
sometimes
drastically,
conditions
numerous
ecosystems
around
world,
forcing
populations
species
adapt
quickly.
Although
part
adaptation
explained
by
preexisting
genetic
variation
populations,
stable
through
few
generations,
contributing
stability
survival
habitat.
Here,
we
review
data
suggest
help
cope
environments.
