Horticulturae,
Год журнала:
2023,
Номер
9(10), С. 1124 - 1124
Опубликована: Окт. 12, 2023
Plant
pathogens
pose
a
significant
threat
to
agricultural
productivity
and
food
security
worldwide.
The
use
of
traditional
chemical
pesticides
for
plant
disease
management
raises
concerns
due
the
emergence
pesticide
resistance
their
potential
adverse
effects
on
human
health
environment.
As
result,
there
is
growing
interest
in
exploring
alternative
approaches
control.
This
review
provides
an
overview
antimicrobial
some
plant-derived
compounds,
including
essential
oils,
extracts,
wastes
major
constituents,
against
pathogenic
bacteria.
activity
attributed
diverse
composition
these
compounds
ability
target
multiple
cellular
processes
pathogens’
cells.
Furthermore,
explores
antagonistic
bacteria
fungi
as
control
tools.
These
beneficial
microorganisms
have
shown
promising
results
suppressing
growth
through
various
mechanisms
such
competition,
antibiosis
induced
systemic
resistance.
discusses
advantages
limitations
using
management.
Moreover,
it
highlights
need
further
research
optimize
efficacy,
develop
sustainable
formulations
evaluate
performance
under
field
conditions.
Molecular Plant Pathology,
Год журнала:
2024,
Номер
25(4)
Опубликована: Апрель 1, 2024
Abstract
When
compared
with
other
phylogroups
(PGs)
of
the
Pseudomonas
syringae
species
complex,
P.
pv.
s
yringae
(Pss)
strains
within
PG2
have
a
reduced
repertoire
type
III
effectors
(T3Es)
but
produce
several
phytotoxins.
Effectors
cherry
pathogen
Pss
9644
were
grouped
based
on
their
frequency
in
from
Prunus
as
conserved
effector
locus
(CEL)
common
to
most
pathogens;
core
PG2;
set
PRUNUS
and
FLEXIBLE
T3Es.
also
contains
gene
clusters
for
biosynthesis
toxins
syringomycin,
syringopeptin
syringolin
A.
After
confirmation
virulence
expression,
mutants
sequential
series
T3E
toxin
deletions
pathogenicity
tested
wood,
leaves
fruits
sweet
(
avium
)
ornamental
incisa
).
The
had
key
role
disease
development
less
important
wood.
An
effectorless
mutant
retained
some
fruit
not
wood
or
leaves.
Striking
redundancy
was
observed
amongst
groups.
CEL
roles
during
early
stages
leaf
infection
possibly
acted
synergistically
all
tissues.
Deletion
separate
groups
T3Es
more
effect
than
.
Mixed
inocula
used
complement
mutations
trans
indicated
that
strain
mixtures
may
be
field.
Our
results
highlight
niche‐specific
tissues
complexity
9644.
ABSTRACT
Comprehensive
and
accurate
genome
annotation
is
crucial
for
inferring
the
predicted
functions
of
an
organism.
Numerous
tools
exist
to
annotate
genes,
gene
clusters,
mobile
genetic
elements,
other
diverse
features.
However,
these
pipelines
can
be
difficult
install
run,
specialized
a
particular
element
or
feature,
lack
annotations
larger
elements
that
provide
important
genomic
context.
Integrating
results
across
analyses
also
understanding
function.
To
address
challenges,
we
present
Beav
pipeline.
command-line
tool
automates
bacterial
sequences,
molecular
systems
key
regulatory
features,
elements.
uses
existing
in
addition
custom
models,
scripts,
databases
systems,
sequence
Custom
plant-associated
microbes
are
incorporated
improve
virulence
symbiosis
genes
agriculturally
pathogens
mutualists.
includes
optional
Agrobacterium
-specific
pipeline
identifies
classifies
oncogenic
plasmids
annotates
plasmid-specific
Following
completion
all
analyses,
consolidated
produce
single
comprehensive
output.
Finally,
generates
publication-quality
plasmid
maps.
on
Bioconda
available
download
at
https://github.com/weisberglab/beav
.
IMPORTANCE
Annotation
such
as
presence
their
function,
loci
encoding
secretion
biosynthetic
necessary
encoded
by
Genomes
host
integrative
conjugative
and/or
phages,
often
not
annotated
pipelines.
These
horizontally
mobilize
virulence,
antimicrobial
resistance,
adaptive
alter
phenotype
We
developed
software
pipeline,
called
Beav,
combines
new
major
Existing
misannotate
mutualism
bacteria.
workflows
improved
designed
easy
making
broadly
research
community.
Phytopathology,
Год журнала:
2024,
Номер
114(5), С. 869 - 884
Опубликована: Апрель 1, 2024
An
unprecedented
plant
health
emergency
in
olives
has
been
registered
over
the
last
decade
Italy,
arguably
more
severe
than
what
occurred
repeatedly
grapes
United
States
140
years.
These
emergencies
are
epidemics
caused
by
a
stealthy
pathogen,
xylem-limited,
insect-transmitted
bacterium
Xylella
fastidiosa.
Although
these
spurred
research
that
answered
many
questions
about
biology
and
management
of
this
gaps
knowledge
remain.
For
review,
we
set
out
to
represent
both
U.S.
European
perspectives
on
most
pressing
challenges
need
be
addressed.
presented
10
sections
hope
will
stimulate
discussion
interdisciplinary
research.
We
reviewed
intrinsic
problems
arise
from
fastidious
growth
X.
fastidiosa,
lack
specificity
for
insect
transmission,
economic
social
importance
perennial
mature
woody
hosts.
Epidemiological
models
predictions
pathogen
establishment
disease
expansion,
vital
preparedness,
based
very
limited
data.
Most
current
gathered
few
pathosystems,
whereas
several
hundred
remain
studied,
probably
including
those
become
center
next
epidemic.
Unfortunately,
aspects
particular
pathosystem
not
always
transferable
others.
recommend
diversification
topics
fundamental
applied
nature
addressing
multiple
pathosystems.
Increasing
preparedness
through
acquisition
is
best
strategy
anticipate
manage
diseases
described
as
“the
dangerous
known
worldwide.”
PLoS Pathogens,
Год журнала:
2024,
Номер
20(6), С. e1012277 - e1012277
Опубликована: Июнь 17, 2024
Filamentous
plant
pathogens
deliver
effector
proteins
into
host
cells
to
suppress
defence
responses
and
manipulate
metabolic
processes
support
colonization.
Understanding
the
evolution
molecular
function
of
these
effectors
provides
knowledge
about
pathogenesis
can
suggest
novel
strategies
reduce
damage
caused
by
pathogens.
However,
are
highly
variable,
share
weak
sequence
similarity
and,
although
they
be
grouped
according
their
structure,
only
a
few
structurally
conserved
families
have
been
functionally
characterized
date.
Here,
we
demonstrate
that
Zinc-finger
fold
(ZiF)
secreted
form
diverse
family
in
blast
fungus
Magnaporthe
oryzae
.
This
relies
on
motif
for
protein
stability
is
ubiquitously
present
lineages
infecting
13
different
species,
forming
tribes.
Homologs
canonical
ZiF
effector,
AVR-Pii,
from
rice
isolates
multiple
M
lineages.
Wheat
strains
also
possess
an
AVR-Pii
like
allele
binds
Exo70
activates
immune
receptor
Pii.
Furthermore,
tribes
may
vary
bind
to,
indicating
functional
diversification
intricate
effector/host
interactome.
Altogether,
uncovered
new
with
common
has
diversified
work
expands
our
understanding
diversity
effectors,
basis
ultimately
facilitate
development
sources
pathogen
resistance.
PLANT PHYSIOLOGY,
Год журнала:
2024,
Номер
196(2), С. 1042 - 1063
Опубликована: Июль 9, 2024
Abstract
C2H2
zinc
effectors
are
a
class
of
pathogen
proteins
that
play
dual
role
in
plant–pathogen
interactions,
promoting
pathogenicity
and
enhancing
plant
defense.
In
our
previous
research,
we
identified
Magnaporthe
oryzae
Systemic
Defense
Trigger
1
(MoSDT1)
as
effector
activates
rice
(Oryza
sativa)
defense
when
overexpressed
rice.
However,
its
regulatory
roles
require
further
investigation.
this
study,
generated
an
MoSDT1
overexpressing
strain
2
knockout
strains
M.
to
assess
the
impact
on
pathogenicity,
defense,
phenotypic
characteristics.
Our
analyses
revealed
substantially
influenced
vegetative
growth,
conidia
size,
conidiation,
was
crucial
for
virulence
while
suppressing
localized
nucleus
cytoplasm
rice,
either
dependent
or
independent
delivery.
Through
RNA-seq,
scRNA-seq,
ChIP-seq,
modulates
by
regulating
phosphorylation
ubiquitination
various
signaling
proteins,
including
transcription
factors,
repressors,
kinases,
phosphatases,
ubiquitin
system.
These
findings
provide
valuable
insights
into
mechanisms
finger
offer
important
foundational
information
utilizing
their
target
genes
disease
resistance
breeding
design
targets
management.
Plant
activators
have
emerged
as
promising
alternatives
to
conventional
pesticides
for
crop
disease
manage-ment
due
their
unique
mode
of
action.
By
priming
the
plant's
innate
immune
system,
these
compounds
can
induce
systemic
acquired
resistance
against
a
broad
spectrum
pathogens
without
directly
inhibiting
proliferation.
Key
advantages
plant
include
prolonged
defense
activity,
lower
effective
dosages,
and
negligible
risk
developing
pathogen
resistance.
Among
various
defensive
pathways
tar-geted,
salicylic
acid
(SA)
signaling
cascade
has
been
extensively
explored,
leading
successful
devel-opment
commercial
like
benzothiadiazole
widespread
application
in
protection.
While
action
sites
many
SA-targeting
preliminarily
mapped
different
steps
along
pathway,
comprehensive
understanding
precise
mechanisms
remains
elusive.
This
review
provides
historical
perspective
on
activator
development
outlines
diverse
screening
strategies
employed
across
multiple
levels,
from
whole-plant
bioassays
molecular
transgenic
approaches.
We
expound
intricate
components,
biological
relevance,
regulatory
circuits
governing
SA
while
criti-cally
examining
structural
features,
bioactivities,
proposed
modes
classical
such
derivatives,
analogs,
other
small
molecules.
Insights
field
trials
as-sessing
practical
applicability
are
also
discussed.
Furthermore,
we
highlight
current
status,
challenges,
future
prospects
realm
globally,
with
focus
recent
en-deavors
China.
Collectively,
this
aims
synthesize
existing
knowledge
provide
roadmap
research
toward
more
potent
mechanistically
understood
activa-tors
that
fortify
immunity
disease.
Molecular Plant-Microbe Interactions,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 15, 2025
Filamentous
plant
pathogens
pose
a
severe
threat
to
food
security.
Current
estimates
suggest
up
23%
yield
losses
pre-
and
post-harvest
diseases
these
are
projected
increase
due
climate
change
(Singh
et
al.
2023;
Chaloner
2021;
Stukenbrock
Gurr
Fisher
2012;
Steinberg
2020).
Understanding
how
filamentous
emerge,
spread
adapt
their
hosts
new
environmental
niches
is
crucial
address
devastating
impact
on
global
agriculture.
Over
the
past
two
decades,
genomics
has
emerged
as
central
technology
advance
our
understanding
of
population
dynamics
coevolution
pathogens.
The
first
genome
pathogen,
blast
fungus
Magnaporthe
oryzae,
was
sequenced
20
years
ago.
Since
then,
pathogen
not
only
provided
deep
genomic
makeup
populations,
but
fundamental
for
gene
discovery,
disease
diagnostics,
accelerated
molecular
biology.
In
merely
we
have
witnessed
several
revolutions
in
field,
including
reference
genomes
many
pathogens,
scale
thousands
individuals,
long-read
chromosome
conformation
sequencing
highly
continuous
assemblies
recent
intersections
structural
Here,
commemorate
20th
anniversary
by
presenting
important
technological
advances
(Fig.
1)
lessons
learned
from
decades
genomics,
with
focus
cereal
diseases.
