The potential of bacteriocins and bacteriophages to control bacterial disease of crops with a focus on Xanthomonas spp.*
Journal of the Royal Society of New Zealand,
Journal Year:
2024,
Volume and Issue:
55(2), P. 302 - 326
Published: May 23, 2024
Crop
production
plays
a
crucial
role
in
ensuring
global
food
security
and
maintaining
economic
stability.
The
presence
of
bacterial
phytopathogens,
particularly
Xanthomonas
species
(a
key
focus
this
review),
poses
significant
threats
to
crops,
leading
substantial
losses.
Current
control
strategies,
such
as
the
use
chemicals
antibiotics,
face
challenges
environmental
impact
development
antimicrobial
resistance.
This
review
discusses
potential
bacteriocins,
bacterial-derived
proteinaceous
antimicrobials
bacteriophages,
viruses
that
target
bacteria
sustainable
alternatives
for
effectively
managing
diseases.
We
on
diversity
bacteriocins
found
within
xanthomonads
by
identifying
predicting
structures
candidate
bacteriocin
genes
from
publicly
available
genome
sequences
using
BAGEL4
AlphaFold.
Harnessing
power
bacteriophages
has
great
an
eco-friendly
approach
precision
diseases
agriculture.
However,
realising
full
these
natural
requires
continued
research,
field
trials
collaboration
among
scientists,
regulators
farmers.
collective
effort
is
establishing
promising
substitutes
traditional
disease
management
methods.
Language: Английский
A survey of common bacterial blight in Central Brazil reveals a third Xanthomonas species infecting common bean
Tropical Plant Pathology,
Journal Year:
2024,
Volume and Issue:
49(4), P. 566 - 572
Published: May 28, 2024
Language: Английский
Reviewer response for version 1
James A. Butler
No information about this author
Published: July 10, 2023
We
present
the
first
complete
genome
sequence
of
species
Staphylococcus
casei.
Strain
DSM
15096
was
sequenced
with
a
hybrid
approach
using
Oxford
Nanopore
Technologies
long-read
sequencing
and
Illumina
short-read
sequencing.
The
assembled
sequences
produced
2,808,898
bp
chromosomal
molecule
containing
2,705
predicted
genes,
plus
eight
plasmids.
Language: Английский
Editor response for version 1
Published: July 14, 2023
We
present
the
first
complete
genome
sequence
of
species
Staphylococcus
casei.
Strain
DSM
15096
was
sequenced
with
a
hybrid
approach
using
Oxford
Nanopore
Technologies
long-read
sequencing
and
Illumina
short-read
sequencing.
The
assembled
sequences
produced
2,808,898
bp
chromosomal
molecule
containing
2,705
predicted
genes,
plus
eight
plasmids.
Language: Английский
Reviewer response for version 1
Published: June 30, 2023
We
present
the
first
complete
genome
sequence
of
species
Staphylococcus
casei.
Strain
DSM
15096
was
sequenced
with
a
hybrid
approach
using
Oxford
Nanopore
Technologies
long-read
sequencing
and
Illumina
short-read
sequencing.
The
assembled
sequences
produced
2,808,898
bp
chromosomal
molecule
containing
2,705
predicted
genes,
plus
eight
plasmids.
Language: Английский