Research Progress Regarding Psychrotrophic Pseudomonas in Aquatic Products: Psychrophilic Characteristics, Spoilage Mechanisms, Detection Methods, and Control Strategies
Foods,
Journal Year:
2025,
Volume and Issue:
14(3), P. 363 - 363
Published: Jan. 23, 2025
Aquatic
products
are
an
important
part
of
the
human
diet,
but
they
easily
contaminated
by
Pseudomonas
spp.,
which
leads
to
food
deterioration
and
economic
loss.
In
this
paper,
main
characteristics
psychrotrophic
in
aquatic
reviewed,
including
its
growth
adaptation
mechanism
biofilm
formation
ability
at
low
temperatures,
key
role
product
spoilage
is
emphasized.
Studies
have
shown
that
can
produce
a
variety
volatile
compounds
decomposing
proteins
amino
acids,
affecting
sensory
quality
safety
products.
A
control
strategies
extend
shelf
life
been
explored,
physical,
chemical,
biological
methods,
particularly
biofilm-specific
inhibition
techniques
such
as
quorum
sensing
application
natural
antimicrobials.
Future
research
should
prioritize
development
novel
anti-biofilm
address
growing
problem
contamination
industry
ensure
public
health.
Language: Английский
Effects of Thermal Oxidation Interaction via Various Polar Lipid and Myofibrillar Proteins on the Aroma Formation in Large Yellow Croaker
Tingting Zhang,
No information about this author
Ke Zhang,
No information about this author
Xinyi Qi
No information about this author
et al.
Food Bioscience,
Journal Year:
2024,
Volume and Issue:
62, P. 105252 - 105252
Published: Oct. 9, 2024
Language: Английский
Development of a rapid and visual detection platform for Pseudomonas plecoglossicida in large yellow croaker (Larimichthys crocea) based on the RPA-CRISPR/Cas12a system
Aquaculture,
Journal Year:
2025,
Volume and Issue:
unknown, P. 742704 - 742704
Published: May 1, 2025
Language: Английский
CRISPR/Cas Technology in Disease Prevention and Control of Aquatic Animals
Reviews in Aquaculture,
Journal Year:
2024,
Volume and Issue:
17(1)
Published: Dec. 8, 2024
ABSTRACT
The
CRISPR/Cas
genome
editing
technology,
with
its
advantages
of
simplicity,
high
efficiency,
and
cost‐effectiveness,
has
become
a
key
tool
for
dissecting
gene
function,
knocking
out
harmful/undesirable
genes,
repairing
defective
genes.
It
also
shown
great
potential
in
the
aquatic
animals
such
as
tilapia,
carp,
salmon,
sea
urchins.
Disease
prevention
control
are
core
areas
animal
research
aquaculture
industry.
Novel
technologies
based
on
CRISPR/Cas,
rapid
diagnostic
kits
diseases
species‐specific
drugs
against
parasites,
have
been
developed
disease
diagnosis,
treatment,
animals.
Based
our
work
these
fields,
this
review
summarizes
relevant
new
latest
progress,
aiming
to
provide
readers
quick
comprehensive
understanding
application
status
future
trends
technology
reference
related
fields.
Language: Английский
CRISPR-based diagnostic in aquaculture: Application, Potential/Opportunities, and Limitations
SSRN Electronic Journal,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
Aquaculture
is
an
expanding
industry
encompassing
both
inland
and
sea-based
operations,
driven
by
the
increasing
demand
for
aquaculture
products.
However,
occurrence
of
various
diseases
in
industries
leads
to
substantial
economic
losses
amounting
billions
dollars
annually.
Rapid
diagnosis
crucial
early
surveillance
treatment
diseases.
Although
nucleic
acid-based
diagnostic
methods
are
currently
utilized
aquaculture,
they
suffer
from
prolonged
turnaround
times
a
lack
efficient
techniques,
which
hinders
management
aquatic
In
contrast,
CRISPR-based
have
emerged
as
promising
alternatives
due
their
portability,
sensitivity,
rapidity,
cost-effectiveness,
demonstrated
human
animal
diagnostics.
Consequently,
researchers
dedicated
efforts
recent
years
develop
assays
diagnosing
diseases,
capitalizing
on
diverse
CRISPR-Cas
systems,
each
with
own
strengths
limitations.
This
review
aims
consolidate
summarize
characteristics,
applicability,
limitations
different
developed
specifically
aquaculture.
Language: Английский
Implementación de la tecnología CRISPR-Cas para el tratamiento de enfermedades en la acuicultura de peces. Revisión sistemática
Hechos Microbiológicos,
Journal Year:
2024,
Volume and Issue:
15(1)
Published: Jan. 1, 2024
Introducción:
Aproximadamente
el
50%
de
la
pérdida
en
producción
acuícola
destinada
al
consumo
humano
se
debe
a
enfermedades
causadas
por
patógenos.
Muchos
tratamientos
tradicionales
para
estas
están
prohibidos
debido
sus
efectos
negativos
medio
ambiente,
salud
del
consumidor
o
crecimiento
los
peces.
La
modificación
genética,
particular
mediante
tecnología
CRISPR-Cas,
ofrece
una
solución
prometedora.
Esta
permite
realizar
modificaciones
genéticas
y
detectar
secuencias
específicas
con
precisión
superior
otros
métodos.
Objetivo:
Describir
las
aplicaciones
CRISPR-Cas
tratamiento
peces
industria
acuicultura.
Metodología:
Se
realizó
búsqueda
bibliográfica
implementando
términos
aquaculture,
CRISPR,
Systems,
diseases,
fish
disease,
treatment,
treatments,
control
únicamente
artículos
originales
publicados
entre
2014
2024
inglés,
ScienceDirect,
Scopus
Google
Scholar.
Resultados:
Los
resultados
muestran
que
China
Estados
Unidos
son
líderes
este
campo.
patógenos
más
frecuentes
estudios
virales,
estudiados
Ictalurus
punctatus
Salmo
salar.
aplicación
relevante
es
diagnóstico
virales
bacterianas
fluorescencia.
está
consolidando
como
herramienta
crucial
temprano
Su
uso
expansión
abordar
tanto
dificultad
su
control.
Conclusiones:
requieren
investigaciones
confirmar
efectividad
sostenibilidad
alternativa
viable