Unveiling the Ocean's Arsenal: Successful Integration of Marine Metabolites into Disease Management
UTTAR PRADESH JOURNAL OF ZOOLOGY,
Journal Year:
2024,
Volume and Issue:
45(13), P. 170 - 188
Published: June 10, 2024
The
growing
problem
of
antibiotic
resistance
calls
for
a
paradigm
shift
in
medication
discovery.
Fortunately,
the
enormous
oceans,
home
to
an
incredible
diversity
life,
provide
viable
solution:
marine
metabolites.
These
unusual
chemicals
have
potential
treating
wide
range
diseases.
This
present
study
investigates
great
using
these
marine-derived
gems
disease
management
techniques.
Despite
difficulty
procuring
and
isolating
organisms,
discovering
most
effective
metabolites,
traversing
lengthy
research
pipelines,
rewards
are
apparent.
To
demonstrate
power
resources,
paper
examines
successful
case
studies.
Each
delves
deeply
into
single
metabolite,
including
its
source
organism,
it
targets,
precise
mechanism
by
which
metabolite
disrupts
process.
We'll
look
at
results
clinical
trials
that
examined
efficacy
safety
medications,
eventually
exposing
real-world
influence
on
patient
outcomes
after
incorporating
them
treatment
plans.
Examining
cases
provides
useful
insights
resources
producing
novel
opening
path
further
discovery
innovation
battle
against
Language: Английский
Gut microbiome composition likely affects the growth of Trachinotus ovatus by influencing the host's metabolism
Chen‐Xu Wu,
No information about this author
Bao-Suo Liu,
No information about this author
Hua‐Yang Guo
No information about this author
et al.
Aquaculture International,
Journal Year:
2025,
Volume and Issue:
33(3)
Published: Feb. 10, 2025
Language: Английский
A review on green-lipped mussel, Perna canaliculus immunology: the drivers, virulence factors, advances, and applications
New Zealand Journal of Marine and Freshwater Research,
Journal Year:
2023,
Volume and Issue:
58(3), P. 319 - 363
Published: Oct. 25, 2023
The
endemic,
green-lipped
mussel
(Perna
canaliculus),
trademarked
as
Greenshell™
mussel,
contributes
most
to
the
New
Zealand
aquaculture
industry
based
on
tonnage
and
export
value.
Research
immunity
is
motivated
greatly
by
economical
biosecurity
necessities.
Indeed,
threatened
pathogenic
micro-organisms
environmental
stressors.
As
such
there
a
need
understand
mechanisms
that
drive
immune
responses
associated
interactions
with
environment.
Specifically,
this
review
(1)
analyses
existing
immunological
studies
conducted
P.
canaliculus,
(2)
evaluates
literature
pertaining
at
cellular
humoral
levels,
(3)
identifies
discusses
pathogens
are
relevant
(4)
focuses
virulent
factors
employed
likely
induce
diseases,
(5)
provides
comprehensive
analysis
of
response
mussels
various
stressors,
(6)
explores
omics
applications
future
perspectives
in
immunology.
Finally,
highlights
strategies
from
research,
gene
rearrangement,
probiotics,
immunostimulants,
selective
breeding,
promising
enhance
health
resilience
aquaculture.
By
exploring
these
findings
their
practical
applications,
sustainable
aquaculture,
improving
productivity
disease
management
industry.
Language: Английский