Molecules,
Journal Year:
2024,
Volume and Issue:
29(12), P. 2858 - 2858
Published: June 16, 2024
Endophytic
microorganisms
contribute
significantly
to
water
bioremediation
by
enhancing
pollutant
degradation
and
supporting
aquatic
plant
health
resilience
releasing
bioactive
compounds
enzymes.
These
inhabit
tissues
without
causing
disease
or
any
noticeable
symptoms.
Endophytes
effectively
aid
in
eliminating
contaminants
from
systems.
Nanoparticles
serve
as
potent
enhancers
processes,
augmenting
the
efficiency
of
increasing
surface
area
bioavailability,
thereby
improving
efficacy
rate
remediation.
Their
controlled
nutrient
release
ability
stabilize
endophytic
colonization
further
enhanced
sustainable
elimination
contaminated
environments.
The
synergistic
effect
endophytes
nanoparticles
remediation
has
been
widely
explored
recent
studies,
revealing
compelling
outcomes.
Water
pollution
poses
significant
threats
human
health,
ecosystems,
economies;
hence,
sixth
global
goal
Sustainable
Development
Agenda
2030
United
Nations
aims
ensure
availability
management
resources,
recognizing
their
crucial
importance
for
current
future
generations.
Conventional
methods
addressing
exhibit
several
limitations,
including
high
costs,
energy-intensive
production
hazardous
by-products,
insufficient
effectiveness
mitigating
emerging
pollutants
such
pharmaceuticals
microplastics.
Noticeably,
there
is
an
inability
remove
various
types
pollutants,
thus
resulting
incomplete
purification
cycles.
Nanoparticle-enhanced
offers
innovative,
eco-friendly
alternative
degrading
contaminants.
A
growing
body
research
shown
that
integrating
with
a
viable
alternative.
This
review
examines
potential
using
enhance
remediation,
exploring
combined
effects
applications
purification.
paper
also
provides
overview
synthetic
producing
endophyte–nanoparticle
composites
optimize
capabilities
aqueous
final
section
highlights
constraints
related
nanoparticles.
Biological Trace Element Research,
Journal Year:
2023,
Volume and Issue:
202(7), P. 3128 - 3140
Published: Sept. 30, 2023
Abstract
The
widespread
use
and
applications
of
copper
oxide
nanoparticles
(CuO
NPs)
in
daily
life
make
human
exposure
to
these
particles
inevitable.
This
study
was
carried
out
investigate
the
deteriorations
hepatic
serum
biochemical
parameters
induced
by
CuO
NPs
adult
male
mice
potential
ameliorative
effect
l
-arginine
quercetin,
either
alone
or
combination.
Seventy
were
equally
allocated
into
seven
groups:
untreated
group,
-arginine,
NPs,
arginine
+
quercetin
NPs.
Treating
with
resulted
bioaccumulation
liver
consequent
injury
as
typified
elevation
ALT
activity,
reduction
synthetic
ability
indicated
a
decrease
arginase
total
protein
content.
accumulation
increased
oxidative
stress,
lipid
peroxidation,
inflammation,
apoptosis
manifested
malondialdehyde,
nitric
oxide,
tumor
necrosis
factor-α,
expression
level
caspase-3
bax
quantified
qPCR,
activity
caspase-3,
addition
superoxide
dismutase
activity.
It
also
severe
DNA
fragmentation
assessed
Comet
assay
significant
pathological
changes
architecture.
proved
efficiency
mitigating
NPs-induced
sub-chronic
toxicity
due
their
antioxidant,
anti-inflammatory,
anti-apoptotic
properties;
inhibit
damage;
good
metal
chelators.
results
histopathological
analysis
confirmed
molecular
studies.
Antioxidants,
Journal Year:
2023,
Volume and Issue:
12(7), P. 1345 - 1345
Published: June 26, 2023
Zeolitic
imidazolate
framework-8
nanoparticles
(ZIF-8
NPs)
are
typical
metal-organic
framework
(MOF)
materials
and
have
been
intensively
studied
for
their
potential
application
in
drug
delivery
environmental
remediation.
However,
knowledge
of
risks
to
health
the
environment
is
still
limited.
Therefore,
this
study
exposed
female
male
zebrafish
ZIF-8
NPs
(0,
9.0,
90
mg
L-1)
four
days.
Subsequently,
variations
behavioral
traits
brain
oxidative
stress
levels
were
investigated.
The
assay
showed
that
at
mg/L
could
significantly
decrease
locomotor
activity
(i.e.,
hypoactivity)
both
genders.
After
a
ball
falling
stimulation,
(9.0
exhibited
more
freezing
states
temporary
cessations
movement),
males
sensitive
than
females.
Regardless
gender,
exposure
reduced
SOD,
CAT,
GST
activities
zebrafish.
Correlation
analysis
revealed
induced
by
might
play
an
important
role
toxicity
These
findings
highlight
necessity
further
assessment
MOF
aquatic
species
environment.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(12), P. 2858 - 2858
Published: June 16, 2024
Endophytic
microorganisms
contribute
significantly
to
water
bioremediation
by
enhancing
pollutant
degradation
and
supporting
aquatic
plant
health
resilience
releasing
bioactive
compounds
enzymes.
These
inhabit
tissues
without
causing
disease
or
any
noticeable
symptoms.
Endophytes
effectively
aid
in
eliminating
contaminants
from
systems.
Nanoparticles
serve
as
potent
enhancers
processes,
augmenting
the
efficiency
of
increasing
surface
area
bioavailability,
thereby
improving
efficacy
rate
remediation.
Their
controlled
nutrient
release
ability
stabilize
endophytic
colonization
further
enhanced
sustainable
elimination
contaminated
environments.
The
synergistic
effect
endophytes
nanoparticles
remediation
has
been
widely
explored
recent
studies,
revealing
compelling
outcomes.
Water
pollution
poses
significant
threats
human
health,
ecosystems,
economies;
hence,
sixth
global
goal
Sustainable
Development
Agenda
2030
United
Nations
aims
ensure
availability
management
resources,
recognizing
their
crucial
importance
for
current
future
generations.
Conventional
methods
addressing
exhibit
several
limitations,
including
high
costs,
energy-intensive
production
hazardous
by-products,
insufficient
effectiveness
mitigating
emerging
pollutants
such
pharmaceuticals
microplastics.
Noticeably,
there
is
an
inability
remove
various
types
pollutants,
thus
resulting
incomplete
purification
cycles.
Nanoparticle-enhanced
offers
innovative,
eco-friendly
alternative
degrading
contaminants.
A
growing
body
research
shown
that
integrating
with
a
viable
alternative.
This
review
examines
potential
using
enhance
remediation,
exploring
combined
effects
applications
purification.
paper
also
provides
overview
synthetic
producing
endophyte–nanoparticle
composites
optimize
capabilities
aqueous
final
section
highlights
constraints
related
nanoparticles.
