Effect of Chitosan/jojoba oil/ZnO nanocomposite Capsules Applications on Some Chemical Properties of Polluted Soils
Egyptian Journal of Soil Science,
Год журнала:
2024,
Номер
64(2), С. 673 - 698
Опубликована: Март 9, 2024
Using
chitosan/jojoba
oil
and
oil/ZnO
nanocomposite
capsules,
this
study
looked
at
how
to
get
rid
of
Fe2+
Ni2+
ions
from
soil
in
areas
with
high
levels
heavy
metals
like
ions,
which
pose
environmental
risks
the
ecosystem.
The
created
adsorbents
were
characterized
using
scanning
electron
microscopy
(SEM),
Fourier
transform
infrared
(FTIR),
particle
size
measurements
transmission
(TEM).
A
batch
experiment
was
performed
determine
effects
contact
time,
adsorbate
concentration,
temperature,
solution
pH.
At
pH
3.3
5.3,
composite
materials
demonstrated
adsorption
efficiencies
90%
for
69.8%
aqueous
solutions.
According
isotherm
investigations,
polymer
nanocomposites
satisfy
Langmuir
Freundlich
models.
But
model
more
accurately
experimental
data.
results
suggested
that
capsules
serve
as
practical
removing
These
can
be
utilized
fertilizers,
especially
soils
contaminated
Fe
Ni,
while
providing
Mallow
plant
(Corchorus
olitorius)
nutrients
Zn.
Язык: Английский
Role of diet in the development of oxidative stress
Elsevier eBooks,
Год журнала:
2024,
Номер
unknown, С. 43 - 60
Опубликована: Янв. 1, 2024
Язык: Английский
Protective effect of ginseng seed oil nanoemulsion against human coronavirus OC43 through modulation of ABCG transporters
Journal of Functional Foods,
Год журнала:
2024,
Номер
117, С. 106240 - 106240
Опубликована: Май 20, 2024
Recent
studies
have
highlighted
the
potential
of
unsaturated
fatty
acids
in
natural
oils
to
influence
virus
replication.
This
study
extracted
ginseng
seed
oil
(GSO)
and
evaluated
its
physiochemical
parameters,
lipid
class,
oxidation
stability.
GSO
was
then
synthesized
into
an
oil/water
nanoemulsion
(NE)
through
optimized
formulation,
time,
temperature,
storage
conditions.
GSO-NE
showed
no
cytotoxicity
up
5
µg/mL
but
effectively
inhibited
HCoV-OC43
replication
suppressed
proinflammatory
biomarkers
infected
cells.
RNA
sequencing
revealed
significant
alterations
gene
expression
profile
by
treatment,
particularly
implicating
ABC
transporters
signaling
pathway.
Notably,
downregulated
ABCG
subfamily
membrane
proteins,
crucial
for
regulation
virus-infected
The
downregulation
these
genes
(ABCG1,
ABCG2,
ABCG4,
ABCG5/8)
reversed
GSO-NE,
as
demonstrated
qRT-PCR.
Furthermore,
ABCG1
ABCG5/8
confirmed
using
immunoblotting
techniques.
These
findings
suggest
a
promising
avenue
future
research
or
therapeutic
applications.
Язык: Английский