The Open Biotechnology Journal,
Journal Year:
2018,
Volume and Issue:
12(1), P. 219 - 228
Published: Sept. 28, 2018
Modern
life
is
characterized
by
physical
inactivity
and
poor
food
choices,
which
often
a
prerequisite
for
unhealthy
weight
gain
overweight/obesity.
These
factors
unlock
the
emergence
of
number
diseases
including
diabetes,
cardiovascular
problems,
different
types
cancer,
etc.
The
pursuit
scientists
to
seek
strategies
prevent,
relieve
cure
patient
leads
usage
natural
compounds
potential
beneficial
effect.
Polyphenols
are
large
group
naturally
occurring
secondary
metabolites
mainly
found
in
plants
beverages.
presence
these
seems
decrease
manifestation
miscellaneous
disease-causing
symptoms.
purpose
this
review
synthesize
information
about
polyphenols
their
controlling
obesity
diabetes.
considered
as
health-beneficial
sources
thus
could
be
involved
novel
preventing
diabetes
complications.
Frontiers in Microbiology,
Journal Year:
2023,
Volume and Issue:
14
Published: July 24, 2023
The
increasing
rate
of
industrialization,
anthropogenic,
and
geological
activities
have
expedited
the
release
heavy
metals
(HMs)
at
higher
concentration
in
environment.
HM
contamination
resulting
due
to
its
persistent
nature,
injudicious
use
poses
a
potential
threat
by
causing
metal
toxicities
humans
animals
as
well
severe
damage
aquatic
organisms.
Bioremediation
is
an
emerging
reliable
solution
for
mitigation
these
contaminants
using
rhizospheric
microorganisms
environmentally
safe
manner.
strategies
are
based
on
exploiting
microbial
metabolism
various
approaches
developed
plant
growth
promoting
bacteria
(PGPB)
minimize
toxicity
optimum
levels
environmental
clean-up.
Rhizospheric
employed
significant
plants
soil
contaminated
with
HM.
Exploitation
possessing
plant-beneficial
traits
detoxifying
property
economical
promising
approach
bioremediation
Microbial
cells
exhibit
different
mechanisms
resistance
such
active
transport,
extra
cellular
barrier,
extracellular
intracellular
sequestration,
reduction
Tolerance
may
be
chromosomal
or
plasmid
originated.
Proteins
MerT
MerA
mer
operon
czcCBA,
ArsR,
ArsA,
ArsD,
ArsB,
ArsC
genes
responsible
detoxification
bacterial
cell.
This
review
gives
insights
about
removal
from
polluted
areas.
In
addition,
it
also
deep
mechanism
action
expressed
detoxification.
dual-purpose
biological
agent
enhancement
remediation
site
most
future
prospect
this
article.
Agronomy,
Journal Year:
2023,
Volume and Issue:
13(6), P. 1600 - 1600
Published: June 13, 2023
The
agricultural
sector
is
a
vital
source
of
human
well-being
that
provides
the
necessities
daily
life.
A
variety
farming
systems
are
utilized
in
agriculture,
such
as
wide
range
tillage
options,
no-till,
agroforestry,
precision
farming,
organic
cover
cropping,
crop
rotations,
etc.
Each
these
has
unique
challenges,
and
nanotechnology
successfully
improved
on
many
them.
Agricultural
applications
include
nanofertilizers,
nanopesticides,
nanosensors,
nanobiotechnology,
nanoremediation.
This
study
focuses
application
nano-farming
technologies
to
different
systems.
Suggested
practices
nano
improvement
soil
quality,
nano-protection
under
biotic
stress,
nanoremediation
polluted
water
environments,
nanomanagement
agro-wastes,
nano-agrochemicals,
nano-precision
nanobiotechnology
for
modern
farming.
review
also
addresses
expected
problems
may
occur
due
over
nanomaterials
systems,
nanopollution
nanotoxicity
agroecosystem
compartments.
Several
dimensions
emphasized
this
study,
green
energy,
sustainable
development,
circular
bioeconomy,
land
biodegradation,
pollution,
one
health
approach,
essential
global
goals
development.
Nanofarming
presents
both
benefits
obstacles
exact
balance
between
challenges
needs
more
study.
Progress in Materials Science,
Journal Year:
2024,
Volume and Issue:
144, P. 101289 - 101289
Published: March 28, 2024
This
comprehensive
review
explores
the
potential
of
tailored
carbon
materials
(TCM)
for
efficient
photocatalytic
degradation
polyaromatic
hydrocarbons
(PAHs),
which
are
persistent
and
toxic
organic
pollutants
posing
significant
environmental
challenges.
The
unique
structure
properties
TCM
including
graphene
nanotubes
to
activated
dots,
have
projected
them
as
next-generation
technological
innovation.
A
careful
critical
discussion
state-of-the-art
research
sheds
light
on
their
effectiveness
in
catalyzing
breakdown
PAHs,
projects
suitable
management
environment.
Beyond
this
viewpoint,
article
expands
scope
1)
biomedical
healthcare,
2)
energy
storage
conversion,
3)
advanced
electronics.
challenges,
opportunities,
future
perspectives
related
role
applications,
inspiring
further
research,
innovation
photo-induced
techniques
also
carefully
discussed
article.
focused
serves
a
valuable
resource
researchers
industrialists
interested
harnessing
capabilities
carbon-based
sustainable
PAHs
other
pollutants.
It
addresses
pressing
need
effective
remediation
pollution
control
strategies.
