International Journal of Biological Macromolecules,
Journal Year:
2023,
Volume and Issue:
242, P. 124968 - 124968
Published: May 20, 2023
Lignin
modifying
enzymes
(LMEs)
have
gained
widespread
recognition
in
depolymerization
of
lignin
polymers
by
oxidative
cleavage.
LMEs
are
a
robust
class
biocatalysts
that
include
peroxidase
(LiP),
manganese
(MnP),
versatile
(VP),
laccase
(LAC),
and
dye-decolorizing
(DyP).
Members
the
family
act
on
phenolic,
non-phenolic
substrates
been
widely
researched
for
valorization
lignin,
cleavage
xenobiotics
phenolics.
implementation
biotechnological
industrial
sectors
has
sparked
significant
attention,
although
its
potential
future
applications
remain
underexploited.
To
understand
mechanism
sustainable
pollution
mitigation,
several
studies
undertaken
to
assess
feasibility
correlating
diverse
pollutants
binding
intermolecular
interactions
at
molecular
level.
However,
further
investigation
is
required
fully
comprehend
underlying
mechanism.
In
this
review
we
presented
key
structural
functional
features
LMEs,
including
computational
aspects,
as
well
advanced
biotechnology
research.
Furthermore,
concluding
remarks
look
ahead,
use
coupled
with
framework,
built
upon
artificial
intelligence
(AI)
machine
learning
(ML),
emphasized
recent
milestone
environmental
Case Studies in Chemical and Environmental Engineering,
Journal Year:
2022,
Volume and Issue:
6, P. 100219 - 100219
Published: May 27, 2022
Emerging
contaminants
(ECs)
are
synthetic
or
naturally
occurring
chemicals
any
microorganisms
that
not
commonly
monitored
in
the
environment
but
have
potential
to
enter
and
cause
known
suspected
adverse
ecological
human
health
effects.
The
issue
of
ECs
persistent
can
disrupt
physiology
target
receptors,
they
recognized
as
Contaminants
emerging
environmental
concerns.
prominent
classes
include
pharmaceuticals
personal
care
products
(PPCPs),
plasticizers,
surfactants,
fire
retardants,
nanomaterials,
pesticides.
Several
been
endocrine
disruptive
compounds
(EDCs)
due
their
deleterious
effects
on
systems
(EDCs).
present
aquatic
resources
a
major
concern
for
safety
concern.
These
contaminations
risen
into
threat
water
distribution
system.
impact
such
medicines,
x-ray
media,
disruptors,
insecticides,
items
has
reported
surface
water,
wastewater,
groundwater
sources
worldwide
recent
years.
Various
techniques
explored
degradation
removal
mitigate
harmful
effect.
Numerous
prior
continuing
investigations
focused
using
variety
treatment
techniques,
including
(1)
physical,
(2)
chemical,
(3)
biological.
However,
experimental
data
is
insufficient
provide
precise
predictions
regarding
mechanistic
fate
across
various
in-practice
systems.
membrane
technology
remove
particles
fine
10
μm
colloidal
particles,
It
be
effectively
eliminated
by
up
99%
through
use
MBR
technologies
reverse
osmosis,
ultrafiltration,
nanofiltration
at
concentrations
5
g/liter.
In
this
paper,
overview,
sources,
application
treatments
based
studies
presented.
Environmental Science & Technology,
Journal Year:
2021,
Volume and Issue:
55(21), P. 14494 - 14514
Published: Oct. 20, 2021
The
presence
of
diverse
pollutants
in
water
has
been
threating
human
health
and
aquatic
ecosystems
on
a
global
scale.
For
more
than
century,
chemical
oxidation
using
strongly
oxidizing
species
was
one
the
most
effective
technologies
to
destruct
ensure
safe
clean
supply.
However,
removal
increasing
amount
with
higher
structural
complexity,
especially
emerging
micropollutants
trace
concentrations
complicated
matrix,
requires
excessive
dosage
oxidant
and/or
energy
input,
resulting
low
cost-effectiveness
possible
secondary
pollution.
Consequently,
it
is
practical
significance
but
scientifically
challenging
achieve
selective
interest
for
decontamination.
Currently,
there
are
variety
examples
concerning
aqueous
systems.
systematic
understanding
relationship
between
origin
selectivity
its
applicable
treatment
scenarios,
as
well
rational
design
catalyst
catalytic
oxidation,
still
lacking.
In
this
critical
review,
we
summarize
state-of-the-art
strategies
decontamination
probe
origins
selectivity,
that
is,
from
reactivity
either
oxidants
or
target
pollutants,
arising
accessibility
via
adsorption
size
exclusion,
due
interfacial
electron
transfer
process
enzymatic
oxidation.
Finally,
challenges
perspectives
briefly
outlined
stimulate
future
discussion
decontamination,
particularly
toward
application
real
scenarios.
Frontiers in Marine Science,
Journal Year:
2023,
Volume and Issue:
10
Published: March 6, 2023
Advancements
in
chemical,
medical,
cosmetic,
and
plastic
producing
industries
have
improved
agricultural
yields,
health
human
life
general.
As
a
negative
consequence,
plethora
of
chemicals
are
intentionally
unintentionally
released
to
terrestrial
aquatic
environments
with
sometimes
devastating
effects
for
entire
ecosystems.
One
mitigation
strategy
counteract
this
pollution
is
bioremediation.
Bioremediation
an
umbrella
term
biologically
mediated
processes
during
which
undesired
compound
transformed,
degraded,
sequestered
and/or
entirely
removed
from
the
ecosystem.
Organisms
across
all
domains
may
mediate
bioremediation;
yet,
fungi
particularly
promising
candidates.
They
possess
metabolic
capabilities
break
down
complex
molecules
make
ultimate
degraders
recalcitrant
organic
matter
nature.
by
fungi,
also
termed
mycoremediation,
has
been
more
frequently
investigated
than
ecosystems,
although
thrive
lacustrine
marine
environments.
Here,
we
focus
on
mycoremediation
emerging
pollutants
In
context,
draw
parallels
between
fungal
taxa,
their
role
mycoremediation.
We
discuss
ability
break-down
(i)
pesticides,
(ii)
pharmaceuticals
personal
care
products,
(iii)
plastics,
both
conventional
types
(iv)
bioplastics,
role,
(v)
heavy
metal
pollution.
Furthermore,
(vi)
possible
strategies
applied
settings
highlight
novel
enzyme
based
strategies.
