Fermentation,
Год журнала:
2023,
Номер
9(11), С. 989 - 989
Опубликована: Ноя. 20, 2023
Lipases
are
enzymes
that
catalyze
the
hydrolysis
of
ester
bonds
triacylglycerols
at
oil–water
interface,
generating
free
fatty
acids,
glycerol,
diacylglycerol,
and
monoacylglycerol,
which
can
be
produced
from
fermentation
agro-industrial
by-products
rich
in
such
as
cupuaçu
fat
cake.
In
this
study,
Yarrowia
lipolytica
IMUFRJ50682
was
used
for
lipase
production
cake
solid-state
(SSF)
associated
with
soybean
meal.
The
2:1
ratio
cake/soybean
meal
increased
activity
Y.
via
SSF
by
approximately
30.3-fold
compared
to
without
supplementation.
optimal
conditions
produce
were
obtained
supplementation
peptone,
urea,
oil
(all
1.5%
w/v),
reaching
values
up
70.6
U
g−1.
These
results
demonstrate
adds
value
by-products.
Furthermore,
proper
processing
contribute
improving
economic
viability
biotechnological
industry
help
prevent
accumulation
waste
environmental
pollution.
ACS Biomaterials Science & Engineering,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 17, 2025
This
study
provides
a
bibliometric
and
bibliographic
review
of
emerging
applications
micro-
nanotechnology
in
treating
ocular
diseases,
with
primary
focus
on
glaucoma.
We
aim
to
identify
key
research
trends
analyze
advancements
devices
drug
delivery
systems
for
treatments.
The
methodology
involved
analyzing
385
documents
indexed
the
Web
Science
using
tools
such
as
VOSviewer
Bibliometrix.
results
show
marked
increase
scientific
output,
highlighting
prominent
authors
institutions,
England
leading
field.
Key
findings
suggest
that
holds
potential
address
limitations
conventional
treatments,
including
low
bioavailability
adverse
side
effects.
Nanoparticles,
nanovesicles,
polymer-based
appear
promising
prolonged
controlled
release,
potentially
offering
enhanced
therapeutic
efficacy.
In
conclusion,
could
transform
disease
treatment,
although
challenges
remain
concerning
biocompatibility
scalability
these
devices.
Further
clinical
studies
are
necessary
establish
innovations
within
context
ophthalmology.
Abstract
This
study
aims
to
explore
technological
advances
and
prospects
in
phenol
treatment
by
providing
a
detailed
bibliometric
survey
of
wastewater
applications,
highlighting
innovative
research.
Using
the
Web
Science
database,
we
identified
79,104
articles
from
2003
2023,
later
refined
1848.
The
keywords
were
used
for
initial
search:
“phenol”,
“wastewater”,
“degradation”,
“treatment”
“removal”.
bibliographic
review
details
occurrence
journals,
authors,
newspapers,
countries,
institutions,
keywords,
highly
cited
articles,
prominent
predominant
research
fields.
In
particular,
field
“Engineering”
was
responsible
32%
published
followed
“Ecology
Environmental
Sciences”
(25%)
“Chemistry”
(12%).
addition,
keyword
analysis
revealed
five
major
groups
clusters
that
indicate
where
is
progressing.
aspect
crucial
understanding
evolution
perspectives
interests
over
time.
Therefore,
future
should
prioritize
feedstock
diversification.
focus
essential
address
significant
challenges,
such
as
production
costs,
stability,
durability
processes.
Graphical
ACS Omega,
Год журнала:
2024,
Номер
9(47), С. 46698 - 46732
Опубликована: Ноя. 14, 2024
Immobilization
of
lipases
by
physical
adsorption
improves
their
stability,
recovery,
and
reusability
in
biotechnological
processes.
The
present
review
provides
an
advanced
bibliometric
analysis
a
comprehensive
overview
research
progress
this
field.
By
searching
Web
Science,
39,575
publications
were
analyzed,
325
relevant
articles
selected.
Key
journals,
countries,
institutions,
authors
identified.
most
cited
focus
on
biofuel
production
industrial
applications.
revealed
four
themes
with
the
biofuel.
method
is
effective
when
appropriate
support
used.
Despite
decrease
patent
applications,
interest
remains
high.
Future
studies
should
optimizing
materials
exploring
new
applications
technique.
detailed
understanding
immobilization
adsorption.
International Journal of Molecular Sciences,
Год журнала:
2024,
Номер
25(16), С. 8616 - 8616
Опубликована: Авг. 7, 2024
The
ever-increasing
presence
of
micropollutants
necessitates
the
development
environmentally
friendly
bioremediation
strategies.
Inspired
by
remarkable
versatility
and
potent
catalytic
activities
microbial
enzymes,
researchers
are
exploring
their
application
as
biocatalysts
for
innovative
environmental
cleanup
solutions.
Microbial
enzymes
offer
substrate
specificity,
biodegradability,
capacity
to
degrade
a
wide
array
pollutants,
positioning
them
powerful
tools
bioremediation.
However,
practical
applications
often
hindered
limitations
in
enzyme
stability
reusability.
Enzyme
immobilization
techniques
have
emerged
transformative
strategies,
enhancing
reusability
anchoring
onto
inert
or
activated
supports.
These
improvements
lead
more
efficient
pollutant
degradation
cost-effective
processes.
This
review
delves
into
diverse
methods,
showcasing
success
degrading
various
including
pharmaceuticals,
dyes,
pesticides,
microplastics,
industrial
chemicals.
By
highlighting
potential
immobilized
biocatalysts,
this
underscores
significance
achieving
cleaner
sustainable
future
through
mitigation
micropollutant
contamination.
Additionally,
research
directions
areas
such
engineering
machine
learning
hold
immense
promise
further
broadening
capabilities
optimizing
cleanup.
