Reactions,
Journal Year:
2025,
Volume and Issue:
6(1), P. 11 - 11
Published: Feb. 4, 2025
A
wide
range
of
agro-industrial
waste
has
been
generated
due
to
higher
demands
for
food
and
energy.
New
protocols
its
valorization
are
urgent
strategies
sustainable
development.
In
this
work,
residual
babassu
mesocarp,
a
native
plant
from
the
north
Brazil,
was
used
as
matrix
producing
lipases
through
solid-state
fermentation
(SSF)
by
actinobacterial
strains.
Initially,
121
strains
were
screened
rhodamine
B
tributyrin
methods,
where
strain
Streptomyces
spp.
AM9-01
most
promising.
It
submitted
SSF
at
30
°C,
84.8
±
1.5
U·mL−1
hydrolytic
activity
(HA)
found
in
48
h.
Further
studies
pH
7
increased
lipase
production,
achieving
94.6
1.6
HA
12
The
enzymatic
extract
immobilized
Accurel®
MP1000,
biocatalyst
Lip
10
showed
79.9
1.5%
immobilization
efficiency,
4234
24
U·g−1
HA,
retention
55.4%.
Lip10
synthesize
ethyl
oleate,
showing
conversions
over
97%
6
h
reaction,
while
commercial
biocatalysts
TLIM®
N435®
95%
just
8
addition,
operational
stability
eight
consecutive
cycles.
Therefore,
it
demonstrated
that
mesocarp
is
viable
alternative
obtaining
competitive
containing
industrial
applications
actinobacteria,
which
have
few
reports
literature
could
be
potential
biocatalytic
agents.
Biofuels Bioproducts and Biorefining,
Journal Year:
2024,
Volume and Issue:
18(5), P. 1676 - 1689
Published: March 15, 2024
Abstract
The
enzyme
market
is
growing
constantly,
and
lipases,
in
their
free
immobilized
forms,
constitute
an
important
part
of
this
market.
This
study
aimed
to
analyze
discuss
current
scenarios
using
data
from
the
literature,
focusing
on
lipases
feasibility
use
form.
It
also
compares
cost
biodiesel
production
two
commercial
lipases:
Eversa
Transform
2.0
(free
lipase)
Novozyme
435
(immobilized
lipase).
results
show
that
European
North
American
markets
are
most
prominent
worldwide,
with
Denmark
USA
as
major
exporters
importers,
respectively.
Lipases
can
be
used
a
wide
variety
fields,
immobilization
brings
many
advantages
class.
Finally,
we
enzymes
biorefinery
food
industries
carry
out
comparative
analysis
produce
lipase.
We
concluded
market,
which
play
role,
extensive,
seem
excellent
biocatalysts
feasible
costs
for
industrial
applications.
Foods,
Journal Year:
2025,
Volume and Issue:
14(3), P. 515 - 515
Published: Feb. 5, 2025
This
review
examines
existing
studies
on
wheat
bran
extracts
(WBEs)
to
provide
an
overview
of
their
functional
properties,
including
antioxidant
and
enzyme-inhibitory
activities,
highlighting
potential
as
natural
alternatives
for
applications
in
both
the
food
cosmetic
industries.
Despite
variations
extraction
techniques,
WBEs
consistently
demonstrated
a
significant
presence
phenolic
compounds
activity.
In
industry,
are
valued
nutritional
richness,
dietary
fiber,
proteins,
bioactive
such
arabinoxylans.
These
improve
texture,
stability,
baking
properties.
Additionally,
have
antimicrobial
potential,
enhanced
product
quality,
serve
preservatives.
Furthermore,
exhibit
inhibitory
effects
against
collagenase
elastase,
suggesting
promising
anti-aging
potential.
cosmetics
sector,
gained
attention
due
emulsion
skin-whitening
effects,
capacities.
They
enhance
stability
emulsions,
skin
hydration,
inhibit
enzymes
linked
aging,
positioning
potentially
synthetic
ingredients
skincare
products.
Our
recent
pilot
study
also
supports
that
defenses
oxidative
stress
rats,
role
interventions.
To
further
elucidate
efficacy
bioavailability
beneficial
applications,
more
comprehensive
vivo
required
future.
Microbial Cell Factories,
Journal Year:
2025,
Volume and Issue:
24(1)
Published: Feb. 12, 2025
Abstract
Lipases
are
biocatalysts
of
significant
industrial
and
medical
relevance,
owing
to
their
ability
hydrolyze
lipid
substrates
catalyze
esterification
reactions
under
mild
conditions.
This
review
provides
a
comprehensive
overview
microbial
lipases’
production,
purification,
biochemical
properties.
It
explores
optimized
fermentation
strategies
enhance
enzyme
yield,
including
using
agro-industrial
residues
as
substrates.
The
challenges
associated
with
purification
techniques
such
ultrafiltration,
chromatography,
precipitation
discussed,
alongside
methods
improve
stability
specificity.
Additionally,
the
addresses
growing
importance
genetic
engineering
approaches
for
improving
lipase
characteristics,
activity,
stability,
this
highlights
diverse
applications
lipases
in
industries,
food,
pharmaceuticals,
biofuels,
cosmetics.
enzyme’s
role
bioremediation,
biodegradation,
synthesis
bioactive
compounds
is
analyzed,
emphasizing
its
potential
sustainable
eco-friendly
technologies.
biocatalytic
properties
make
them
ideal
candidates
green
chemistry
initiatives
these
industries.
In
biomedical
domain,
has
shown
promise
drug
delivery
systems,
anti-obesity
treatments,
diagnostics.
insights
into
strategic
development
microbes
cell
factories
production
lipases,
paving
way
future
research
innovations
technology.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(11), P. 2444 - 2444
Published: May 22, 2024
Lipases,
crucial
catalysts
in
biochemical
synthesis,
find
extensive
applications
across
industries
such
as
food,
medicine,
and
cosmetics.
The
efficiency
of
lipase-catalyzed
reactions
is
significantly
influenced
by
the
choice
solvents.
Polar
organic
solvents
often
result
a
decrease,
or
even
loss,
lipase
activity.
Conversely,
nonpolar
induce
excessive
rigidity
lipases,
thereby
affecting
their
While
advent
new
like
ionic
liquids
deep
eutectic
has
somewhat
improved
activity
stability
it
fails
to
address
fundamental
issue
lipases'
poor
solvent
tolerance.
Hence,
rational
design
lipases
for
enhanced
tolerance
can
boost
industrial
performance.
This
review
provides
comprehensive
summary
structural
characteristics
properties
various
systems
emphasizes
strategies
protein
engineering
non-aqueous
media
improve
study
theoretical
foundation
further
enhancing
lipases.
