Water Research,
Journal Year:
2022,
Volume and Issue:
227, P. 119340 - 119340
Published: Nov. 8, 2022
Glycerol
is
abundantly
present
in
wastewater
from
industries
such
as
biodiesel
production
facilities.
also
a
potential
carbon
source
for
microbes
that
are
involved
nutrient
removal
processes.
The
conversion
of
glycerol
biological
phosphorus
aerobic
granular
sludge
processes
has
not
been
explored
to
date.
current
study
describes
utilization
by
and
enhanced
(EBPR).
Robust
granules
with
good
capabilities
were
formed
an
sequencing
batch
reactor
fed
glycerol.
interaction
between
the
fermentative
product
uptake
polyphosphate
accumulating
organisms
(PAO)
was
studied
using
stoichiometric
microbial
community
analysis.
Metagenomic,
metaproteomic
microscopic
analysis
identified
dominated
Actinobacteria
(Tessaracoccus
Micropruina)
typical
PAO
known
Ca.
Accumulibacter.
facilitator
(glpF)
kinase
(glpK),
two
proteins
transport
into
cellular
metabolism,
only
observed
genome
Actinobacteria.
anaerobic
appeared
be
combination
substrate
fermentation
uptake-type
reaction.
Initially,
led
mainly
1,3-propanediol
(1,3-PDO)
which
taken
up
under
conditions.
Despite
1,3-PDO
stable
granulation
observed.
Over
time,
decreased
complete
COD
results
demonstrate
glycerol-containing
can
effectively
treated
process
form
food
chain
glycerol-based
EBPR
Catalysts,
Journal Year:
2021,
Volume and Issue:
11(10), P. 1222 - 1222
Published: Oct. 11, 2021
The
market
for
industrial
enzymes
has
witnessed
constant
growth,
which
is
currently
around
7%
a
year,
projected
to
reach
$10.5
billion
in
2024.
Lipases
are
hydrolase
naturally
responsible
triglyceride
hydrolysis.
They
the
most
expansively
used
biocatalysts,
with
wide
application
broad
range
of
industries.
However,
these
biocatalytic
processes
usually
limited
by
low
stability
enzyme,
half-life
time,
and
required
solve
problems
complex
lack
feasibility
at
scale.
Emerging
technologies
create
new
materials
enzyme
carriers
sophisticate
well-known
immobilization
principles
produce
more
robust,
eco-friendlier,
cheaper
biocatalysts.
Therefore,
this
review
discusses
trending
studies
applications
protocols
lipase
immobilization,
analyzing
their
advantages
disadvantages.
Finally,
it
summarizes
current
challenges
potential
alternatives
lipases
level.
Molecules,
Journal Year:
2022,
Volume and Issue:
27(14), P. 4529 - 4529
Published: July 15, 2022
Enzymatic
biocatalysis
is
a
sustainable
technology.
Enzymes
are
versatile
and
highly
efficient
biocatalysts,
have
been
widely
employed
due
to
their
biodegradable
nature.
However,
because
the
three-dimensional
structure
of
these
enzymes
predominantly
maintained
by
weaker
non-covalent
interactions,
external
conditions,
such
as
temperature
pH
variations,
well
presence
chemical
compounds,
can
modify
or
even
neutralize
biological
activity.
The
enablement
this
category
processes
result
several
advances
in
areas
molecular
biology
biotechnology
achieved
over
past
two
decades.
In
scenario,
metal–organic
frameworks
(MOFs)
highlighted
supports
for
enzyme
immobilization.
They
be
used
‘house’
specific
enzyme,
providing
it
with
protection
from
environmental
influences.
This
review
discusses
MOFs
structures;
emphasizes
synthesis
strategies,
properties,
applications;
explores
existing
methods
using
immobilization
various
enzymes;
lists
possible
modifications
combinations
other
compounds
formulate
ideal
given
application.
Fermentation,
Journal Year:
2023,
Volume and Issue:
9(7), P. 581 - 581
Published: June 21, 2023
This
paper
aims
to
present
the
advances
related
biotechnological
application
of
lipases
Y.
lipolytica,
presenting
their
properties
and
more
efficient
ways
use
them
in
different
industrial
applications.
Waste
treatment
bioremediation
highlight
recent
studies
interest
large-scale
applications
food
sector
biofuel
production.
The
USA
China,
two
major
world
powers
industy,
are
utmost
importance
search
for
improvement
development
a
controlled
system
production
significant
number
lipase
from
lipolytica.
