Frontiers in Microbiology,
Год журнала:
2022,
Номер
13
Опубликована: Июль 28, 2022
In
industrial
settings
and
processes,
yeasts
may
face
multiple
adverse
environmental
conditions.
These
include
exposure
to
non-optimal
temperatures
or
pH,
osmotic
stress,
deleterious
concentrations
of
diverse
inhibitory
compounds.
toxic
chemicals
result
from
the
desired
accumulation
added-value
bio-products,
yeast
metabolism,
be
present
derive
pre-treatment
feedstocks,
as
in
lignocellulosic
biomass
hydrolysates.
Adaptation
tolerance
industrially
relevant
stress
factors
involve
highly
complex
coordinated
molecular
mechanisms
occurring
cell
with
repercussions
on
performance
economy
bioprocesses,
microbiological
stability
conservation
foods,
beverages,
other
goods.
To
sense,
survive,
adapt
different
stresses,
rely
a
network
signaling
pathways
modulate
global
transcriptional
response
elicit
changes
cell.
cooperate
tightly
regulate
composition,
organization
biophysical
properties
wall.
The
intricacy
underlying
regulatory
networks
reflects
major
role
wall
first
line
defense
against
wide
range
stresses.
However,
involvement
adaptation
stresses
biotechnological
relevance
has
not
received
deserved
attention.
This
article
provides
an
overview
involved
fine-tuning
physicochemical
during
Saccharomyces
cerevisiae
their
implication
tolerance.
available
information
for
non-conventional
species
is
also
included.
non-
have
recently
been
focus
very
active
research
better
explore
control
potential
envisaging
transition
sustainable
circular
bioeconomy.
Journal of Cleaner Production,
Год журнала:
2023,
Номер
402, С. 136815 - 136815
Опубликована: Март 16, 2023
Industries
are
working
to
minimize
their
reliance
on
petrochemicals
and
petroleum-based
industrial
components
replace
them
with
biobased,
sustainable,
environmentally
friendly
alternatives
due
the
global
warming
emergency
caused
by
uncontrolled
production
of
greenhouse
gases.
The
agricultural
waste
provides
large
volumes
lignocellulosic
biomass,
a
sustainable
resource
material
develop
wide
portfolio
bioproducts.
Recent
developments
in
integrated
biorefineries
have
enhanced
utilization
lignocellulose
generate
biofuels,
platform
chemicals,
resins,
bioplastics,
additives,
other
biobased
materials
for
variety
applications.
Here
this
review,
we
summarized
recent
advancements
processing
biomass
from
waste.
Additionally,
review
thoroughly
discussed
technological
various
constituents
biocomposites,
bioplastics.
Finally,
an
assessment
currently
existing
literature
gaps
prospective
future
perspectives
development
has
been
conducted.
Recycling,
Год журнала:
2023,
Номер
8(4), С. 61 - 61
Опубликована: Июль 20, 2023
The
sustainable
management
of
lignocellulosic
agricultural
waste
has
gained
significant
attention
due
to
its
potential
for
the
production
valuable
products.
This
paper
provides
an
extensive
overview
valorization
strategies
employed
convert
into
economically
and
environmentally
manuscript
examines
conversion
routes
products
from
waste.
These
include
biofuels,
such
as
bioethanol
biodiesel,
via
biochemical
thermochemical
processes.
Additionally,
synthesis
platform
chemicals,
furfural,
levulinic
acid,
xylose,
is
explored,
which
serve
building
blocks
manufacturing
polymers,
resins,
other
high-value
chemicals.
Moreover,
this
highlights
in
generating
bio-based
materials,
including
composites,
plastics,
adsorbents.
utilization
feedstock
enzymes,
organic
acids,
bioactive
compounds
also
discussed.
challenges
opportunities
associated
with
are
addressed,
encompassing
technological,
economic,
environmental
aspects.
Overall,
a
comprehensive
waste,
highlighting
significance
transitioning
towards
circular
bioeconomy.
insights
presented
here
aim
inspire
further
research
development
field
valorization,
fostering
innovative
approaches
promoting
abundant
resource
Frontiers in Chemistry,
Год журнала:
2022,
Номер
10
Опубликована: Март 4, 2022
The
second
(lignocellulosic
biomass
and
industrial
wastes)
third
(algal
biomass)
generation
feedstocks
gained
substantial
interest
as
a
source
of
various
value-added
chemicals,
produced
by
fermentation.
Lactic
acid
is
valuable
platform
chemical
with
both
traditional
newer
applications
in
many
industries.
successful
fractionation,
separation,
hydrolysis
lignocellulosic
result
sugars'
rich
raw
material
for
lactic
This
review
paper
aims
to
summarise
the
investigations
progress
last
five
years
production
from
inexpensive
renewable
resources.
Different
aspects
are
discussed
–
type
materials,
pretreatment
detoxification
methods,
acid-producers
(bacteria,
fungi,
yeats),
use
genetically
manipulated
microorganisms,
separation
techniques,
different
approaches
process
organization,
well
main
challenges,
possible
solutions
optimization.
