Chemical Engineering Journal,
Год журнала:
2023,
Номер
474, С. 145625 - 145625
Опубликована: Авг. 26, 2023
The
escalating
challenge
of
waste
disposal
and
the
potential
threat
to
global
energy
supply
have
sparked
renewed
interest
in
repurposing
materials
for
production
sustainable
renewable
fuels.
In
line
with
this
objective,
there
has
been
a
growing
focus
on
biodiesel
from
oleaginous
yeast
through
valorization
waste.
While
numerous
reports
published
subject,
only
limited
number
studies
provide
comprehensive
overview
recent
advancements.
To
address
gap
economic
viability
challenges
associated
yeast-derived
production,
present
review
aims
highlight
opportunities
offered
by
various
recalcitrant
wastes
as
feedstock
cultivation.
also
delves
into
extensive
knowledge
about
metabolic
pathways
that
facilitate
conversion
different
single-cell
oil
(SCO),
which
not
extensively
covered
single
platform
before.
Moreover,
most
promising
species
are
described,
taking
consideration
aspects
sustainability
overall
process.
Furthermore,
emphasizes
application
omics
techniques
advance
bioconversion
lipids
purpose
commercialization.
summary,
study
contributes
expanding
our
current
understanding
topic
facilitates
future
upscaling
commercialization
derived
yeasts.
Journal of Hazardous Materials Advances,
Год журнала:
2024,
Номер
14, С. 100425 - 100425
Опубликована: Март 28, 2024
The
current
study
comprehensively
reviews
the
ecological
niche
and
pathogenicity
shift
in
freshwater
microbial
community
response
to
stress
induced
by
a
high
pollution
load.
provides
unique
understanding
of
how
change
oxygen
level
tends
affect
survival
aquatic
biota
delving
into
an
increase
pollutant
load
affects
stability.
review
indicated
that
loads
alter
balance
resources
such
as
organic
matter,
dissolved
gases,
light
penetration,
essential
nutrients.
This
causes
dynamics
species-dependent
microorganisms
environments.
also
alteration
genome
microorganisms,
leading
development
antibiotic
resistance
genes
thereby
increasing
microorganisms.
dynamic
created
lowers
natural
defence
strategies
environment,
efficacy
pathogens
infest
respective
host.
A
detailed
mechanisms
involved
exotoxins
production
interaction
with
will
give
important
insight
effect
exotoxin.
is
importance
both
environmental
medical
interests.
because
not
only
detrimental
organisms
but
resists
improperly
treated
drinking
water.
Such
water
could
retrogress
wellness
quality
life
when
used
continuously.
An
extensive
on
specific
pollutants
cause
microbiota
provide
impact
stability
environment.
Plant Stress,
Год журнала:
2023,
Номер
11, С. 100334 - 100334
Опубликована: Дек. 25, 2023
Biotic
stress
affects
economically
important
crop
species
and
leads
to
quality
yield
losses.
Plants
exhibit
the
ability
of
responding
pathogen
attack
by
synthesizing
compounds
which
either
inhibition
or
reduction
disease
incidence.
live
in
close
association
with
microbial
communities.
Microbes
their
metabolites
impact
health
plants
supplying
mineral
nutrients,
hormonal
modulation
protection
from
pathogenic
organisms.
Induced
systemic
response
is
one
major
mechanisms
employed
microbes
biocontrol.
Beneficial
release
certain
as
elicitors
rhizospheric
region
are
perceived
plant
roots
signals
that
increase
defense
resistance
against
phytopathogens.
The
phytohormones
such
ethylene,
jasmonic
acid,
salicylic
acid
involved
regulation
induced
responses.
present
review
highlights
negative
biotic
on
how
further
discussing
role
response,
molecular
draws
attention
scientific
community
explore
new
control
alternatives.
Chemical Engineering Journal,
Год журнала:
2023,
Номер
474, С. 145625 - 145625
Опубликована: Авг. 26, 2023
The
escalating
challenge
of
waste
disposal
and
the
potential
threat
to
global
energy
supply
have
sparked
renewed
interest
in
repurposing
materials
for
production
sustainable
renewable
fuels.
In
line
with
this
objective,
there
has
been
a
growing
focus
on
biodiesel
from
oleaginous
yeast
through
valorization
waste.
While
numerous
reports
published
subject,
only
limited
number
studies
provide
comprehensive
overview
recent
advancements.
To
address
gap
economic
viability
challenges
associated
yeast-derived
production,
present
review
aims
highlight
opportunities
offered
by
various
recalcitrant
wastes
as
feedstock
cultivation.
also
delves
into
extensive
knowledge
about
metabolic
pathways
that
facilitate
conversion
different
single-cell
oil
(SCO),
which
not
extensively
covered
single
platform
before.
Moreover,
most
promising
species
are
described,
taking
consideration
aspects
sustainability
overall
process.
Furthermore,
emphasizes
application
omics
techniques
advance
bioconversion
lipids
purpose
commercialization.
summary,
study
contributes
expanding
our
current
understanding
topic
facilitates
future
upscaling
commercialization
derived
yeasts.
