Frontiers in Sustainable Food Systems,
Journal Year:
2020,
Volume and Issue:
4
Published: Nov. 10, 2020
Polyphenols
are
natural
high-valued
secondary
metabolites
of
plant
that
demonstrate
strong
antimicrobial
potential
as
preservatives
besides
their
well-established
health
promoting
benefits.
This
review
highlights
the
challenges,
novel
strategies
to
achieve
industrial
production
polyphenols
and
safe
use
alternative
preservative.
Since
extraction
presents
considerable
limitations
high
cost
due
excessive
energy
solvent
requirements,
climate
long
growth
cycles,
microbial
biosynthesis
using
highly
advanced
omics
techniques
metabolic
engineering
tools
could
provide
superior
for
commercial
environmentally
sustainable
cost-effective
high-value
in
a
short
time.
In
spite
many
beneficial
effects,
some
polyphenol
compounds
at
dosage
found
be
pro-oxidant
or
mutagenic
with
toxicity.
Due
controversial
findings
from
sub-chronic
oral
toxicity
studies,
more
detailed
safety
efficacy
studies
needed
substantiate
findings.
Furthermore,
extensive
research
efforts
required
ascertain
optimal
various
foods
avoid
harmful
side
effects.
Metabolic Engineering,
Journal Year:
2020,
Volume and Issue:
63, P. 34 - 60
Published: Nov. 20, 2020
Machine
learning
provides
researchers
a
unique
opportunity
to
make
metabolic
engineering
more
predictable.
In
this
review,
we
offer
an
introduction
discipline
in
terms
that
are
relatable
engineers,
as
well
providing
in-depth
illustrative
examples
leveraging
omics
data
and
improving
production.
We
also
include
practical
advice
for
the
practitioner
of
management,
algorithm
libraries,
computational
resources,
important
non-technical
issues.
A
variety
applications
ranging
from
pathway
construction
optimization,
genetic
editing
cell
factory
testing,
production
scale-up
discussed.
Moreover,
promising
relationship
between
machine
mechanistic
models
is
thoroughly
reviewed.
Finally,
future
perspectives
most
directions
combination
disciplines
examined.
Applied Microbiology and Biotechnology,
Journal Year:
2020,
Volume and Issue:
104(18), P. 7745 - 7766
Published: Aug. 13, 2020
Abstract
Pseudomonas
putida
is
a
Gram-negative,
rod-shaped
bacterium
that
can
be
encountered
in
diverse
ecological
habitats.
This
ubiquity
traced
to
its
remarkably
versatile
metabolism,
adapted
withstand
physicochemical
stress,
and
the
capacity
thrive
harsh
environments.
Owing
these
characteristics,
there
growing
interest
this
microbe
for
industrial
use,
corresponding
research
has
made
rapid
progress
recent
years.
Hereby,
strong
drivers
are
exploitation
of
cheap
renewable
feedstocks
waste
streams
produce
value-added
chemicals
steady
genetic
strain
engineering
systems
biology
understanding
bacterium.
Here,
we
summarize
advances
prospects
engineering,
synthetic
biology,
applications
P.
as
cell
factory.
Key
points
•
global
Novel
tools
enable
system-wide
streamlined
genomic
engineering.
Applications
range
from
bioeconomy
biosynthetic
drugs.
JACS Au,
Journal Year:
2022,
Volume and Issue:
2(8), P. 1781 - 1799
Published: Aug. 4, 2022
The
sustainable
production
of
chemicals
from
renewable,
nonedible
biomass
has
emerged
as
an
essential
alternative
to
address
pressing
environmental
issues
arising
our
heavy
dependence
on
fossil
resources.
Microbial
cell
factories
are
engineered
microorganisms
harboring
biosynthetic
pathways
streamlined
produce
interests
renewable
carbon
sources.
for
the
can
be
defined
into
three
categories
with
reference
microbial
host
selected
engineering:
native-existing
pathways,
nonnative-existing
and
nonnative-created
pathways.
Recent
trends
in
leveraging
discovering
designing
de
novo
(as
pathways)
discussed
this
Perspective.
We
highlight
key
approaches
successful
case
studies
that
exemplify
these
concepts.
Once
designed
constructed
factory,
systems
metabolic
engineering
strategies
used
improve
performance
strain
meet
industrial
standards.
In
second
part
Perspective,
current
design
tools
eye
toward
future.
Finally,
we
survey
future
challenges
need
addressed
advance
chemicals.
Chemical Engineering and Processing - Process Intensification,
Journal Year:
2022,
Volume and Issue:
172, P. 108793 - 108793
Published: Jan. 10, 2022
With
the
current
pressing
need
to
rise
ambition
of
net
zero
targets
mitigate
carbon
emissions
and
climate
change
impacts,
sustainable
processing
has
never
been
more
critical.
Bioprocessing
all
desirable
attributes
respond
challenge:
use
cheap,
renewable
resources,
nature-inspired,
highly
selective
biocatalysts
operating
optimally
under
mild
conditions
reduced
energy
consumption/carbon
footprint.
bioprocessing
productivity
being
far
from
ideal
meet
large-scale
for
food,
drugs,
biofuels
bio-based
chemicals,
there
tremendous
interest
late
in
developing
intensified
bioprocesses,
with
significant
advancement
achieved
tailoring
utilising
technologies
toolbox
traditionally
applied
chemical
process
intensification.
This
review
highlights
wide
range
activities
currently
on-going
bioprocess
intensification,
focusing
on
upstream,
bioreactor/fermentation
downstream
separation
steps.
Great
strides
have
made
biocatalyst
engineering
high
density
cell
immobilisation
enhancement,
which,
conjunction
elegant
innovations
such
as
novel
bioreactor
in-situ
product
separations,
are
enabling
bioprocesses
become
competitive
than
ever
before.
The
future
prospects
intensification
promising
but
still
challenges
that
be
overcome
fully
exploit
this
technology.
Marine Drugs,
Journal Year:
2022,
Volume and Issue:
20(5), P. 285 - 285
Published: April 24, 2022
Recently,
microalgal
biotechnology
has
received
increasing
interests
in
producing
valuable,
sustainable
and
environmentally
friendly
bioproducts.
The
development
of
economically
viable
production
processes
entails
resolving
certain
limitations
biotechnology,
fast
evolving
genetic
engineering
technologies
have
emerged
as
new
tools
to
overcome
these
limitations.
This
review
provides
a
synopsis
recent
progress,
current
trends
emerging
approaches
microalgae
for
commercial
applications,
including
pharmaceutical
protein,
lipid,
carotenoids
biohydrogen,
etc.
Photochemistry
improvement
CO2
sequestration
by
via
were
also
discussed
since
subjects
are
closely
entangled
with
the
above
mentioned
products.
Although
is
proved
be
very
effective
boosting
performance
laboratory
conditions,
only
limited
success
was
achieved
applicable
industry
so
far.
With
advancing
rapidly
intensive
investigations
going
on,
more
bioproducts
expected
produced
genetically
modified
even
much
prospected.
