Food Chemistry,
Год журнала:
2024,
Номер
458, С. 140286 - 140286
Опубликована: Июль 2, 2024
Lichens
have
great
potential
as
food,
functional
food
additives
or
flavourings.
The
presence
of
specific
substances
with
multiple
biological
activities
is
one
the
characteristics
lichens.
However,
research
on
lichens
a
source
additive
limited.
present
study
simulated,
for
first
time,
bioaccessibility
active
compounds
from
6
lichen
species
in
simulated
gastric
and
intestinal
conditions.
An
vitro
digestion
showed
that
had
different
stability
during
digestion.
It
was
found
application
some
metabolic
modulators
significantly
altered
accumulation
metabolites
most
species.
In
addition,
demonstrated
antimicrobial
activity
tested
extracts
well
14
isolated
metabolites.
These
multi-directional
studies
demonstrate
terms
their
use
additives.
Metabolites,
Год журнала:
2023,
Номер
13(8), С. 895 - 895
Опубликована: Июль 28, 2023
Secondary
metabolites
are
gaining
an
increasing
importance
in
various
industries,
such
as
pharmaceuticals,
dyes,
and
food,
is
the
need
for
reliable
efficient
methods
of
procuring
these
compounds.
To
develop
sustainable
cost-effective
approaches,
a
comprehensive
understanding
biosynthetic
pathways
factors
influencing
secondary
metabolite
production
essential.
These
compounds
unique
type
natural
product
which
recognizes
oxidative
damage
caused
by
stresses,
thereby
activating
defence
mechanism
plants.
Various
have
been
developed
to
enhance
The
elicitor-induced
vitro
culture
technique
considered
tool
studying
improving
In
present
review,
we
documented
role
under
diverse
environmental
stresses.
Furthermore,
practical
strategy
obtaining
consistent
abundant
via
elicitation
agents
used
culturing
techniques
also
mentioned.
By
elucidating
intricate
interplay
regulatory
factors,
this
review
paves
way
future
advancements
high-value
metabolites.
Journal of Agriculture and Food Research,
Год журнала:
2023,
Номер
14, С. 100702 - 100702
Опубликована: Июнь 25, 2023
The
biosynthesis
of
secondary
metabolites
(SMs)
in
plants
occurs
various
forms
and
amounts,
their
use
modern
medicine
is
widespread.
Half
the
human
necessities
are
derived
from
plant-based
commodities,
including
fuel,
cosmetics,
pharmaceuticals,
building
materials,
food
essentials.
Many
medicinal
plant
species
utilized
for
therapeutic
properties
SMs
content,
but
amount
naturally
occurring
limited.
Therefore,
conventional
novel
strategies
employed
to
enhance
production
bioactive
components
plants.
Traditional
methods
cost-effective,
easy,
faster,
produce
fewer
metabolites,
while
techniques
such
as
metabolic
pathways
engineering,
genome
editing,
transformation,
biotechnology-based
substitutions,
synthetic
biology
more
expensive
offer
valuable
tools
augmenting
content.
Optimizing
culture
media
signalling
involved
presents
an
exciting
opportunity
increase
quantity
compounds
present.
This
review
summarizes
different
cultivation
used
class
produced
highlights
benefits
boosting
synthesizing
using
techniques.
Plant and Cell Physiology,
Год журнала:
2024,
Номер
65(7), С. 1087 - 1102
Опубликована: Март 29, 2024
Abstract
Plants
are
sessile
organisms
that
often
subjected
to
a
multitude
of
environmental
stresses,
with
the
occurrence
these
events
being
further
intensified
by
global
climate
change.
Crop
species
therefore
require
specific
adaptations
tolerate
climatic
variability
for
sustainable
food
production.
Plant
stress
results
in
excess
accumulation
reactive
oxygen
leading
oxidative
and
loss
cellular
redox
balance
plant
cells.
Moreover,
enhancement
oxidation
as
well
signals
has
been
recently
recognized
crucial
players
growth
regulation
under
conditions.
Multiple
roles
crop
production
have
documented,
major
emphasis
focused
on
key
redox-regulated
proteins
non-protein
molecules,
such
NAD(P)H,
glutathione,
peroxiredoxins,
glutaredoxins,
ascorbate,
thioredoxins
reduced
ferredoxin.
These
widely
implicated
(epi)genetic
factors
modulating
health
plants,
an
agricultural
context.
In
this
regard,
priming
employment
chemical
biological
agents
emerged
fascinating
approach
improve
tolerance
against
various
abiotic
biotic
stressors.
Priming
plants
is
physiological
process,
where
prior
exposure
stressors
induces
state
heightened
alertness,
enabling
more
rapid
effective
defense
response
upon
subsequent
encounters
similar
challenges.
reported
play
role
modulation
homeostasis,
maximizing
productivity
conditions
thus
achieving
yield
security.
By
taking
into
consideration,
present
review
up-to-date
critical
evaluation
promising
technologies
their
components
toward
enhanced
extreme
unfavorable
The
challenges
opportunities
discussed,
aim
encouraging
future
research
field
application
management
crops
including
horticultural
species.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Апрель 2, 2024
Benzylisoquinoline
alkaloids
(BIAs)
produced
in
opium
poppy
have
been
evidenced
to
heal
patients
suffering
from
various
diseases.
They,
therefore,
hold
an
integral
position
the
herbal
drug
industry.
Despite
adoption
of
several
approaches
for
large-scale
production
BIAs,
remains
only
platform
this
purpose.
The
disadvantage
associated
with
producing
BIAs
plant
is
their
small
quantity.
Thus,
recruiting
strategies
that
boost
levels
deemed
necessary.
All
methods
which
employed
so
far
are
just
able
enhance
a
maximum
two
BIAs.
if
these
utilized,
sizable
amount
time
and
budget
must
be
spent
on
synthesis
all
Hence,
exploitation
increase
content
at
same
more
commercially
effective
time-saving,
avoiding
laborious
step
resolving
biosynthetic
pathway
each
compound.
Exposure
biotic
abiotic
elicitors,
development
synthetic
auto-tetraploid,
overexpression
WRKY
transcription
factor,
formation
artificial
metabolon,
suppression
gene
shikimate
miRNA
turn
into
versatile
bioreactor
concurrent
massive
last
three
never
applied
BIA
pathways.
