Critical Reviews in Food Science and Nutrition,
Journal Year:
2023,
Volume and Issue:
64(29), P. 10772 - 10788
Published: July 21, 2023
The
aim
of
this
review
was
to
evaluate
the
feasibility
treating
sleep
disorders
using
novel
gut
microbiota
intervention
strategies.
Multiple
factors
can
cause
disorders,
including
an
imbalance
in
microbiota.
Studies
microbiome-gut-brain
axis
have
revealed
bidirectional
communication
between
central
nervous
system
and
microbes,
providing
a
more
comprehensive
understanding
mood
behavioral
regulatory
patterns.
Changes
its
metabolites
stimulate
endocrine,
nervous,
immune
systems,
which
regulate
release
neurotransmitters
alter
activity
system,
ultimately
leading
disorders.
Here,
we
main
affecting
sleep,
discuss
possible
pathways
molecular
mechanisms
interaction
microbiota,
compare
common
strategies
aimed
at
improving
physiology.
Food Frontiers,
Journal Year:
2023,
Volume and Issue:
4(1), P. 47 - 59
Published: Jan. 5, 2023
Abstract
Biological
rhythm
is
a
natural
physiological
phenomenon
of
the
human
body,
which
regulated
by
biological
system,
including
sleep
cycle,
body
temperature
fluctuation,
endocrine
level,
metabolism,
and
so
on.
Sleep
disturbance
one
main
manifestations
circadian
disorder,
has
serious
impact
on
people's
work
quality
life.
Studies
have
shown
that
gut
microbiota
rhythms
can
interact
through
brain–gut
pathway.
Tea
polyphenols
effectively
modulate
composition
intestinal
microbiota.
The
interaction
between
suggests
intervention
with
tea
possible
way
for
improving
sleep.
Therefore,
investigating
regulation
mechanism
mediated
microbiota,
we
shed
new
light
relationship
metabolic
disturbances,
as
well
beneficial
effect
improving.
Microorganisms,
Journal Year:
2023,
Volume and Issue:
11(2), P. 416 - 416
Published: Feb. 7, 2023
The
constant
increase
in
temperatures
under
global
warming
has
led
to
a
prolonged
aestivation
period
for
Apostichopus
japonicus,
resulting
considerable
losses
production
and
economic
benefits.
However,
the
specific
mechanism
of
not
been
fully
elucidated.
In
this
study,
we
first
tried
illustrate
biological
mechanisms
from
perspective
gut
microbiota
metabolites.
Significant
differences
were
found
aestivating
adult
A.
japonicus
(AAJSD
group)
compared
with
nonaestivating
(AAJRT
young
(YAJRT
YAJSD
groups)
based
on
16S
rRNA
gene
high-throughput
sequencing
analysis.
abundances
Desulfobacterota,
Myxococcota,
Bdellovibrionota,
Firmicutes
(4
phyla)
AAJSD
group
significantly
increased.
Moreover,
levels
Pseudoalteromonas,
Fusibacter,
Labilibacter,
Litorilituus,
Flammeovirga,
Polaribacter,
Ferrimonas,
PB19,
Blfdi19
genera
higher
than
other
three
groups.
Further
analysis
LDA
effect
size
showed
that
species
significant
variation
abundance
group,
including
phylum
Abilibacter,
might
be
important
biomarkers
japonicus.
addition,
results
metabolomics
there
distinct
metabolic
pathways,
namely
biosynthesis
secondary
metabolites,
tryptophan
metabolism,
sesquiterpenoid
triterpenoid
Notably,
5-hydroxytryptophan
was
upregulated
metabolism
pathway.
Blfdi19,
PB19
high
positively
correlated
metabolite
5-HTP.
These
findings
suggest
may
potential
associations
among
microbiota,
This
work
provide
new
further
understanding
Critical Reviews in Food Science and Nutrition,
Journal Year:
2023,
Volume and Issue:
64(29), P. 10772 - 10788
Published: July 21, 2023
The
aim
of
this
review
was
to
evaluate
the
feasibility
treating
sleep
disorders
using
novel
gut
microbiota
intervention
strategies.
Multiple
factors
can
cause
disorders,
including
an
imbalance
in
microbiota.
Studies
microbiome-gut-brain
axis
have
revealed
bidirectional
communication
between
central
nervous
system
and
microbes,
providing
a
more
comprehensive
understanding
mood
behavioral
regulatory
patterns.
Changes
its
metabolites
stimulate
endocrine,
nervous,
immune
systems,
which
regulate
release
neurotransmitters
alter
activity
system,
ultimately
leading
disorders.
Here,
we
main
affecting
sleep,
discuss
possible
pathways
molecular
mechanisms
interaction
microbiota,
compare
common
strategies
aimed
at
improving
physiology.
