Artificial intelligence for life sciences: A comprehensive guide and future trends
Ming Luo,
No information about this author
Wenyu Yang,
No information about this author
Long Bai
No information about this author
et al.
The Innovation Life,
Journal Year:
2024,
Volume and Issue:
unknown, P. 100105 - 100105
Published: Jan. 1, 2024
<p>Artificial
intelligence
has
had
a
profound
impact
on
life
sciences.
This
review
discusses
the
application,
challenges,
and
future
development
directions
of
artificial
in
various
branches
sciences,
including
zoology,
plant
science,
microbiology,
biochemistry,
molecular
biology,
cell
developmental
genetics,
neuroscience,
psychology,
pharmacology,
clinical
medicine,
biomaterials,
ecology,
environmental
science.
It
elaborates
important
roles
aspects
such
as
behavior
monitoring,
population
dynamic
prediction,
microorganism
identification,
disease
detection.
At
same
time,
it
points
out
challenges
faced
by
application
data
quality,
black-box
problems,
ethical
concerns.
The
are
prospected
from
technological
innovation
interdisciplinary
cooperation.
integration
Bio-Technologies
(BT)
Information-Technologies
(IT)
will
transform
biomedical
research
into
AI
for
Science
paradigm.</p>
Language: Английский
Trace Element Exposure during Pregnancy Has a Persistent Influence on Perinatal Gut Microbiota in Mother–Infant Dyads
Environmental Science & Technology,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 27, 2025
Trace
elements
have
been
recognized
as
the
modifiers
of
gut
microbiota.
However,
population-based
evidence
about
their
effects
on
maternal
microbiota
dynamics,
well
intergenerational
impacts
neonatal
microbiota,
has
lacking.
We
examined
longitudinal
data
from
mother-infant
dyads
and
demonstrated
that
trace
element
exposure
played
a
pivotal
role
in
shaping
composition
similarity
Specifically,
serum
levels
cobalt
(Co),
molybdenum
(Mo),
rubidium
(Rb)
were
identified
to
cause
further
fluctuation
shift
Antibiotic
usage
shortly
before
or
delivery
day,
zinc
(Zn)
exposure,
affected
within
dyads.
Rb
an
effect
meconium
Bifidobacterium
abundance
by
altering
its
gut.
Notably,
this
was
strengthened
vaginal
group
without
antibiotic
usage,
while
it
attenuated
c-section
group.
Our
results
suggest
persistent
influence
perinatal
which
offers
novel
insights
into
promoting
mother
infant
health.
Language: Английский
In vivo detection of endogenous toxic phenolic compounds of intestine
Wenyu Jin,
No information about this author
Jiaxin Guo,
No information about this author
Rongkang Tang
No information about this author
et al.
Journal of Hazardous Materials,
Journal Year:
2024,
Volume and Issue:
478, P. 135526 - 135526
Published: Aug. 14, 2024
Language: Английский
Harnessing gut microbiota for longevity: Insights into mechanisms and genetic manipulation
iMetaOmics.,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 2, 2024
Abstract
The
gut
microbiota
is
pivotal
in
maintaining
health,
with
most
microorganisms
being
beneficial,
except
for
a
few
pathogens.
Emerging
evidence
suggests
link
between
the
microbiome
and
aging,
hinting
at
its
potential
role
longevity.
However,
understanding
relationship
challenging
due
to
microbiota's
complexity.
This
perspective
summarizes
mechanisms
by
which
microbes
regulate
host
lifespan
explores
genetic
manipulation
strategies
promote
healthy
aging
elderly.
Language: Английский