Agronomy,
Год журнала:
2021,
Номер
11(5), С. 824 - 824
Опубликована: Апрель 22, 2021
Metabolomics
is
a
technology
that
generates
large
amounts
of
data
and
contributes
to
obtaining
wide
integral
explanations
the
biochemical
state
living
organism.
Plants
are
continuously
affected
by
abiotic
stresses
such
as
water
scarcity,
high
temperatures
salinity,
metabolomics
has
potential
for
elucidating
response-to-stress
mechanisms
develop
resistance
strategies
in
cultivars.
This
review
describes
characteristics
each
stages
metabolomic
studies
plants
role
characterization
response
various
plant
species
stresses.
Angewandte Chemie International Edition,
Год журнала:
2018,
Номер
58(4), С. 968 - 994
Опубликована: Июль 12, 2018
Metabolomics
deals
with
the
whole
ensemble
of
metabolites
(the
metabolome).
As
one
-omic
sciences,
it
relates
to
biology,
physiology,
pathology
and
medicine;
but
are
chemical
entities,
small
organic
molecules
or
inorganic
ions.
Therefore,
their
proper
identification
quantitation
in
complex
biological
matrices
requires
a
solid
ground.
With
respect
for
example,
DNA,
much
more
prone
oxidation
enzymatic
degradation:
we
can
reconstruct
large
parts
mammoth's
genome
from
specimen,
unable
do
same
its
metabolome,
which
was
probably
largely
degraded
few
hours
after
animal's
death.
Thus,
need
standard
operating
procedures,
good
skills
sample
preparation
storage
subsequent
analysis,
accurate
analytical
broad
knowledge
chemometrics
advanced
statistical
tools,
at
least
two
metabolomic
techniques,
MS
NMR.
All
these
traditionally
cultivated
by
chemists.
Here
focus
on
metabolomics
standpoint
restrict
ourselves
From
point
view,
NMR
has
pros
cons
does
provide
peculiar
holistic
perspective
that
may
speak
future
adoption
as
population-wide
health
screening
technique.
Proceedings of the National Academy of Sciences,
Год журнала:
2019,
Номер
116(9), С. 3909 - 3918
Опубликована: Фев. 7, 2019
Metabolic
plasticity
enables
cancer
cells
to
switch
their
metabolism
phenotypes
between
glycolysis
and
oxidative
phosphorylation
(OXPHOS)
during
tumorigenesis
metastasis.
However,
it
is
still
largely
unknown
how
orchestrate
gene
regulation
balance
OXPHOS
activities.
Previously,
by
modeling
the
of
we
have
reported
that
can
acquire
a
stable
hybrid
metabolic
state
in
which
both
be
used.
Here,
comprehensively
characterize
activity,
establish
theoretical
framework
coupling
with
pathways.
Our
results
demonstrate
direct
association
activities
AMPK
HIF-1,
master
regulators
glycolysis,
respectively,
three
major
pathways:
glucose
oxidation,
fatty
acid
oxidation.
model
further
characterizes
metabolically
inactive
where
low
activity
OXPHOS.
We
verify
prediction
using
metabolomics
transcriptomics
data
from
paired
tumor
adjacent
benign
tissue
samples
cohort
breast
patients
RNA-sequencing
The
Cancer
Genome
Atlas.
validate
vitro
studies
aggressive
triple-negative
(TNBC)
cells.
experimental
confirm
TNBC
maintain
phenotype
targeting
necessary
eliminate
plasticity.
In
summary,
our
work
serves
as
platform
symmetrically
study
tuning
modulates
pathway
vice
versa.
Metabolites,
Год журнала:
2020,
Номер
10(12), С. 505 - 505
Опубликована: Дек. 10, 2020
Adverse
environmental
conditions
due
to
climate
change,
combined
with
declining
soil
fertility,
threaten
food
security.
Modern
agriculture
is
facing
a
pressing
situation
where
novel
strategies
must
be
developed
for
sustainable
production
and
Biostimulants,
conceptually
defined
as
non-nutrient
substances
or
microorganisms
the
ability
promote
plant
growth
health,
represent
potential
provide
economically
favorable
solutions
that
could
introduce
approaches
improve
agricultural
practices
crop
productivity.
Current
knowledge
phenotypic
observations
suggest
biostimulants
potentially
function
in
regulating
modifying
physiological
processes
plants
growth,
alleviate
stresses,
quality
yield.
However,
successfully
develop
biostimulant-based
formulations
programs,
understanding
biostimulant-plant
interactions,
at
molecular,
cellular
levels,
prerequisite.
Metabolomics,
multidisciplinary
omics
science,
offers
unique
opportunities
predictively
decode
mode
of
action
on
plants,
identify
signatory
markers
biostimulant
action.
Thus,
this
review
intends
highlight
current
scientific
efforts
gaps
research
industry,
context
promotion
stress
responses.
The
firstly
revisits
models
have
been
elucidated
describe
molecular
machinery
employed
by
coping
stresses.
Furthermore,
definitions,
claims
applications
are
pointed
out,
also
indicating
lack
biological
basis
accurately
postulate
mechanisms
biostimulants.
articulates
briefly
key
aspects
metabolomics
workflow
(potential)
science
industry.
Scientific Reports,
Год журнала:
2020,
Номер
10(1)
Опубликована: Янв. 16, 2020
Correlation
coefficients
are
abundantly
used
in
the
life
sciences.
Their
use
can
be
limited
to
simple
exploratory
analysis
or
construct
association
networks
for
visualization
but
they
also
basic
ingredients
sophisticated
multivariate
data
methods.
It
is
therefore
important
have
reliable
estimates
correlation
coefficients.
In
modern
sciences,
comprehensive
measurement
techniques
measure
metabolites,
proteins,
gene-expressions
and
other
types
of
data.
All
these
errors.
Whereas
old
days,
with
measurements,
errors
were
simple,
that
not
case
anymore.
Errors
heterogeneous,
non-constant
independent.
This
hampers
quality
estimated
seriously.
We
will
discuss
different
as
present
science
show
theory,
simulations
real-life
how
affect
briefly
ways
improve
estimation
such
The
interaction
disorder
between
gut
microbiota
and
its
host
has
been
documented
in
different
non-communicable
diseases
(NCDs)
such
as
metabolic
syndrome,
neurodegenerative
disease,
autoimmune
disease.
majority
of
these
altered
interactions
arise
through
cross-talk
immune
system,
inducing
a
low-grade
chronic
inflammation
that
characterizes
all
NCDs.
In
this
review,
we
discuss
the
contribution
bacterial
metabolites
to
signaling
pathways
involved
We
then
review
recent
advances
aid
rationally
design
microbial
therapeutics.
A
deeper
understanding
intersections
metabolism
using
metabolomics-based
system
biology
platform
promises
reveal
fundamental
mechanisms
drive
predispositions
disease
suggest
new
avenues
use
therapeutic
opportunities
for
NCDs
treatment
prevention.
PLoS Computational Biology,
Год журнала:
2021,
Номер
17(9), С. e1009105 - e1009105
Опубликована: Сен. 7, 2021
Over-representation
analysis
(ORA)
is
one
of
the
commonest
pathway
approaches
used
for
functional
interpretation
metabolomics
datasets.
Despite
widespread
use
ORA
in
metabolomics,
community
lacks
guidelines
detailing
its
best-practice
use.
Many
factors
have
a
pronounced
impact
on
results,
but
to
date
their
effects
received
little
systematic
attention.
Using
five
publicly
available
datasets,
we
demonstrated
that
changes
parameters
such
as
background
set,
differential
metabolite
selection
methods,
and
database
can
result
profoundly
different
results.
The
non-assay-specific
example,
resulted
large
numbers
false-positive
pathways.
Pathway
choice,
evaluated
using
three
most
popular
metabolic
databases
(KEGG,
Reactome,
BioCyc),
led
vastly
results
both
number
function
significantly
enriched
Factors
are
specific
data,
reliability
compound
identification
chemical
bias
analytical
platforms
also
impacted
Simulated
misidentification
rates
low
4%
gain
pathways
loss
truly
significant
across
all
Our
several
practical
implications
users,
well
those
alternative
methods.
We
offer
set
recommendations
alongside
minimal
reporting
guidelines,
first
step
towards
standardisation
metabolomics.
Signal Transduction and Targeted Therapy,
Год журнала:
2023,
Номер
8(1)
Опубликована: Окт. 9, 2023
Abstract
Individual
variability
in
drug
response
(IVDR)
can
be
a
major
cause
of
adverse
reactions
(ADRs)
and
prolonged
therapy,
resulting
substantial
health
economic
burden.
Despite
extensive
research
pharmacogenomics
regarding
the
impact
individual
genetic
background
on
pharmacokinetics
(PK)
pharmacodynamics
(PD),
diversity
explains
only
limited
proportion
IVDR.
The
role
gut
microbiota,
also
known
as
second
genome,
its
metabolites
modulating
therapeutic
outcomes
human
diseases
have
been
highlighted
by
recent
studies.
Consequently,
burgeoning
field
pharmacomicrobiomics
aims
to
explore
correlation
between
microbiota
variation
IVDR
or
ADRs.
This
review
presents
an
up-to-date
overview
intricate
interactions
classical
agents
for
systemic
diseases,
including
cancer,
cardiovascular
(CVDs),
endocrine
others.
We
summarise
how
directly
indirectly,
modify
absorption,
distribution,
metabolism,
excretion
(ADME)
drugs.
Conversely,
drugs
modulate
composition
function
leading
changes
microbial
metabolism
immune
response.
discuss
practical
challenges,
strategies,
opportunities
this
field,
emphasizing
critical
need
develop
innovative
approach
multi-omics,
integrate
various
data
types,
genomic
data,
well
translate
lab
into
clinical
practice.
To
sum
up,
represents
promising
avenue
address
improve
patient
outcomes,
further
is
imperative
unlock
full
potential
precision
medicine.
Metabolomics
is
the
comprehensive
study
of
a
multitude
small
molecules
to
gain
insight
into
an
organism's
metabolism.
The
research
field
dynamic
and
expanding
with
applications
across
biomedical,
biotechnological,
many
other
applied
biological
domains.
Its
computationally
intensive
nature
has
driven
requirements
for
open
data
formats,
repositories,
analysis
tools.
However,
rapid
progress
resulted
in
mosaic
independent,
sometimes
incompatible,
methods
that
are
difficult
connect
useful
complete
solution.
PhenoMeNal
(Phenome
Metabolome
aNalysis)
advanced
solution
set
up
Infrastructure-as-a-Service
(IaaS)
brings
workflow-oriented,
interoperable
metabolomics
platforms
cloud.
seamlessly
integrates
wide
array
existing
open-source
tools
tested
packaged
as
Docker
containers
through
project's
continuous
integration
process
deployed
based
on
kubernetes
orchestration
framework.
It
also
provides
number
standardized,
automated,
published
workflows
user
interfaces
Galaxy,
Jupyter,
Luigi,
Pachyderm.
constitutes
keystone
cloud
e-infrastructures
available
metabolomics.
unique
setting
easy-to-use
web
can
be
scaled
any
custom
public
private
environment.
By
harmonizing
automating
software
installation
configuration
ready-to-use
scientific
workflow
interfaces,
succeeded
providing
scientists
workflow-driven,
reproducible,
shareable
interfaced
standard
representative
datasets,
versioned,
have
been
reproducibility
interoperability.
elastic
implementation
further
allows
easy
adaptation
infrastructure
application
areas
'omics
