Food & Function,
Год журнала:
2022,
Номер
13(19), С. 9761 - 9771
Опубликована: Янв. 1, 2022
After
entry
into
the
host
cells,
Salmonella
Typhimurium
creates
a
replication
niche
using
its
Type
III
system
(T3SS).
Hyperoside
targets
InvG
to
inhibit
T3SS
translocation
of
S.
Typhimurium,
thus
inhibiting
in
cells.
Journal of Bacteriology,
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 5, 2024
ABSTRACT
Legionella
pneumophila
is
an
environmentally
acquired
pathogen
that
causes
respiratory
disease
in
humans.
While
the
discovery
of
L.
relatively
recent
compared
to
other
bacterial
pathogens,
over
past
50
years,
has
emerged
as
a
powerhouse
for
studying
host-pathogen
interactions.
In
its
natural
habitat
fresh
water,
interacts
with
diverse
array
protozoan
hosts
and
readily
evolve
expand
their
host
range.
This
led
accumulation
most
extensive
arsenal
secreted
virulence
factors
described
ability
infect
Within
amoebae
human
alveolar
macrophages,
bacteria
replicate
within
specialized
membrane-bound
compartments,
establishing
model
intracellular
vacuolar
pathogens.
contrast,
required
replication
are
specifically
tailored
individual
cells
types,
allowing
adapt
variation
between
disparate
niches.
The
broad
range
this
pathogen,
combined
diversity
genome
plasticity
across
genus,
thus
established
bacterium
archetype
interrogate
evolution,
functional
genomics,
ecology.
review,
we
highlight
features
establish
them
versatile
organism,
new
paradigms
bacteriology
pathogenesis
resulting
from
study
,
well
current
future
questions
will
undoubtedly
our
understanding
complex
intricate
biology
microbial
world.
Food & Function,
Год журнала:
2022,
Номер
13(19), С. 9761 - 9771
Опубликована: Янв. 1, 2022
After
entry
into
the
host
cells,
Salmonella
Typhimurium
creates
a
replication
niche
using
its
Type
III
system
(T3SS).
Hyperoside
targets
InvG
to
inhibit
T3SS
translocation
of
S.
Typhimurium,
thus
inhibiting
in
cells.