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merozoites

Merozoites are a life-cycle stage of certain apicomplexan parasites, most notably Plasmodium species that cause malaria. They are produced by schizogony within infected hepatocytes or erythrocytes and are released when the schizont ruptures. Merozoites are the stage that invades new host cells, initiating a new round of asexual replication in the vertebrate host.

In malaria, merozoites released from liver schizonts invade red blood cells, entering as ring-stage parasites that

Structure and invasion: Merozoites possess an apical complex with secretory organelles (micronemes and rhoptries). They display

Clinical relevance: Merozoites are central to malaria pathogenesis and are key targets for vaccines and drugs.

mature
into
trophozoites
and
eventually
schizonts
within
the
erythrocyte.
When
these
schizonts
rupture,
dozens
of
new
merozoites
are
released
to
invade
additional
RBCs,
sustaining
the
cycle
and
contributing
to
hemolysis
and
clinical
symptoms.
A
portion
of
infection
cycles
can
produce
sexual
forms,
gametocytes,
which
are
taken
up
by
mosquitoes
to
continue
transmission.
surface
antigens
and
invasion
ligands
that
interact
with
erythrocyte
receptors;
in
Plasmodium
falciparum,
essential
interactions
include
PfRh5
with
basigin
and
various
EBA
and
Rh
ligand
families
mediating
alternative
invasion
routes.
Entry
involves
formation
of
a
moving
junction
and
parasite
motility
powered
by
an
actin–myosin
system,
followed
by
establishment
of
the
parasitophorous
vacuole
and
development
to
the
ring
stage.
Vaccine
candidates
such
as
merozoite
surface
proteins
(for
example
MSP-1)
and
AMA-1
aim
to
block
invasion.
Antimalarial
strategies
often
target
invasion
or
intra-erythrocytic
replication,
and
ongoing
research
seeks
to
overcome
parasite
diversity
in
invasion
pathways.