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karyogamy

Karyogamy is the fusion of two haploid nuclei to form a single diploid nucleus, a central step in sexual reproduction. The term comes from Greek roots meaning “nucleus joining.” It is the nuclear counterpart to plasmogamy, the fusion of cytoplasm, and it typically follows plasmogamy in organisms with sexually dimorphic cells.

In fungi, karyogamy often occurs after a period during which two nuclei coexist in the same cell

In plants and animals, fertilization typically brings together genetic material from two gametes, leading to the

Significance of karyogamy lies in restoring the diploid chromosome number and enabling genetic recombination through meiosis,

in
a
dikaryotic
stage.
Upon
completion
of
karyogamy,
a
diploid
zygotic
nucleus
is
formed
within
the
zygote.
This
diploid
nucleus
then
undergoes
meiosis
(and
often
mitosis)
to
produce
haploid
spores,
which
can
germinate
to
continue
the
life
cycle.
In
other
fungal
lineages,
such
as
basidiomycetes
and
ascomycetes,
karyogamy
occurs
within
specialized
structures
like
basidia
and
asci,
respectively.
formation
of
a
zygote.
The
term
karyogamy
is
sometimes
used
to
describe
the
nuclear
fusion
that
occurs
within
the
fertilized
egg,
after
which
the
zygotic
nucleus
may
enter
mitotic
divisions
and
later,
in
organisms
with
alternating
life
stages,
meiosis
to
restore
haploidy.
which
increases
genetic
diversity.
Disruptions
to
karyogamy
can
prevent
zygote
formation
or
proper
development
of
the
offspring.