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Embryogenesis

Embryogenesis is the process by which a zygote develops into a multicellular embryo, marking the early stages of development in animals and the formation of a seed embryo in plants. It includes fertilization, rapid cell division, patterning, and cell differentiation that establish the body plan.

In animals, embryogenesis begins with fertilization, followed by cleavage divisions that produce a multicellular embryo. The

In plants, zygotic embryogenesis occurs within the ovule after fertilization and leads to a seed embryo. The

Embryogenesis is central to developmental biology and evolution. It provides a framework for understanding how early

resulting
morula
hollows
out
to
form
a
blastula,
which
contains
a
cavity
called
the
blastocoel.
Gastrulation
rearranges
cells
to
form
three
germ
layers—ectoderm,
mesoderm,
and
endoderm—giving
rise
to
all
tissues
and
organs.
Subsequent
steps
such
as
neurulation
and
organogenesis
further
shape
the
embryo,
with
development
controlled
by
intricate
signaling
networks
and
gene
regulation.
Timing
and
specific
events
vary
among
species,
but
the
general
sequence
of
cleavage,
pattern
formation,
and
tissue
differentiation
is
conserved.
embryo
progresses
through
stages
such
as
globular,
heart,
and
torpedo
forms
before
maturing.
Plants
also
exhibit
somatic
embryogenesis,
where
somatic
(non-reproductive)
cells
reprogram
to
form
embryos
in
culture,
often
induced
by
plant
hormones
like
auxin.
Somatic
embryogenesis
is
exploited
for
clonal
propagation
and
genetic
engineering.
cellular
decisions
translate
into
complex
body
plans,
and
disruptions
in
embryogenesis
can
result
in
congenital
defects
in
animals
or
seed
abortion
in
plants.