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allopolyploid

An allopolyploid is a polyploid organism whose chromosome sets come from two or more different species. It arises when individuals from distinct species hybridize and the resulting hybrid undergoes chromosome doubling, restoring fertility and enabling proper chromosome pairing during meiosis. The genome typically consists of distinct subgenomes that behave as separate but coexisting chromosome sets, leading to disomic inheritance rather than the random pairing seen in autopolyploids.

Formation many times involves interspecific hybridization followed by genome doubling, which can occur spontaneously or be

Characteristics and consequences include pairing of homologous chromosomes within each subgenome, reduced sterility in the hybrid,

Examples and importance: bread wheat, Triticum aestivum, is an allohexaploid with AABBDD genomes. Brassica napus (canola)

induced
by
chemicals
such
as
colchicine.
The
process
creates
a
new,
stable
lineage
that
combines
genetic
material
from
the
parent
species,
often
facilitating
novel
trait
combinations
and
ecological
divergence.
and
potential
subgenome
dominance
where
one
ancestor’s
genes
are
more
highly
expressed.
Over
time,
duplicate
genes
may
be
retained,
diverge
in
function,
or
become
silenced,
and
epigenetic
changes
can
occur
as
the
genome
stabilizes.
is
an
allotetraploid
with
AACC.
Upland
cotton,
Gossypium
hirsutum,
is
allotetraploid
with
AADD.
Triticale
is
an
allohexaploid
derived
from
wheat
and
rye
with
AABBRR
genomes.
Allopolyploidy
is
a
major
driver
of
plant
speciation,
offering
novel
trait
combinations
and
increased
adaptability,
and
it
has
been
central
to
agricultural
crop
improvement.