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selfcompatibility

Self-compatibility is the ability of an organism to fertilize itself or to be fertilized by its own pollen or gametes. In plants, it refers to the capacity of pollen to germinate on the stigma and effect fertilization without requiring pollen from a different individual. It is the opposite of self-incompatibility, which prevents self-fertilization.

In many flowering plants, self-incompatibility is controlled by a genetic recognition system at the S-locus. Self-compatibility

Evolutionarily, self-compatibility enables autonomous reproduction and can facilitate colonization and seed set when pollinators are scarce,

Examples include Arabidopsis thaliana, a model plant that is self-compatible due to nonfunctional SI genes; and

arises
when
these
recognition
pathways
are
broken
by
mutations
in
SI
genes
(for
example
SRK
and
SCR/SP11
in
Brassicaceae)
or
by
other
modifiers,
or
through
polyploidization
or
reduced
expression,
allowing
self-pollen
to
germinate
and
fertilize
ovules.
Some
species
are
self-compatible
by
default
or
have
been
bred
to
be
so
for
agricultural
purposes.
but
it
often
reduces
genetic
diversity
and
can
lead
to
inbreeding
depression.
Many
crop
species
are
self-compatible,
which
aids
unified
offspring
and
reliable
seed
production,
whereas
wild
relatives
may
rely
on
outcrossing
to
maintain
variation.
Selfing
rates
can
vary
across
populations
and
environments.
several
cultivated
crops
such
as
wheat,
rice,
and
tomato,
which
commonly
exhibit
self-compatibility.
See
also
self-incompatibility
and
outcrossing.