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hets

In genetics, a het (plural hets) refers to a heterozygous genotype at a particular genetic locus, meaning the two alleles carried by an individual are different (for example Aa or Bb). Het status is a locus-specific designation; an organism can be heterozygous at some loci while homozygous at others.

Het is typically determined through genetic testing or sequencing. In reporting, a person or organism is described

Phenotypic effects in heterozygotes depend on the relationship between the alleles. In many cases, a heterozygote

In population genetics, hets contribute to genetic diversity and are described by Hardy-Weinberg expectations under conditions

Note: in genetics, hets refers specifically to heterozygous genotypes; the term is unrelated to other uses of

as
heterozygous
for
a
marker
when
they
possess
one
copy
of
each
allele.
In
diploid
organisms,
each
individual
inherits
one
allele
from
each
parent,
and
het
status
arises
when
the
inherited
alleles
are
not
identical.
Notation
often
marks
the
heterozygous
state
as
het
for
a
given
locus,
alongside
explicit
allele
pairs
(e.g.,
Aa).
displays
the
dominant
phenotype
associated
with
one
allele,
as
in
complete
dominance.
In
other
cases,
dominance
is
incomplete,
producing
an
intermediate
phenotype
(for
example,
pink
flowers
in
Aa
plants).
In
still
other
situations,
both
alleles
are
expressed
(codominance).
Heterozygotes
can
also
have
fitness
advantages
in
certain
environments,
a
phenomenon
known
as
heterozygote
advantage
or
overdominance.
of
random
mating
and
no
selection.
For
a
biallelic
locus
with
allele
frequencies
p
and
q,
the
expected
heterozygote
frequency
is
2pq.
Identifying
hets
is
important
in
breeding,
disease
association
studies,
and
evolutionary
analyses,
as
they
influence
inheritance
patterns
and
genetic
variation
within
populations.
“het”
in
different
contexts.