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alleler

Alleler, or alleles in English, are alternative forms of a gene occupying the same position, or locus, on homologous chromosomes. In diploid organisms, each individual carries two alleler at a given locus—one from each parent. Alleler differ in DNA sequence and can produce different versions of a gene product, such as a protein with altered function or a distinct regulatory effect.

Alleler arise by mutation and can have different functional consequences. Some alleler are functional; others are

Population genetics studies how allele frequencies change over time. The allele frequency of a variant is the

Examples illustrate allele diversity and inheritance patterns. The ABO blood group system is determined by alleles

Alleler underpin evolution and biodiversity, providing the substrate for adaptation. Mutations continuously create new alleler; natural

nonfunctional
(null
alleles)
or
have
reduced
activity.
Many
are
neutral
with
respect
to
fitness.
An
organism's
phenotype
results
from
the
combination
of
alleler
at
its
loci
(genotype)
and
the
dominance
relationships
among
them.
If
the
two
alleler
at
a
locus
are
identical,
the
organism
is
homozygous;
if
they
differ,
it
is
heterozygous.
Dominant
alleles
may
mask
recessive
ones;
codominant
alleles
each
contribute
to
the
phenotype;
incomplete
dominance
can
yield
an
intermediate
trait.
proportion
of
chromosomes
carrying
that
allele.
In
large,
randomly
mating
populations,
the
Hardy–Weinberg
principle
predicts
genotype
frequencies
from
allele
frequencies
in
the
absence
of
evolutionary
forces
such
as
selection,
drift,
mutation,
or
migration.
IA,
IB,
and
i
at
a
single
locus,
producing
four
phenotypes.
The
sickle-cell
allele
HbS
in
the
HBB
gene
shows
how
allele
variation
can
be
maintained
by
balancing
selection
in
malaria-endemic
regions.
selection,
genetic
drift,
and
gene
flow
alter
their
frequencies.
Modern
genetics
uses
genotyping
and
sequencing
to
identify
and
compare
alleler
across
individuals
and
populations.