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paralogy

Paralogy describes a relationship between genes that originated from duplication within a single genome. Paralogous genes are homologous genes that arose by duplication events and then diverged within the lineage. This is distinct from orthology, where the homologous genes are related by speciation events (one gene in each species).

Gene duplication creates paralogs and provides raw material for evolutionary novelty. Duplications can occur via unequal

Examples of gene families with paralogs include the globin genes (alpha and beta globins and other lineage-specific

Distinguishing paralogs from orthologs is central in comparative genomics. Paralogs are identified through gene trees and

crossing
over,
replication
errors,
retroposition,
or
whole-genome
duplication.
After
duplication,
duplicates
may
acquire
new
functions
(neofunctionalization),
partition
the
ancestral
function
(subfunctionalization),
or
one
copy
may
become
nonfunctional
as
a
pseudogene.
Some
paralogs
are
highly
similar
and
retain
redundancy;
others
diverge
substantially.
duplications),
the
Hox
gene
clusters
in
vertebrates,
and
the
olfactory
receptor
gene
family.
Paralogs
within
a
genome
may
reside
on
different
chromosomes
or
within
the
same
region,
and
their
relationships
are
inferred
through
sequence
similarity,
phylogenetic
analysis,
and
genomic
context.
synteny
analysis;
in-paralogs
are
duplications
after
a
speciation
event,
while
out-paralogs
predate
the
speciation.
Understanding
paralogy
aids
in
functional
annotation
and
understanding
the
evolution
of
gene
families.