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subclonal

Subclonal refers to a population of cells within a larger clone that carries distinct genetic or epigenetic alterations not shared by all members of the original clone. In cancer biology, a tumor is often composed of a dominant clone and one or more subclonal lineages that arise through successive mutations, chromosomal rearrangements, or epigenetic changes. These subclones coexist within the same tissue, competing for resources and influencing disease progression.

The presence of subclonal diversity is a hallmark of intratumoral heterogeneity. It can drive treatment resistance,

Subclonal architecture is typically reconstructed using high‑throughput sequencing data. Methods such as deep targeted sequencing, whole‑exome

Beyond oncology, the term is used in immunology to describe B‑cell or T‑cell populations derived from a

as
therapies
targeting
mutations
present
in
the
dominant
clone
may
spare
subclones
that
lack
those
alterations,
allowing
them
to
expand
under
selective
pressure.
Conversely,
subclonal
mutations
may
provide
biomarkers
for
early
detection
of
relapse
or
for
tailoring
combination
therapies.
or
whole‑genome
sequencing,
and
single‑cell
genomics
are
employed
to
estimate
variant
allele
frequencies,
infer
phylogenetic
relationships,
and
quantify
the
proportion
of
each
subclone.
Computational
tools
like
PyClone,
SciClone,
and
PhyloWGS
model
the
clonal
hierarchy
and
estimate
cancer
cell
fractions.
common
ancestor
but
diversified
by
somatic
hypermutation
or
antigen-driven
selection.
In
evolutionary
biology,
subclonal
lineages
can
illustrate
microevolutionary
processes
within
microbial
communities
or
plant
populations.
Understanding
subclonal
dynamics
enhances
insights
into
disease
evolution,
therapeutic
response,
and
the
broader
mechanisms
of
biological
diversification.