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subklonale

Subklonale, often translated as subclonal, refers to genetic or phenotypic variants that exist only in a subset of cells within a larger clonal population. The term is widely used in cancer genomics to describe intratumoral heterogeneity arising from clonal evolution. Subklonal populations emerge after an initial oncogenic event, through accumulating somatic mutations, copy-number alterations, or epigenetic changes, and may coexist with the ancestral clone.

Detection and characterization rely on sequencing data. In bulk tumor sequencing, subclonal mutations exhibit a reduced

The presence of subclones has major implications for disease progression and treatment. Subclonal driver mutations can

Challenges include distinguishing true subclonal variants from sequencing or copy-number artefacts, accounting for tumor purity, and

cancer
cell
fraction
compared
with
clonal
mutations,
allowing
computational
methods
to
infer
the
number
and
composition
of
subclones.
Tools
such
as
PyClone,
SciClone
or
ABSOLUTE
estimate
clonal
architecture,
while
single-cell
sequencing
can
resolve
subclones
directly,
albeit
at
higher
cost
and
complexity.
Spatially
resolved
or
multi-region
sequencing
reveals
how
subclones
are
distributed
within
a
tumor,
and
longitudinal
sampling
can
track
clonal
dynamics
under
therapy.
seed
metastases
or
drive
resistance
to
targeted
therapies;
therapeutic
pressure
often
selects
for
resistant
subclones,
leading
to
relapse.
This
has
spurred
interest
in
monitoring
tumor
evolution
through
liquid
biopsy
and
in
designing
combination
strategies
that
target
multiple
clonal
and
subclonal
populations.
addressing
sampling
bias.
Despite
advances,
subklonal
analysis
remains
an
active
area
in
cancer
genomics,
with
ongoing
research
aiming
to
map
clonal
architectures
more
accurately
and
use
them
to
guide
therapy.