Home

Cvalues

C-values, or genome size, refer to the total amount of DNA contained in a haploid genome (1C). It is commonly expressed in picograms of DNA or in base pairs, with 1 picogram roughly equal to 978 megabase pairs. The 2C value denotes the diploid genome content in somatic cells. C-values provide a comparative measure of genome size across species, but they are not a direct measure of gene content or organismal complexity.

A central feature of C-values is the C-value paradox: across diverse taxa, genome size can vary dramatically

Measuring C-values typically involves direct DNA quantification methods such as flow cytometry, which compares stained DNA

Significance and limitations: C-values are a foundational metric in comparative genomics, evolution, and ecology, helping researchers

without
a
corresponding
difference
in
perceived
complexity
or
number
of
genes.
Some
simple
organisms
or
lineages
have
very
large
genomes,
while
other,
more
complex
organisms
have
much
smaller
ones.
Much
of
the
variation
arises
from
noncoding
DNA,
including
repetitive
sequences
and
transposable
elements,
as
well
as
differences
in
ploidy
levels.
in
sampled
cells
to
a
standard
with
a
known
genome
size,
or
Feulgen
densitometry.
Sequencing
and
assembly-based
estimates
can
approximate
genome
size
but
may
not
capture
organellar
DNA
or
repeat
content
accurately.
Intra-species
and
tissue
differences
can
occur
due
to
endoreduplication
or
varying
tissue
composition,
which
may
affect
measurements.
study
genome
evolution,
polyploidy,
and
the
contribution
of
repetitive
DNA.
However,
they
do
not
necessarily
reflect
gene
count,
regulatory
complexity,
or
organismal
capabilities,
and
measurements
can
be
influenced
by
technical
and
biological
factors.