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Qbanding

Qbanding, also written as Q-banding, is a chromosome banding technique used in cytogenetics to produce a distinctive pattern of alternating light and dark bands on metaphase chromosomes. The method relies on quinacrine mustard, a fluorescent dye that binds preferentially to AT-rich regions of DNA. When stained chromosomes are viewed under ultraviolet illumination, the AT-rich regions fluoresce as bright bands (the Q bands) while GC-rich regions appear relatively dim. As a result, the Q-band pattern highlights chromosomal structure and is approximately the complement of the patterns produced by G-banding.

In practice, cells are cultured and arrested in metaphase, and chromosomes are spread on slides. The slides

Qbanding was one of the earliest fluorescence-based chromosome banding methods and played an important role in

See also: G-banding, R-banding, C-banding, NOR-banding.

are
treated
with
quinacrine
and
examined
with
a
fluorescence
microscope,
typically
equipped
with
UV
excitation.
Photomicrographs
are
captured
to
establish
a
karyotype.
The
technique
is
sensitive
to
staining
conditions
and
fluorescence
stability,
which
can
affect
band
sharpness
and
reproducibility.
the
development
of
karyotyping.
It
is
complementary
to
other
banding
techniques;
because
Q
bands
correspond
to
AT-rich
regions,
the
pattern
is
roughly
inverse
to
many
light/dark
patterns
seen
with
G-banding.
In
modern
practice,
Q-banding
has
largely
been
supplanted
by
more
reproducible
and
higher-resolution
methods
such
as
G-banding
and
fluorescence
in
situ
hybridization
(FISH),
though
it
remains
of
historical
interest
and
may
still
be
used
in
some
teaching
laboratories
or
specialized
applications.