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centrifugering

Centrifuging, or centrifugation, is a laboratory technique that uses centrifugal force to separate components of a mixture based on density. By spinning samples at high speed, denser components sediment and form layers or pellets while lighter materials remain in the supernatant.

The key parameter is the relative centrifugal force (RCF), expressed in multiples of gravity (g). RCF depends

Common approaches include differential centrifugation, where successive spins separate components by density, and density gradient centrifugation,

Applications cover biology and medicine: isolation of nuclei, mitochondria, ribosomes, viruses; purification of proteins and nucleic

History: the method emerged in the early 20th century with work by Theodor Svedberg, who developed sedimentation

on
rotor
radius
and
rotation
speed
(rpm)
and
is
calculated
by
RCF
≈
1.118
x
10^-5
x
r
x
(rpm)^2,
with
r
the
distance
from
the
rotor
axis
to
the
sample.
Different
rotors,
such
as
fixed-angle
and
swinging-bucket,
and
instruments
ranging
from
benchtop
microcentrifuges
to
large
ultracentrifuges,
are
used.
Temperature
control
is
common
to
preserve
sample
integrity.
which
uses
sucrose
or
cesium
chloride
gradients
to
achieve
separation
by
buoyant
density
or
sedimentation
coefficient.
Ultracentrifugation
reaches
very
high
g-forces
and
can
resolve
small
macromolecules
and
organelles.
acids;
preparation
of
lipoproteins;
plasma
or
serum
fractionation.
Safety
concerns
include
rotor
balance,
correct
rotor
insertion,
and
avoiding
imbalanced
loads
that
can
cause
mechanical
failure.
techniques
and
the
unit
"Svedberg"
for
sedimentation
coefficients;
the
technique
has
become
a
standard
tool
in
research
and
clinical
laboratories.