Centrifugation

Isopycnic or isodensity Centrifugation uses what gradient?

Caesium chloride

Difference between isopycnic and zonal centrifugation:

Isopycnic we separate based on equilibrium position not sedimentation coefficient

Swinging bucket:

Longer distance to travel therefore better separation Easier to remove supernatant without disturbing pellet

Describe isopycnic centrifugation:

Mix CsCl and sample - evenly distributed Spin Molecules float or sink to a position where the density of the molecule = density of the caesium chloride gradient So separation is based on density isopycnic = same density

Order of particles:

Small or low density at top ----> Large or high density at the bottom

Zonal or Rate Zonal Centrifugation uses what gradient?

Sucrose

Density materials include:

Sucrose or caesium chloride

What rotor is best for isopycnic ?

Swinging bucket or vertical

What rotor is best for zonal?

Swinging bucket or vertical

Two types of gradient separation:

Zonal or Rate Zonal Centrifugation Isopycnic (isodensity) Centrifugation

Preparative ultracentrigution is used for:

isolation, separation and purification of a desired analyte eg: organelles, proteins and DNA

Describe zonal centrifugation:

Applied to the top of sucrose gradient (of increasing conc down the tube) Gradient provides gravitational stability Species move through and form bands based on their sedimentation coefficients (s)

Two principle uses:

1. Separate solid (pellet) from dissolved solute (supernatant) 2. Separate macromolecules of different densities or mass using a gradient

Uses of isopycnic:

DNA and proteoglycans

Major components of centrifuge:

Electric motor Drive shaft Rotor to hold tubes

What rotor is good for pelleting?

Fixed angle

Two rotor types:

Fixed angle Swinging bucket

The sedimenting force (mω²r) is opposed by:

Flotation force Frictional resistance Diffusion

For a larger molecules or more compact molecules the sedimentation coefficient is:

High

Fixed angle:

Most used Short distance before solid molecules pellet Shorter running time

Caesium chloride gradients are good for:

Nucleic acids

Sucrose gradients are good for:

Organelles

Relative centrifugal force (RCF) formula:

RCF = 1.119 x 10^-5 x (rpm)² x r Reported as number x g example: 1000 x g (indicates 1000 times earths gravitational force)

Sedimentation coefficient (s) =

Rate of movement down the tube/centrifugal force

The centrifugal force generated is proportional to:

Rate of rotation (rpm) and the distance between rotor centre and the centrifuge tube

A nomogram relates:

Rotation rate (rpm) to centrifugal force (xg)

Analytical ultracentifugation involves:

Sample spun and monitored in real time through optical detection system, helps measure physical properties including sedimentation coefficient and mass.

How is a density gradient prepared?

Using non interacting low MW solute placed in tube in a continuously decreasing conc (gradient) Highest conc in bottom, lowest at the top

Sedimenting force on particle formula:

mass x centrifugal field = mω²r where m = mass omega = angular velocity of rotor (radians/sec) radius = distance of particle from angle of rotation

Applications of zonal centrifugation:

mild, non denaturing for organelles, proteins, intact cells, dna

Ultracentrifuge speed:

up to 100,000 rpm (requires a vacuum to eliminate friction)

High speed:

up to 25,000 rpm