L11+12- Methods- protein purification

Question 1

What are th 5 lysis methods to physically disrupt cells?

Answer 1

1. Mechanical- blender, polytron- blades mash up cells
2. Liquid homogenization 0 shove cells through narrow space
3. Sonication- High frequency sound wave shear cells
4. Freeze/thaw- ice crystal formation disrupts cells
5. Manual grinding

Question 2

What is the formular for centrifugal force?

Answer 2

F= - Ω^2 r

Where Ω is the angular velocity (radians/sec)
which is 2πrpm/60 (rpm=revs per min)

r=radius in metres

Question 3

What do you have to do to the value of centrifual force to get it in g?

Answer 3

Divide by 9.8

F/9.8 = xg

Question 4

What usually homogenates first in centrifuge?

Answer 4

Nuclei, then mitochondria

Question 5

What has more effect on centrifugal force? speed or radius?

Answer 5

Speed.

Question 6

How can proteins be precipitated?

Answer 6

Bu adding competing solutes such as ammonium sulphate and polyethylene glycol. (precipitates then removed by centrifugation)

Question 7

What 5 characteristics are competing solutes ideally?

Answer 7

1. Very water soluble
2. non-denaturing proteins
3. easy to remove from protein afterwards
4. not too viscous or dense
5. cheap and pure

Question 8

How can particles be crudely separated on basis of size?

Answer 8

Dialysis. Partially permeavle membrane. Smaller things will leave dialysis bag to water by osmosis.

Question 9

How can particles be finely separated on basis of size?

Answer 9

Size exclusion chromatography.

Small molecules can enter the beads. Larger molecules can’t enter beads so flow down between them.

Question 10

How can we separate on basis of charge?

Answer 10

Ion exchange chromatography. Have negatively charged beads. Postive proteins will bind to the beads. Negative proteins flow through. At the end add increasing concs. of NaCl to out compete the bound proteins and slowly they will come out.

Question 11

How do you use affinity chromatography?

Answer 11

• Immunoaffinity chromatography
• Immobalised ligand chromatography - e.g. substrate analogue of an enzyme
• Addition of affinity tages to recombinant proteins (widely used method)
• Lectin-based affinity chromatography- binds glycosylated proteins. Elution is with sugars such as N-acetyl glucosamine.

Question 12

How does elution happen?

Answer 12

Usually by competition but can also involve disruption of interaction by changing buffer conditions. (eg salt conc, pH)

Question 13

What is SDS used for?

Answer 13

To denature and add uniform charge to proteins so that they move in PAGE relative to size.

Question 14

What is isoelectrofocussing?

Answer 14

Seperation of proteins using high pH (-) at one end and low pH (+) at the other. The protein stops when it reaches its isoelectric point.

Question 15

What can mass spectrometry show us?

Answer 15

Fragment mass/charge ratios. Can use the fragments to work out which proteins are present.

Question 16

What does 2D gel electropheresis do?

Answer 16

Used to separate cellular proteins

Question 17

What are polyclonal antibodies?

Answer 17

Mixed population of antibody molecules that recognise different epitopes on the antigen

Question 18

What are monoclonal antibodies?

Answer 18

Uniform population of antibody molecules that recognise the same epitope on the antigen

Question 19

What is western blotting?

Answer 19

Protein identified by antibody. SDS page, then have a polymer sheet of protein. Then add radiolabelled specific antibody. The polymer sheet is exposed to the antibody and the protein reacts with it.

Overlay photographic film and develop. Protein band will show up

Question 20

What’s immunogold labelling?

Answer 20

The antibody is labelled with a gold colloidal particle and visualised with an electron microscope

Question 21

What is indirect immunofluorescence?

Answer 21

The antibody is labelled with a fluorescent molecule and then visualised with a fluorescence microscope.