Circular Dichroism

Question 1

What is Circular dichroism?

Answer 1

A technique used to work out the secondary structure
- absorption spectroscopy method based on the differential absorption of left and right circularly polarised light by chiral molecules

Question 2

How can you measure the peptide backbone of the protein?

Answer 2

• using far UV CD

- secondary structures will show up on graphs

Question 3

What are the different characteristics for secondary structures present on a CD spectrum?

Answer 3

Alpha helix - characteristics of the protein if present:
trough of 208nm, 222nm & peak at 190nm
Beta Sheet - characteristics of the protein if present
Trough at 216 nm & peak at 200 nm
Random Coil-
When protein hasn’t folded correctly

Question 4

What else other than secondary structures can be seen from a CD spectrum?

Answer 4

CD signals from side chains that absorb light
- tryptophan, tyrosine, phenylalanine
Will show a change has occurred but not what has happened

Question 5

What is the difference between Far and Near UV?

Answer 5

Near UV has a higher wavelength
- signals are smaller in Near UV
Far UV only needs a small concentration to work, where as Near UV a large concentration is needed.

Question 6

What is ellipticitiy?

Answer 6

Elliptically polarised light is light that is not fully circular polarised, but instead is elliptical in shape

Question 7

What does mean residue ellipticity show?

Answer 7

Works out per residue how much CD is present

Question 8

How can linear polarised light turn into circular polarised light?

Answer 8

CD instrumentation

• photoelastic modulator (PEM) is used that turns linear light into left and right circular polarised light sequentially
• Detector detects the light from PEM

Question 9

How is β2-microglobulin associated with amyloids?

Answer 9

Beta 2 - microglobulin Is associated with amyloid plaque formation
- Amyloid plaque = formation of beta helix formation (large fibre complex)

Question 10

What are amyloids?

Answer 10

• v.high in β-sheets
• forms fibres
• associated with numerous diseases such as Alzheimer’s and prions

Question 11

What is hemodialysis-related amyloidosis?

Answer 11

repeated hemodialysis causes β2-microglobulin deposits in tissues

• leads to excessive bone growth
• carpal tunnel syndrome

Question 12

What is the molecular basis of diseases caused by β2-microglobulin?

Answer 12

1. Native β2-microglobulin will undergo complete unfolding into random coil-β
2. It will then refold into a beta-helix formation

Question 13

How does using CD spectra help determine the molecular basis of diseases caused by β2-microglobulin?

Answer 13

CD spectra of β2M show a native β2M and then the spectra when several changes have occurred. When heated, the signal produced is similar to the native one.
When denatured, the signal is different showing mis-folding
Also can see mature and immature fibrils formation
- can also observe the kinetics of amyloid formation in real time

Question 14

Which two mutations alter the severity of amyloid formation and how?

Answer 14

D59P - destabilises the core structure of the protein (increases and the likelihood the misfolding the protein)
- pushes β2-microglobulin to unfold
W60G - stabilises the protein
- pushes β2-microglobulin to return to original conformation rather than misfolding

Question 15

What technique was used to asses how the two mutations altered amyloid formation?

Answer 15

Thermal denaturation by CD