17 - Protein Detection

Question 1

C-reactive protein

Answer 1

Activates immune system. Triggered by cytokines and proteins

Question 2

Why detect proteins

Answer 2

As a marker of inflammation and to detect pathology (e.g. myocardial infarction).

Question 3

4 levels of protein structure

Answer 3

Primary (amino acids), Secondary (beta sheet and alpha helix), Tertiary (polypeptide chain) and Quaternary (assembled subunits)

Question 4

Which proteins detected to indicate myocardial infarction

Answer 4

Contractile proteins (Troponin 1 and T)

Question 5

Chromatography column

Answer 5

Solid porous matrix (“stationary phase”)

Question 6

Mobile phase

Answer 6

Proteins sample that flows through chromatography column

Question 7

Which proteins elute first

Answer 7

Proteins that move quickly (interact less well with column)

Question 8

Which proteins elute last

Answer 8

Proteins that move slowly (interact more with column)

Question 9

Fractionation

Answer 9

Collection of effluent at different stages. Different fractions have different properties

Question 10

Eluent

Answer 10

Substance that goes through column chromatography

Question 11

Effluent

Answer 11

Substance that comes out of column chromatography

Question 12

Size exclusion chromatography

Answer 12

Column made of porous beads. Larger proteins do not adhere to column (therefore move quickly and elute earlier). Small proteins adhere to column (therefore move slowly and elute later)

Question 13

How do proteins have different charges

Answer 13

The functional groups of individual amino acids confer an overall charge to the protein

Question 14

What can change the charge on the AA side chain

Answer 14

pH. Acids lose/gain H+, bases lose/gain OH-

Question 15

Ion exchange chromatography

Answer 15

Column is made of charged gel beads. If stationary phase is negatively charged, proteins with negative charge will move faster and elute earlier.

Question 16

Issue with ion exchange chromatography

Answer 16

proteins with different charge to stationary phase will not elute out and therefore become stuck

Question 17

How to fix issue with ion exchange chromatography

Answer 17

Add salt (charged ions). Ions outcompete protein for binding to column

Question 18

Cation exchange

Answer 18

negative column, positive samples of interest

Question 19

Anion exchange

Answer 19

Positive column, negative samples of interest

Question 20

Affinity chromatography

Answer 20

Column made of beads with a molecule (ligand) to which the target binds. Target protein binds, non target are eluted.

Question 21

how to elute target protein in affinity chromatography

Answer 21

With solution of ligand. Target protein will bind to free floating ligands instead of those attached to column

Question 22

Other forms of affinity chromatography

Answer 22

Antibody - antigen
Avidin - biotin
Nickel - Histidine tag

Question 23

How to elute affinity chromatography that doesn’t contain ligands

Answer 23

high pH dentures the proteins so they no longer bind

Question 24

SDS-Page

Answer 24

SDS (detergent, denatures proteins, gives uniform -‘ve charge), polyacrylamide plastic (same function as agarose but seperate much smaller molecules). Larger proteins migrate less far

Question 25

advantages of SDS-PAGE

Answer 25

Quick, easy and inexpensive

Question 26

Disadvantages of SDS-page

Answer 26

Visualise proteins with stain (small amount detected), does not identify proteins, many proteins have similar mass, unable to tell how many proteins a band shows

Question 27

Charge when pH is less than pKa

Answer 27

positive (protonated)

Question 28

Charge when pH = pKa

Answer 28

No charge

Question 29

charge when pH is greater than pKA

Answer 29

Negative charge (deprotonated)

Question 30

Isoelectric focusing

Answer 30

Separates proteins by isoelectric point. Protein only moves through gel when it is charged. Reaches point in strip where pH = pI (protein has no charge, will not migrate further)

Question 31

2D electrophoresis

Answer 31

Separates proteins by isoelectric point and size. Solves problem of co migration in SDS-PAGE

Question 32

Western blots (immunoblots)

Answer 32

Transfer proteins from polyacrylamide gel to a membrane. Allows immobilisation of the protein which allows antibodies to interact with the protein

Question 33

Components of Western blots

Answer 33

• Primary antibody recognises antigen
• Secondary antibody recognises primary antibody (enzyme conjugated)
• Enzyme allows detection (catalyses reaction to produce luminescence)

Question 34

Enzyme Linked Immunosorbent Assay (ELISA)

Answer 34

Use antibodies to recognise specific antigen (protein of interest)

Question 35

Direct ELISA

Answer 35

• Proteins are immobilised to a plate
• Antibody binds to target protein and is conjugated to an enzyme
• Enzyme produces colour product
• Less specific

Question 36

Indirect ELISA

Answer 36

• Primary antibody binds to target protein
• Secondary antibody binds to primary antibody
• Secondary antibody is conjugated to an enzyme which produces a coloured product

Question 37

Sandwich ELISA

Answer 37

• Capture antibody bonded to plate and binds to target protein
• Primary antibody binds a different epitope on the target protein
• Secondary antibody binds to primary antibody, conjugated to enzyme to detection

Question 38

Which protein side chains absorb light

Answer 38

Aromatic group

Question 39

High Performance Liquid Chromatography

Answer 39

• Column usually C18 (silica) which is hydrophobic.
• Sample dissolved in water and non polar solvent.
• Hydrophobic proteins in sample will bind to C18.
• Hydrophilic proteins elute.
• Change solvent over time to be more hydrophobic to elute the “stuck” hydrophobic proteins
• Achieves gradient of elution (hydrophilic –> hydrophobic)

Question 40

Mass spectrometry

Answer 40

• Measure mass of compounds with great accuracy.
• Compound ionised
• Charge attracts it to detector
• Arrive at detector at different times based on mass to charge ratio
• Small mass to charge ratio and faster, large mass to charge ratio slower
• Also fragments peptides and measures products of fragmentation

Question 41

Mass fingerprint

Answer 41

Two different proteins with the same mass will produce different peptides

Question 42

How is protein prepared for mass spectrometry

Answer 42

Digested with proteolytic enzyme

Question 43

Advantages of mass spectrometry

Answer 43

Generate huge amounts of detailed data

Question 44

Disadvantages of mass spectrometry

Answer 44

• Expensive, complex machines needed
• Data can be difficult to interpret
• Difficult sample preparation