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Page 1: Protein Folding Presentation

What factors influence protein function? What is denaturation ? What is inactivation?

What forces underlie the folding process? What are the consequences of protein misfolding?

Page 2: Protein Folding Presentation

Factors influencing protein activity Denaturation Vs inactivation

Denaturation ……Random coil: no specific shape.

Is it reversible?

Inactivation/activation form of regulation may be reversible or irreversible.

Page 3: Protein Folding Presentation

In/activation Covalent modification

Reversible: phosphorylation/dephosphorylation

Irreversible: Proteolysis

Acylation ex: Myristoylation, palmitoylation

Allosteric modulators positive and negative

Conformational: monomer - polymer

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Denaturing Agents

Harsh mechanical treatment/handling

Heat

How does changes in temperature affect protein function?

Heat Kinetic energy

(Taq-polymerase), freezing and thawing

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Acid-base: Charge disruption

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Alcohol

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Denaturating agents Salt concentration +NH4 > k> + Na + > Li + > Mg++ > Ca++ precipitating

Urea solubilizing Guanidium

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Disulfide reduction Mercaptoethanol, Dithiothreitol…

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Detergents:

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SDS:

Sodium dodecyl sulfate, Sodium lauryl sulfate

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Other denaturing agents Heavy metals: Pb, Hg, Cd, Ag

UV ionizing radiation

Will a denatured protein re-nature into its native conformation?

Page 12: Protein Folding Presentation

Anfinsen Experiment

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Protein folding IS IT RANDOM?

What forces direct the folding?

∆ G = ∆ H - T ∆ S

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Folding Pathways

Not random.

The folding process is rapid

Determined by the primary sequence and surrounding environment,

Requires sometimes accessory proteins.

Page 15: Protein Folding Presentation

Accessory Proteins

Prolyl cis –trans isomerase

Protein Disulfide Isomerase…… PDI

Chaperons

Page 16: Protein Folding Presentation

Prolyl cis-trans isomerase

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Protein disulfide Isomerase (PDI)

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Chaperons Heat shock proteins

HSP 70 ……. Blocks aggregation

HSP60 …… Provides isolation chamber

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Protein Fate

Page 23: Protein Folding Presentation

Protein Misfolding

Protein Conformational Diseases

in 2ry and/or 3ry structure of functional protein

Loss of function or gain of toxic activity

Page 24: Protein Folding Presentation

PFD

Page 25: Protein Folding Presentation

PrPC/PrPSc

1. PrPSc bind to PrPC

2. Leads to “Flipping”

of PrPC into a beta-

sheet conformation

(PrPSc)

3. PrPSc can Polymerize

4. Lead to the formation

of fibrils and plaques

5. Deposit in brain

Page 26: Protein Folding Presentation

Sickle hemoglobin


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