Enzymes as Drug Targets Ch 3 & 7

Question 1

Enzymes lower the _______ ________ of a reaction by binding tightly to the ________ _____, but not the ___ of the reaction.

Answer 1

activation energy, transition state, delta G

Question 2

Seven ways in which enzymes function as catalysts

Answer 2

1) Reaction surface; 2) Bring reactants together; 3) Position reactants correctly; 4) Weaken bonds; 5) Acid-base catalysis; 6) Provide nucleophiles for covalent catalysis; 7) Metal ion

Question 3

PNP specificity

Answer 3

Specific for syn conformation of purine nucleoside.

Question 4

Amino acid in acid-base catalysis

Answer 4

Histidine (can act as proton sink and source)

Question 5

Nucleophilic residue (3)

Answer 5

Serine, Cysteine, Threonine

Question 6

Reversible Competitive Inhibitor
Where does it bind?
Reaction?
Effect of increasing substrate concentration?
Similar to substrate?
Effects Vmax or Km?

Answer 6

Inhibitor binds reversibly to active site.
No reaction takes place on inhibitor.
Increasing substrate concentration will reverse inhibition.
Similar to substrate.
Increase Km

Question 7

Irreversible non competitive inhibitor
Where does it bind?
Reaction?
Effect of increasing substrate concentration?
Similar to substrate?
Effects Vmax or Km?

Answer 7

Binds irreversibly to active site.
Covalent bond formed between inhibitor and enzyme.
Increase substrate concentration has no effect.
Similar to substrate.
Decrease Vmax

Question 8

Reversible non competitive inhibitors
Where does it bind?
Reaction?
Effect of increasing substrate concentration?
Similar to substrate?
Effects Vmax or Km?

Answer 8

Binds to allosteric site.
Increasing substrate concentration has no effect.
Induced fit distorts shape of enzyme.
Similar to final product of biosynthetic pathway.
Decreases Vmax.

Question 9

Cofactors (2 types)

Answer 9

Nonprotein molecule needed for reaction catalyzed by enzyme. May be metal ion or coenzyme.

Question 10

Coenzyme

Answer 10

Organic molecule cofactor

Question 11

Prosthetic group

Answer 11

Covalently bound coenzyme

Question 12

Isozymes + example

Answer 12

Enzymes with different subunits or primary structures that catalyze the same reaction. May have different regulation, activity rate, and structure.
Ex. Prostaglandins produced by cyclooxygenase: COX 1- normal inflammation vs COX 2- rheumatoid arthritis

Question 13

Feedback control vs Activation control

Answer 13

Final product in pathway allosterically turns of first enzyme.
Post translational modification, such as phosphorylation or ubiquination, needed

Question 14

Transition State Inhibitors
Where does it bind?
Effect of increasing substrate concentration?
Similar to substrate?

Answer 14

Binds irreversibly to catalytic site.
Increase substrate concentration has no effect.
Not similar to substrate (resembles transition state)

Question 15

Suicide Inhibitors
Where does it bind?
Effect of increasing substrate concentration?
Reaction?
Similar to substrate?

Answer 15

Competitive irreversible inhibitor- binds to catalytic site.
Increase substrate concentration has no effect.
Substrate becomes highly reactive species after enzyme acts on it.
Similar to substrate.

Question 16

Example of 3 types of Medically Used Inhibitors

Answer 16

Antibiotics- penicillin
Virus- zidovudine inhibits reverse transcriptase in HIV
Human- targeting is difficult (proteasome. matrix metalloproteinases, calpain).

Question 17

Catalytic triad

Answer 17

Serine- nucleophile; Histidine, Aspartate- acid/base

Question 18

Michaelis-Menten equation

Answer 18

v= (Vmax[S])/(Km+[S])

Question 19

Michaelis-Menten constant

Answer 19

ratio of rate constants = to substrate concentration when rate is one-half of maximum rate.
Low Km means strong binding affinity.

Question 20

Turnover number

Answer 20

kcat= number of substrate molecules coverted to product per enzyme molecule per unit of time when enzyme is isaturated with substrate.
Vmax=kcat[Etot]

Question 21

kcat/Km

Answer 21

Measure of how well the enzyme functions at low substrate concentration. Upper limit is diffusion limit.

Question 22

Lineweaver-Burk plot

Answer 22

1/rate vs. 1/[S]

Question 23

Uncompetitive Inhibitor
Where does it bind?
Effect of increasing substrate concentration?
Effects Vmax or Km?

Answer 23

Binds reversibly to enzyme-substrate complex.
Increasing substrate concentration will not overcome.
Decreases Vmax and Km