Enzymes Flashcards
What are enzymes?
Proteins that act as biological catalysts for intra & extracellular reactions to determine structure & function. Therefore affect metabolism of cells & whole organism.
Specific tertiary structure determines shape of active site, complementary to a specific substrate.
Formation of enzyme-substrate (ES) complexes lowers activation energy of metabolic reactions.
Give an example of an enzyme that catalyses intracellular reactions.
Catalase: catalyses decomposition of hydrogen peroxide (which causes oxidative stress) into water + oxygen.
Give 2 examples of enzymes that catalyse extracellular reactions.
Amylase: carbohydrase catalyses digestion of starch to maltose in saliva/ small intestine lumen.
Trypsin: pancreatic endopeptidase catalyses hydrolysis of peptide bonds in small intestine lumen.
Explain the induced fit model of enzyme action.
● Shape of active site is not directly complementary to substrate & is flexible.
● Conformational change enables ES complexes to form when substrate adsorbs.
● This puts strain on substrate bonds, lowering activation energy. Bonds in enzyme-product complex are weak, so product desorbs.
Explain the lock and key model of enzyme action.
Suggests that active site has a rigid shape determined by tertiary structure so is only complementary to 1 substrate. Formation of ES complex lowers activation energy.
Bonds in enzyme-product complex are weak, so product desorbs.
Name 5 factors that affect the rate of enzyme-controlled reactions.
● enzyme concentration
● substrate concentration
● concentration of inhibitors ● pH
● temperature
How does substrate concentration affect rate of reaction?
IMAGE 12
How does enzyme concentration affect rate of reaction?
IMAGE 13
How does temperature affect the rate of enzyme-controlled reactions?
IMAGE 14
What is the temperature coefficient?
Q10 measures the change in rate of reaction per 10°C temperature increase.
Q10 = R2/ R1 (where R represents rate)
How does pH affect rate of reaction?
IMAGE 15
How do competitive inhibitors work?
Bind to active site since they have similar shape to substrate.Temporarily prevent ES complexes from forming until released.
Increasing substrate concentration decreases their effect.
How do non-competitive inhibitors work?
Bind at allosteric binding site.
Trigger conformational change of active site.
Increasing substrate concentration has no impact on their effect.
What is end-product inhibition?
One of the products of a reaction acts as a competitive or non-competitive inhibitor for an enzyme involved in the pathway. Prevents further formation of products.
What are irreversible inhibitors?
Permanently prevent formation of ES complexes.
Heavy metal ions e.g. mercury, silver cause disulphide bonds in tertiary structure to break.
Bind to enzymes by strong (covalent) bonds e.g. cyanide binds to cytochrome c.