Enzymes

Question 1

enzyme

Answer 1

globular protein that catalyses specific metabolic reactions

Question 2

lock and key hypothesis

Answer 2

-complimentary to each-other
-substrate and enzyme have kinetic energy so they move around
-by chance some substrates collide with an active site in such a way that they fit together

Question 3

model of action of lock and key theory

Answer 3

random movement brings substrate to active site
enzyme-substrate complex is formed
interaction
enzyme-product complex is formed
product leaves the enzyme
enzyme is unchanged and ready to bind

Question 4

induced fit hypothesis

Answer 4

the enzyme can change shape slightly as the substrate molecule enters to ensure a perfect fit and increase the efficiency of the catalysis

Question 5

progress of an enzyme-catalysed reaction

Answer 5

initial rate is high
rate gets lower as less substrate molecules are available
rate of product formation or substrate disappearance

Question 6

effect of temperature

Answer 6

low: low kinetic energy, successful enzyme-substrate collision is less likely, low rate.
high: high kinetic energy, energetic vibrations, hydrogen bonds broken, shape changed, enzyme denatured

Question 7

effect of enzyme concentration

Answer 7

as enzyme concentration increases so will the rate of reaction until it reaches saturation

Question 8

effect of substrate concentration

Answer 8

as substrate concentration increases the rate of reaction will also increase until it reaches saturation

Question 9

competitive inhibitor

Answer 9

similar shape to substrate and binds to enzyme’s active site

Question 10

Non- competitive inhibitor

Answer 10

binds to enzyme’s allosteric site, induces a conformational change so active site changes shape
control metabolic reactions in end-product inhibition negative feedback loops

Question 11

Enzyme protein structure

Answer 11

Tertiary

Question 12

Catabolic

Answer 12

Breaks down

Question 13

Anabolic

Answer 13

Join together