3.1.4.2 Enzymes (Unit 1 Biological Molecules)

Question 1

How did scientists discover the induced fit model of enzyme action?

Answer 1

They noticed that other molecules could bind to enzymes, which then affected the enzyme’s activity. This led to the conclusion that the enzyme shape must be changing.

Question 2

What is a substrate?

Answer 2

The substance on which an enzyme acts

Question 3

Why are enzymes essential to organisms?

Answer 3

They allow essential chemical reactions to occur rapidly at low temperatures e.g. 37 °C.

Question 4

Enzymes that catalyse chemical reactions outside of cells are called…

Answer 4

extracellular enzymes

Question 5

The functional part of an enzyme is called the…

Answer 5

active site

Question 6

Which 3 conditions must be satisfied for a chemical reaction to take place?

Answer 6

• The substrates must collide with sufficient energy to alter the arrangement of their atoms
• The energy of the products must be lower than the substrates.
• The activation energy needs must be met.

Question 7

Which have a higher energy level: substrates or products?

Answer 7

substrates

Question 8

The specific 3D shaped active site of an enzyme is determined by..

Answer 8

its sequence of amino acids (primary structure)

Question 9

Enzymes that catalyse reactions inside of cells are called…

Answer 9

intracellular enzymes

Question 10

When a substrate binds to the active site we call the resulting structure an…

Answer 10

enzyme-substrate complex

Question 11

A substrate does not have the same shape as the active site it has a _____________ shape.

Answer 11

complementary

Question 12

What does the following describe:

Enzyme active site is complementary to the substrate
When substrate binds the enzyme changes shape slightly
This stresses the bonds in the substrate
Reducing the activation energy for the reaction
The reaction occurs quicker

Answer 12

The induced fit model of enzyme action

Question 13

Hormones are proteins that have a binding site so that they can switch on or off bodily processes. Are they enzymes?

Answer 13

No - many proteins have binding sites or receptor sites. These are not active sites.

Only enzymes have active sites

Question 14

Which type of biological molecule are enzymes?

Answer 14

Proteins

Question 15

Which structural type of protein are enzymes?

Answer 15

Globular proteins

Question 16

What do we call the initial energy required for a chemical reaction to take place?

Answer 16

Activation energy

Question 17

Define an enzyme

Answer 17

Enzymes are biological catalysts that speed up chemical reactions without being used up or changed.

Question 18

How does a substrate temporarily bind to an enzyme active site?

Answer 18

The substrate temporarily forms bonds with certain amino acids in the active site.

Question 19

What does the following describe:

Enzyme active site is complementary to the substrate
When substrate binds the enzyme changes shape slightly
This stresses the bonds in the substrate
Reducing the activation energy for the reaction
The reaction occurs quicker

Answer 19

The induced fit model of enzyme action

Question 20

What is the name of the currently accepted model of enzyme action?

Answer 20

The induced fit model of enzyme action

Question 21

Describe the induced fit model of enzyme action.

Answer 21

Enzyme active site is complementary to the substrate
When substrate binds the enzyme changes shape slightly
This stresses the bonds in the substrate
Reducing the activation energy for the reaction
The reaction occurs quicker

Question 22

Why are enzymes still effective even in small amounts?

Answer 22

Because they are not used up or changed so can be used again and again.

Question 23

Describe the induced fit model of enzyme action

Answer 23

• Substrate approaches active site
• active site not complementary/will fit substrate
• active site changes shape and forms functional active site - as substrate binds
• Enzyme moulds to substrate
• Change in shape puts a strain on bonds of substrate, lowering activation energy.

Question 24

Why does formation of enzyme substrate complex increase rate of reaction?

Answer 24

Reduces activation energy

due to the bending/weakening of bonds

Question 25

For an enzyme to work it must:

Answer 25

come into contact with its substrate.

have an active site which complements the substrate.

Question 26

How can the progress of an enzyme controlled reaction be measured? (2 methods)

Answer 26

measure the amount of product produced over time.

measure substrate disappearance over time..

Question 27

Explain the initial rate of reaction shown in the graph

Answer 27

Lots of substrate, no product.

Easy for substrate molecules to come into contact with enzyme.

All enzyme active sites filled with substrate so product rapidly produced.

Question 28

Explain the rate of reaction shown in the graph after 1 minute

Answer 28

Less substrate now so less product being produced.

More difficult for substrate to come into contact with active sites of enzyme

The graph eventually flattens because there is no substrate left to act on.

Question 29

Explain the initial drop in starch shown in the graph below

Answer 29

Lots of substrate, no product to get in way

Easy for substrate molecules to come into contact with enzyme.

All enzyme active sites filled with substrate so substrate rapidly reduced.

Question 30

Explain the drop in starch shown in the graph below after 3 minutes

Answer 30

Less substrate now and more product to get in the way.

More difficult for substrate to come into contact with active sites of enzyme

The graph eventually flattens because there is no substrate left to act on.

Question 31

How would you calculate the rate of reaction at the red point?

Answer 31

Draw a straight line against the point (a tangent line)

The rate of reaction is equal to the gradient of this line.

Gradient = change in Y / change in X

Question 32

Explain the the change in reaction rate between 0-40 Degrees Celsius shown in the graph below

Answer 32

Higher temp, more kinetic energy given to enzymes and substrate

More successful collisions between enzymes and substrate

This is shown by the rising curve which reaches its peak at 40 DegC

Question 33

Explain the the change in reaction rate after 40 Degrees Celsius shown in the graph below

Answer 33

Hydrogen bonds in enzyme start to break due to high temp.

The enzyme and its active site begin to change chape, substrate fits less easily and reaction slows.

Enzyme eventually changes shape so much, it denatures. Enzyme can no longer bind to substrate so reaction ends.

Question 34

Many of the enzymes in the body have an optimum temperature of 40 °C. Why has the body evolved to have a temperature of 37 °C?

Answer 34

Body needs to use more energy to maintain 40 °C

Other, non-enzyme, proteins in the body may denature at 40 °C

During illness body temperature would increase above 40 °C. This might denature the enzymes.

Question 35

Why do birds have a body temperature of 40 °C?

Answer 35

They have a high metabolic rate in order to release the energy required for flight.
Heat energy is released as a by-product of metabolism (respiration)

Question 36

How can we calculate the gradient of a line on a line graph?

Answer 36

Gradient = Change in Y/Change in X

Question 37

How can we calculate the rate of enzyme reaction at a specific point on a graph that shows the “amount of product formed” OR “substrate used” up the Y axis and “time” along the X axis.

Answer 37

Draw a tangent at this point and calculate its gradient.

Gradient = Change in Y/Change in X

Question 38

A solution with a high H+ ion concentration is an…

Answer 38

acid

Question 39

A solution with a high OH- concentration is an…

Answer 39

alkali

Question 40

What happens at pH’s that are outside of an enzymes optimum pH range [3]

Answer 40

The enzyme denatures

The ionic and Hydrogen bonds break

The active site changes shape

Question 41

Why are enzymes denatured faster at 60 degrees compared to 40 degrees?

Answer 41

More kinetic energy

bonds (ionic/hydrogen) between amino acids broken faster

Question 42

Describe the action of a competitive inhibitor

Answer 42

Binds to active site
Blocks active site so substrate can’t bind
Fewer enzyme-substrate complexes form

Question 43

What type of molecule does this process describe?

Answer 43

Binds to active site
Blocks active site so substrate can’t bind
Fewer enzyme-substrate complexes form

Question 44

Describe the action of a non-competitive inhibitor

Answer 44

Binds to allosteric site
Changes tertiary structure
Enzyme is no longer complementary to substrate
Fewer enzyme-substrate complexes form

Question 45

What does this process describe?
Binds to allosteric site
Changes tertiary structure
Enzyme is no longer complementary to substrate
Fewer enzyme-substrate complexes form

Answer 45

Non-competitive inhibition

Question 46

How is induced fit different to lock and key?

Answer 46

Lock and key suggests the active site is a perfect fit for the substrate
Induced fit says enzyme changes shape to fit the substrate