5A - Photosynthesis, respiration and ATP

Question 1

What do plants need energy for?

Answer 1

Photosynthesis, active transport, DNA replication, cell division and protein synthesis.

Question 2

What do animals need energy for?

Answer 2

Muscle contraction, maintenance of body temperature, active transport, DNA replication, cell division and protein synthesis.

Question 3

Why do plant and animal cells need energy?

Answer 3

For biological processes to occur.

Question 4

In what form does photosynthesis store energy?

Answer 4

In glucose.

Question 5

What is photosynthesis?

Answer 5

The process where energy from light is used to make glucose from water and carbon dioxide.

Question 6

What is light energy converted into in photosynthesis?

Answer 6

Chemical energy in the form of glucose.

Question 7

Is photosynthesis one or many reactions?

Answer 7

It occurs in a series of reactions.

Question 8

What is the equation for photosynthesis?

Answer 8

6CO2 + 6H2O (+energy) –> C6H12O6 (glucose) + 6O2

Question 9

When is the energy in plants no longer stored as glucose?

Answer 9

When it is released by respiration.

Question 10

How do animals obtain glucose?

Answer 10

By eating plants (or other animals).

Question 11

How is glucose released in animals?

Answer 11

It is respired to release energy.

Question 12

How do cells release energy from glucose?

Answer 12

By respiration.

Question 13

What process releases energy from glucose?

Answer 13

Respiration.

Question 14

How many types of respiration are there?

Answer 14

2

Question 15

What are the 2 types of respiration?

Answer 15

Aerobic and anaerobic.

Question 16

What is aerobic respiration?

Answer 16

Respiration using oxygen.

Question 17

What is anaerobic respiration?

Answer 17

Respiration without oxygen.

Question 18

What does aerobic respiration produce?

Answer 18

CO2 and water, and it releases energy.

Question 19

What is the equation for aerobic respiration?

Answer 19

C6H12O6 (glucose) + 6O2 –> 6CO2 + 6H2O (+ energy)

Question 20

What does anaerobic respiration in plants and yeast produce?

Answer 20

Ethanol and CO2, and releases energy.

Question 21

What does anaerobic respiration in humans produce?

Answer 21

Lactate, and releases energy.

Question 22

What is the immediate source of energy in a cell?

Answer 22

ATP

Question 23

What is ATP made from?

Answer 23

From the energy released from glucose.

Question 24

What does ATP stand for?

Answer 24

Adenosine triphosphate.

Question 25

What does ATP do?

Answer 25

The immediate source of energy in a cell - it carries energy around the cell to where it is needed.

Question 26

How is ATP synthesised?

Answer 26

Via a condensation reaction between ADP and an inorganic phosphate using energy from an energy-releasing reaction.

Question 27

What does ADP stand for?

Answer 27

Adenosine diphosphate.

Question 28

Where is energy stored in ATP?

Answer 28

As chemical energy in the phosphate bonds.

Question 29

How does ATP get to the part of the cell it is needed in?

Answer 29

By diffusion.

Question 30

What does ATP synthase do?

Answer 30

Catalyses the condensation reaction of ADP and Pi back into ATP.

Question 31

What happens to ATP when it reaches the part of the cell where it is needed?

Answer 31

It is hydrolysed back into ADP and Pi. Chemical energy is released from the phosphate bond and used by the cell.

Question 32

What does ATP hydrolase do?

Answer 32

Catalyses the hydrolysis reaction of ATP into ADP and Pi.

Question 33

What happens after ATP is hydrolysed back into ADP and Pi after reaching the part of the cell where it is needed?

Answer 33

The ADP and Pi are recycled and the process starts again.

Question 34

What does Pi stand for?

Answer 34

Inorganic phosphate.

Question 35

What specific properties of ATP make it a good energy source?

Answer 35

• ATP stores or releases only a small, manageable amount of energy at a time, so no energy is wasted as heat.
• It’s small and soluble so can be easily transported around the cell.
• It’s easily broken down, so energy can be released instantaneously.
• It can be remade quickly.
• It can make other molecules more reactive by transferring one of its phosphate groups to them (phosphorylation).
• ATP can’t pass out of the cell, so the cell always has an immediate supply of energy.

Question 36

What is a metabolic pathway?

Answer 36

A series of small reactions controlled by enzymes, e.g. respiration and photosynthesis.

Question 37

What is phosphorylation?

Answer 37

Adding phosphate to a molecule, e.g. ADP is phosphorylated to ATP.

Question 38

What is photophosphorylation?

Answer 38

Adding phosphate to a molecule using light.

Question 39

What is photolysis?

Answer 39

The splitting (lysis) of a molecule using light (photo) energy.

Question 40

What is photoionisation?

Answer 40

When light energy ‘excites’ electrons in an atom or molecule, giving them more energy and causing them to be released. The release of electrons causes the atom or molecule to become a positively charged ion.

Question 41

What is hydrolysis?

Answer 41

The splitting (lysis) of a molecule using water (hydro).

Question 42

What is decarboxylation?

Answer 42

The removal of carbon dioxide from a molecule.

Question 43

What is dehydrogenation?

Answer 43

The removal of hydrogen from a molecule.

Question 44

What are redox reactions?

Answer 44

Reactions that involve oxidation and reduction.

Question 45

What is reduction?

Answer 45

When something has gained electrons and may have gained hydrogen or lost oxygen.

Question 46

What is oxidation?

Answer 46

When something has lost electrons and may have lost hydrogen or gained oxygen.

Question 47

What do photosynthesis and respiration involve the use of?

Answer 47

Coenzymes.

Question 48

What are coenzymes?

Answer 48

Molecules that aid the function of an enzyme.

Question 49

How do coenzymes work?

Answer 49

By transferring a chemical group from one molecule to another.

Question 50

What coenzyme is used in photosynthesis?

Answer 50

NADP

Question 51

How does the coenzyme NADP work in photosynthesis?

Answer 51

It transfers hydrogen from one molecule to another meaning it can reduce (give hydrogen to) or oxidise (take hydrogen from) a molecule.

Question 52

What are examples of coenzymes that are used in respiration?

Answer 52

NAD, coenzyme A and FAD.

Question 53

What do the coenzymes NAD and FAD do in respiration?

Answer 53

Transfer hydrogen from one molecule to another meaning it can reduce (give hydrogen to) or oxidise (take hydrogen from) a molecule.

Question 54

What does the coenzyme ‘coenzyme A’ do in respiration?

Answer 54

Transfers acetate between molecules.

Question 55

What happens when hydrogen is transferred between molecules?

Answer 55

Electrons are transferred too.