A2 2.1 Energy and ATP
‘The ability to do work’
Energy and metabolism
ATP – adenine triphosphate
How ATP releases energy
It’s reversible!
Better than glucose?
Advantages of ATP
Which reactions use ATP?
(a) 1 and 3; (b) Some energy lost as heat; 1
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Energy and ATP

1. A2 2.1 Energy and ATP

We are covering:
• How does ATP store energy?
• How is ATP synthesised?
• What is the role of ATP?
Starter - write a
definition for
energy

2. ‘The ability to do work’

Why do we need it?
• Metabolism
• Movement
• Active transport
• Maintenance, repair and division of cells
• Production of substances
• Maintenance of body temperature

3. Energy and metabolism

Light energy is converted by plants into
chemical energy during photosynthesis
The chemical energy from photosynthesis, in
the form of organic molecules, is converted
into ATP during respiration
ATP is used by cells to perform useful work

4. ATP – adenine triphosphate

ATP made up of:
Adenine (a base)
Ribose (a pentose
sugar)
3 phosphate groups

5. How ATP releases energy

The 3 phosphate groups are
joined together by 2 high
energy bonds
ATP can be hydrolysed to
break a bond which releases
a large amount of energy
Hydrolysis of ATP to ADP
(adenosine diphosphate) is
catalysed by the enzyme
ATPase
(ATPase)
ADP + Pi + 30 KJ mol-1
ATP
(H2O)

6. It’s reversible!

• ATP can be reformed from ADP + Pi in a hydrolysis
reaction, this occurs in 3 ways;
1. Photophosphorylation – occurs in the
chlorophyll during photosynthesis
2. Oxidative photophosphorylation – occurs in the
mitochondria during the electron transport
chain (part of respiration)
3. Substrate-level photophosphorylation – when
phosphate groups are transferred from donor
molecules to ADP

7. Better than glucose?

• The energy released from the splitting of ATP
into ADP releases energy in small, manageable
bursts
• Hydrolysis of ATP to ADP is a single reaction,
glucose breakdown requires a long series of
reactions
Why can we describe ATP as an immediate
energy source?

8. Advantages of ATP

Instant source of energy in the cell
Releases energy in small amounts as needed
It is mobile and transports chemical energy to
where it is needed IN the cell
Universal energy carrier and can be used in
many different chemical reactions

9. Which reactions use ATP?

Metabolic processes
Movement
Active transport
Secretion
Activation of molecules
Bioluminescence

10.

11. (a) 1 and 3; (b) Some energy lost as heat; 1

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