Aerobic Respiration

Question 1

Where does glycolysis take place?

Answer 1

In the cytoplasm

Question 2

Describe the process of glycolysis? (7)

Answer 2

• Phosphorylation turns 2ATP into 2ADP ad 2Pi
• Phosphate groups join the glucose and form hexose bisphosphate
• Hexose bisphosphate is unstable so lysis takes place and forms Triose Phosphate
• Phosphorylation - two more pi groups join and form Triose Bisphosphate
• Dehydrogenation reduces 2 NAD to NADH
• Substrate level phosphorylation forms 4 ATP
• 2 Pyruvate formed per glucose

Question 3

What products are formed in Glycolysis per glucose molecule? (3)

Answer 3

• 2 ATP
• 2 NADH
• 2 Pyruvate

Question 4

Describe the Link reaction? (5)

Answer 4

• Pyruvate enters mitochondrial matrix
• Decarboxylation produces one CO2 and one NADH
• Acetyl group produced
• Coenzyme A binds to Acetyl group to for Acetyl coenzyme A
• Happens 2 times per glucose molecule

Question 5

Describe the Krebs Cycle? (5)

Answer 5

• Coenzyme A unbinds from Acetyl group
• Acetyl group turns into citric acid
• Decarboxylation - Produce CO2 and NADH and 5 carbon molecule
• Decarboxylation again to from 4 carbon molecule and CO2 and NADH
• Decarboxylation and dehydrogenation to produce Oxaloacetate - also produces ATP, NADH and FADH2

Question 6

What is produced in the krebs cycle per glucose? (4)

Answer 6

• 4Co2
• 2ATP
• 6NADH
• 2FADH2

Question 7

How much ATP produced per glucose in the whole of respiration?

Answer 7

38

Question 8

Why may there be less yield of ATP?

Answer 8

• Some hydrogens leak across the mitochondrial matrix
• Some ATP is used to transport pyruvate into the mitochondria
• Some ATP used to bring hydrogen from NADH made during glycolysis from cytoplasm into mitochondria

Question 9

What is chemiosmosis?

Answer 9

The movement of H+ down an electrochemical gradient

Question 10

Describe the process of oxidative phosphorylation? (5)

Answer 10

• NADH and FADH2 release H+ into the matrix and e- into the electron transfer chain
• Electron carrier proteins pump H+ into the intermembrane space and increases the conc. of H+ in the intermembrane space
• ATP synthase pumps H+ to the matrix, also forming ATP
• The H+ and the e- bond to oxygen, forming H2O
• OXYGEN IS THE FINAL ELECTRON ACCEPTOR

Question 11

How much ATP do NADH and FADH2 produce?

Answer 11

NADH -> 3ATP

FADH2 -> 2ATP

Question 12

What is respiration?

Answer 12

A multi-step pathway, where carbon-hydrogen bonds in glucose are broken and electrons released are used in synthesis of ATP by chemiosmosis

Question 13

What is the role of cristae?

Answer 13

Increase SA for oxidative phosphorylation

Question 14

What are the differences between NAD and FAD? (3)

Answer 14

• NAD takes part in all parts of respiration while FAD only in krebs cycle
• NAD accepts 1 H while FAD accepts 2 H
• NAD is oxidised at the start of electron transport chain, while FAD is oxidised further along the chain