Respiration

Question 1

Describe the process of glycolysis

Answer 1

glucose —–> pyruvate
1. activate glucose by phosphorylation. This requires the hydrolysis of 2 molecules of ATP to 2 x ADP to provide the 2 phosphates
2. glucose phosphate then splits into 2 x triose phosphate
3. triose phosphate is then oxidised to pyruvate which involves the loss of H which reduces the hydrogen carrier molecule NAD to NADH2 ATP is also produced directly at this stage via substrate level phosphorylation

Question 2

What are the glycolysis of glucose yields

Answer 2

• 2 NET ATP directly by substrate level phosphorylation
• 2 reduced NAD
• 2 molecules of pyruvate

Question 3

Describe the link reaction

Answer 3

• pyruvate actively transported into mitochondrial matrix
• pyruvate converted to acetyl co A
• pyruvate oxidised to acetate & the hydrogen removed is used to reduce the hydrogen carrier ‘NAD’ to form reduced NAD (NADH2) and a molecule of coenzyme A is also required
• a molecule of CO2 is also lost
• NO ATP is produced directly in the link reaction

Question 4

What are the link reaction yields?

Answer 4

• reduced NAD
• 2 acetyl co A
• CO2

Question 5

Describe the process of the Krebs cycle

Answer 5

• 2C acetyl co A combines with 4C molecule to form 6C compound
• 6C compound loses CO2 & Hydrogen to convert to a 4C compound and 1 x ATP (via SLP)

Question 6

What are the yields of the krebs cycle?

Answer 6

• 2 x CO2 produced
• some ATP produced directly by substrate level phosphorylation
• 3 x reduced NAD and 1 x FAD produced to be used in oxidative phosphorylation
• 1 molecule of glucose
• 2 molecules of acetyl co enzyme A = krebs cycle happens twice

Question 7

Describe how oxidation takes place in glycolysis and in the krebs cycle (3)

Answer 7

• removal of hydrogen
• by enzymes
• Hydrogen accepted by NAD
• in krebs cycle, FAD used aswell

Question 8

Describe the electron transport chain (ETC)

Answer 8

• reduced H carriers are oxidised losing hydrogen
• electrons from hydrogen pass down a series of electron carriers within mitochondrial membranes in a series of REDOX reactions
• as electrons pass along ETC they lose energy some of which is used to pump H+ into intermembrane space
• some energy is also lost as heat
• the H+ diffuse down proton gradient across inner membrane into matrix via ATP synthase, as they pass down enough energy is provided to form ATP
• electrons and H+ recombine with O2 to form water
• oxygen is terminal electron acceptor
• without oxygen removing H+ and electrons, there would be a ‘back up’ of electrons along ETC & process of cellular respiration will come into halt

Question 9

water is a waste product of aerobic respiration. Describe how water is formed at the end of aerobic respiration

Answer 9

• oxygen is terminal electron acceptor
• combines with electrons and protons to form water

Question 10

Describe the role of co enzymes and carrier proteins in the synthesis of ATP (3)

Answer 10

• reduced NAD and reduced FAD
• electrons transferred from coenzyme to co enzyme
• energy released as electrons passed down
• energy used to synthesise ATP from ADP and Pi using ATP synthase
• H+ pumped into intermembrane space
• H+ diffuse back through ATP synthase

Question 11

Describe how ATP is made in mitochondria

Answer 11

• substrate level phosphorylation
• krebs cycle and link reaction produces reduced NAD & FAD
• electrons released from reduced NAD & FAD pass along ETC
• energy released
• protons pumped into intermembrane space
• ADP + Pi
• ATP synthase

Question 12

Describe the events of oxidative phosphorylation

Answer 12

• reduced NAD & FAD
• ETC on cristae
• electrons transferred from coenzyme to coenzyme
• energy released as electrons passed on
• protons pumped into intermembrane space
• protons flow back through stalked particles
• energy used to synthesise ATP from ADP and phosphate using ATP synthase

Question 13

Explain how the amount of ATP is increased by reactions occurring inside a mitochondrion

Answer 13

• removal of electrons and H+
• from pyruvate
• acetyl co A
• substrate level production of ATP
• production of reduced NAD & FAD
• in matrix of mitochondria
• electrons fed into ETC
• electrons pass along ETC
• energy released
• protons move into intermembrane space
• ADP + Pi
• ATP synthase

Question 14

What are respirometers?

Answer 14

As animal or plants respire:
- oxygen is used for aerobic respiration
- this reduced the volume of oxygen in the tube therefore reducing the pressure
- solution of KOH absorbs the CO2 released by animal or plant
- therefore the ink in the connecting tube moves from higher to lower pressure along the graduated scale
- measure time taken

Question 15

Describe the process of glycolysis (3)

Answer 15

• phosphorylation of glucose using ATP
• oxidation of triose phosphate to pyruvate
• net gain of ATP
• NAD reduced

Question 16

In many mammals, ‘uncoupling proteins’ help to maintain a constant body temperature during hibernation.
Suggest and explain how.

Answer 16

• allow passage of protons
• energy released as heat

Question 17

The mitochondria in muscles contain many cristae. Explain the advantage of this.

Answer 17

• larger surface area for ETC
• provide more ATP

Question 18

Give two reasons why the respirometer was left for 10 minutes when it was first placed in the water bath.

Answer 18

• equilibrium reached
• allow pressure change in apparatus
• allow respiration rate of seeds to stabilise

Question 19

explain why a log scale is used to record the number of bacteria

Answer 19

• large range/difference in numbers
  (increase)

Question 20

Explain why converting pyruvate to lactate allows the continued production of ATP by anaerobic respiration

Answer 20

• regenerates NAD
• so glycolysis continues

Question 21

Malonate inhibits a reaction in the krebs cycle .
Explain why malonate would decrease the uptake of oxygen in a respiring cell.

Answer 21

• less reduced NAD
• fewer electrons removed
• oxygen is the terminal electron acceptor