TOPIC 12 REVIEW (CIE 9700)

1. MECHANISMS & PATHWAYS

Linking Concepts

Why / Explain (Paper 4 style)

Data & Application

Common Mistakes

100

Explain how NAD is reduced in glycolysis

→ Accepts 2 hydrogen atoms (2e⁻ + H⁺) via dehydrogenase

100

Link oxidation and reduction in respiration

→ Oxidation = loss of H, reduction = gain of H → always occur together

100

Why does anaerobic respiration produce less ATP?

→ No oxidative phosphorylation / only substrate-level phosphorylation

100

RQ = 1.0 → what substrate?

→ Carbohydrate

100

Is ATP made directly in ETC?

→ No → made by chemiosmosis

200

Why must oxaloacetate be regenerated in the Krebs cycle?

→ Allows acetyl groups to continue entering cycle / prevents pathway stopping

200

Explain link between hydrogen carriers and ATP yield

→ More reduced coenzymes → more electrons → more proton pumping → more ATP

200

Why must NAD be regenerated in anaerobic conditions?

→ Without NAD → glycolysis stops → no ATP production

200

RQ ≈ 0.7 → explain

→ Lipid / less CO₂ per O₂ used

200

Does oxygen combine with hydrogen to make ATP?

→ No → forms water

300

Explain how ATP synthase works

→ Proton gradient → protons flow through channel → rotational change → ADP + Pi → ATP

300

300
Why does glycolysis occur in cytoplasm but Krebs in mitochondria?

→ Enzymes compartmentalised / mitochondria provide membrane for ETC

300

Explain why lactate causes muscle fatigue

→ Lowers pH → affects enzyme activity

300

A toxin blocks ATP synthase — what happens?

→ Proton gradient builds → ETC stops → no ATP

300

Is glycolysis aerobic?

→ No → does not require oxygen

400

Why does electron transport release energy in steps?

→ Prevents energy loss as heat / allows controlled ATP production

400

Explain relationship between structure of cristae and ATP production

→ Increased surface area → more ETC proteins + ATP synthase → higher ATP yield

400

Why does oxygen increase ATP yield?

→ Final electron acceptor → keeps ETC running → maintains proton gradient

400

Inner membrane damaged — effect?

→ No proton gradient → no chemiosmosis → no ATP

400

Does Krebs cycle produce ATP directly?

→ Only small amount (substrate-level)

500

Explain how reduced NAD leads to ATP formation

→ Donates electrons → ETC → energy released → proton gradient → chemiosmosis → ATP

500

Link chemiosmosis to facilitated diffusion

→ Proton flow down gradient via ATP synthase (protein channel)

500

Explain why fats have higher energy value than carbohydrates

→ More hydrogen atoms → more reduced coenzymes → more ATP

500

Cyanide blocks electron transport — explain death mechanism

→ No ATP → cells fail → especially brain/heart

500

Is NAD energy?

→ No → carrier of electrons/hydrogen