respiration Flashcards
Name the 4 main stages in aerobic respiration and where they occur.
Glycolysis: cytoplasm
Link reaction: mitochondrial matrix
Krebs cycle: mitochondrial matrix
Oxidative phosphorylation via electron transfer chain: membrane of cristae
Outline the stages of glycolysis.
- glucose is phosphorylated to glucose phosphate by 2x ATP
- glucose phosphate splits into 2x triose phosphate (TP)
- 2x TP is oxidised to 2x pyruvate
Net gain of 2x reduced NAD & 2x ATP per glucose.
How does pyruvate from glycolysis enter the mitochondria?
via active transport
What happens during the link reaction?
- Oxidation of pyruvate to acetate.
Per pyruvate molecule: net gain of 1xCO2 (decarboxylation) & 2H atoms (used to reduce 1xNAD).
- Acetate combines with coenzyme A (CoA) to form acetylcoenzyme A.
Give a summary equation for the link reaction.
pyruvate + NAD + CoA
→
acetyl CoA + reduced NAD + CO2
What happens in the Krebs cycle?
series of redox reactions produces:
● ATP by substrate-level phosphorylation.
● Reduced coenzymes.
● CO2 from decarboxylation.
Outline the stages of the Krebs cycle.
look up a krebs cycle
What is the electron transfer chain (ETC)?
Series of carrier proteins embedded in membrane of the cristae of mitochondria.
Produces ATP through oxidative phosphorylation via chemiosmosis during aerobic respiration.
What happens in the electron transfer chain (ETC)?
Electrons released from reduced NAD & FAD undergo successive redox reactions.
The energy released is coupled to maintaining proton gradient or released as heat.
Oxygen acts as final electron acceptor.
How is a proton concentration gradient established during chemiosmosis in aerobic respiration?
Some energy released from the ETC is coupled to the active transport of H+ ions (protons) from the mitochondrial matrix into the intermembrane space.
How does chemiosmosis produce ATP during aerobic respiration?
H+ ions (protons) move down their concentration gradient from the intermembrane space into the mitochondrial matrix via the channel protein ATP synthase.
ATP synthase catalyses ADP + Pi → ATP.
State the role of oxygen in aerobic respiration.
Final electron acceptor in electron transfer chain.
What is the benefit of an electron transfer chain rather than a single reaction?
● energy is released gradually
● less energy is released as heat
Name 2 types of molecule that can be used as alternative respiratory substrates.
● (amino acids from) proteins
● (glycerol and fatty acids from) lipids
How can lipids act as an alternative respiratory substrate?
lipid → glycerol + fatty acids
- Phosphorylation of glycerol → TP for glycolysis.
- Fatty acid → acetate.
a) acetate enters link reaction.
b) H atoms produced for oxidative phosphorylation.
How can amino acids act as an alternative respiratory substrate?
Deamination produces:
1. 3C compounds → pyruvate for link reaction.
2. 4C/ 5C compounds → intermediates in
Krebs cycle.
Name the stages in respiration that produce ATP by substrate-level phosphorylation.
● Glycolysis (anaerobic)
● Krebs cycle (aerobic)
What happens during anaerobic respiration in animals?
Only glycolysis continues
reduced NAD + pyruvate
→
oxidised NAD (for further glycolysis) + lactate
What happens to the lactate produced in anaerobic respiration?
Transported to liver via bloodstream, where it is oxidised to pyruvate.
Can enter link reaction in liver cells or be converted to glycogen.
What happens during anaerobic respiration in some microorganisms e.g. yeast and some plant cells?
Only glycolysis continues.
Pyruvate is decarboxylated to form ethanal.
Ethanal is reduced to ethanol using reduced NAD to produce oxidised NAD for further glycolysis.
What is the advantage of producing ethanol/ lactate during anaerobic respiration?
Converts reduced NAD back into NAD so glycolysis can continue.
What is the disadvantage of producing ethanol during anaerobic respiration?
● Cells die when ethanol concentration is above 12%.
● Ethanol dissolves cell membranes.
What is the disadvantage of producing lactate during anaerobic respiration?
Acidic, so decreases pH.
Results in muscle fatigue.
Compare aerobic and anaerobic respiration.
● Both involve glycolysis
● Both require NAD
● Both produce ATP
