Comparison

1. Comparison Ofaerobicandanaerobicmetabolismduringsports

2. 1 10 2 9 Citrate Cycle 8 3 2 CO2 + 4 H 7 4 6 5 ADP + P H2O O2 ATP Cell Respiration Glycolysis

3. B a l a n c e Acetyl - CoA FADH2 FAD NAD+ NADH+H+ ATP NADH+H+ NADH+H+ NAD+ NAD+ Oxalo-acetate 3 x NADH 1 x FADH2 Malate Citrate 1 x ATP cis- Aconitate Fumarate Citrate- Cycle Iso- Citrate Succinate - GTP Oxalo- succinate Succinyl- CoA - CO2 - CO2 a-Ketoglutarate

4. Anaerobic Citrate Cycle S38 ATP S2 ATP 1 Glucose Glycolysis 2 x Pyruvate Aerobic 2x ACETYL CoA 2x Lactate In strongly contractingmuscles 4 CO2 +4 H2O

5. 1 Glucose 1 G-6-P 1 FDP + 2 NADH 6 ATP 8 ATP + 2 ATP 2 ATP 2 1.3-DGP 2 3-PG 2 Pyruvate + 2 NADH 6 ATP 6 ATP 2 AcCoA + 6 NADH 18 ATP Citrate Cycle 4 ATP 24 ATP + 2 FADH2 2 ATP + 2 GTP CO2 + H2O H Co-B12 Co-B2 Co-B2 Co-B1 EnergybalanceofGlycolysis:aerobicConditions Bilanz-O2 - 1 ATP S38 ATP - 1 ATP + 2 NADH + 2 ATP + 2 ATP + 2 NADH + 6 NADH + 2 FADH2 + 2 GTP

6. 1 Glucose - 1 ATP 1 G-6-P - 1 ATP 1 FDP + 2 NADH 6 ATP 8 ATP + 2 NADH + 2 ATP 2 ATP 2 1.3-DGP + 2 ATP 2 3-PG + 2 ATP 2 Pyruvate - 6 ATP - 2 NADH - 6 ATP 2 H Co-B12 Co-B1 Co-B2 Co-B2 Energie balanceofGlycolysis:anaerobicConditions Bilanz-Milch LacticAcid Fermentation S2 ATP - 2 NADH LacticAcid