Chart Cellular Respiration

Chart Cellular Respiration - CoA) FADH+/FADH 2 2 (1 for...

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Cellular Respiration Metabolic Pathway or Step Beginning Molecule Ending Molecule ATP Produced Substrate Level Phosphorylation Carbon Dioxide Given off Coenzymes Used/produced ATP produced Oxidative phosphorylation Glycolysis Glucose (Phosphorylate d to get started) Pyruvic acid 4 ATP made – 2ATP used = net 2 ATP none NAD+/NADH 2 Transition Reaction Pyruvic acid Acetyl CoA None 2 NAD+/NADH 2 Kreb’s Cycle (Citric Acid ) Oxaloacetic acid as pickup molecule for acetyl CoA and forms citric acid Oxaloacetic acid is reformed to continue the cycle 2 GTP = 2 ATP per glucose (1 for each acetyl CoA) 4 per glucose (2 for each acetyl CoA) NAD+/NADH 6 (3 for each acetyl
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Unformatted text preview: CoA) FADH+/FADH 2 2 (1 for each acetyl CoA) Total per glucose 4 ATP 6 CO 2 10 NADH 2 FADH 2 Electron Transport Chain NADH and FADH 2 deliver e- and H+ to cytochromes where H+ pumped into intermembrane space ATP and metabolic water NAD+ and FADH+ none none Oxygen is final electron acceptor; ATP synthase makes ATP via chemiosmosis from NADH: 30 ATPs from FADH 2 : 4 ATPs TOTAL PER GLUCOSE 38 ATPs 4 ATPs 6 CO 2 34 ATPs Metabolic Pathway Aerobic Anaerobic Cytosol Mitochondria Glycolysis x x Transition x x Kreb’s Cycle x x ETC x x Fermentation Lactic Acid in muscles x x...
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This note was uploaded on 06/14/2011 for the course BIOL 101 taught by Professor Chattergee during the Fall '06 term at South Carolina.

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