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This Concept Map, created with IHMC CmapTools, has information related to: krebs_cycle, (4) α-Ketoglutarate (5C) by process substrate–level phosphorylation (5) Succinyl CoA (4C) to Succinate (4C), Krebs cycle also known as citric acid cycle, Glycolysis produces pyruvate acid, pyruvate acid from cytosol enters mitochondrial matrix (1) Acetyl group from acetyl CoA (2C) attached to oxaloacetate to form citrate (6C), (6) Succinate(4C) is oxidized to Fumarate (4C) by process hydration 1 water molecule added, Krebs cycle occurs in mitochondria, (7) Fumarate (4C) converted to Malate (4C) by process dehydrogenation (8) Malate (4C) oxidized to reform Oxaloacetate (4C), Krebs cycle / refer 5 (5) Succinyl CoA (4C) to Succinate (4C), (5) Succinyl CoA (4C) to Succinate (4C) CoA is displaced by a phosphate group, which is transferred to GDP and GTP is formed, then ADP is converted to form ATP, Krebs cycle breakdown pyruvate acid, (4) α-Ketoglutarate (5C) whereby is oxidized and another CO2 is removed, pyruvate acid from cytosol enters mitochondrial matrix mitochondria, (2) Citrate rearranged to an isomer to form Isocitrate by process oxidative decarboxylation (3) Isocitrate converted to α-Ketoglutarate (5C), Krebs cycle / refer to 3 (3) Isocitrate converted to α-Ketoglutarate (5C), Krebs cycle / refer 7 (7) Fumarate (4C) converted to Malate (4C), Krebs cycle / refer 6 (6) Succinate(4C) is oxidized to Fumarate (4C), (3) Isocitrate converted to α-Ketoglutarate (5C) whereby a CO2 is removed and NAD+ is reduced to NADH, (3) Isocitrate converted to α-Ketoglutarate (5C) by process oxidative decarboxylation (4) α-Ketoglutarate (5C), (7) Fumarate (4C) converted to Malate (4C) by process dehydrogenation 2 molecules of hydrogen atoms transferred to NAD+ forming NADH and H+, (5) Succinyl CoA (4C) to Succinate (4C) by process dehydrogenation 2 hydrogen atoms transferred to FAD to form FADH2