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This Concept Map, created with IHMC CmapTools, has information related to: krebs cycle 2012, Krebs cycle / refer 8 Malate (4C), Citrate (6C) converted to its isomer, isocitrate, by removal of one water molecule and addition another. Process is isomerization. Refer to 2 Krebs cycle /, Krebs cycle / CoA is displaced by a phosphate group, which is transferred to GDP and GTP is formed, then ADP is converted to form ATP. Process substrate- level phosphorylation. Refer 5 Succinate(4C), α-Ketoglutarate (5C) is oxidized, reducing NAD+ to NADH. Resulting compound loses a CO2 molecule. Process oxidative decarboxylation. Refer to 4 Succinyl CoA (4C), Krebs cycle occurs in mitochondria, Isocitrate (6C) is oxidized, reducing NAD+ to NADH. Resulting compound loses a CO2 molecule. Process oxidative decarboxylation. Refer to 3 α-Ketoglutarate (5C), Citrate (6C) converted to its isomer, isocitrate, by removal of one water molecule and addition another. Process is isomerization. Refer to 2 Isocitrate (6C), Krebs cycle / 1 water molecule added. Process hydration. Refer 7 Malate (4C), Oxaloacetate (4C) Acetyl CoA (from oxidation of pyruvate) adds its two-carbon acetyl group to oxaloacetate. Refer 1 Citrate (6C), Krebs cycle also known as Citric acid cycle, Glycolysis produces pyruvate, mitochondria whereby Citrate (6C), Krebs cycle / Acetyl CoA (from oxidation of pyruvate) adds its two-carbon acetyl group to oxaloacetate. Refer 1 Citrate (6C), Malate (4C) oxidation of malate, reducing NAD+ to NADH. Regeneration of oxaloacetate Process oxidation. Refer 8 Oxaloacetate (4C), Succinyl CoA (4C) CoA is displaced by a phosphate group, which is transferred to GDP and GTP is formed, then ADP is converted to form ATP. Process substrate- level phosphorylation. Refer 5 Succinate(4C), pyruvate Acetyl CoA (from oxidation of pyruvate) adds its two-carbon acetyl group to oxaloacetate. Refer 1 Citrate (6C), Krebs cycle / is oxidized, reducing NAD+ to NADH. Resulting compound loses a CO2 molecule. Process oxidative decarboxylation. Refer to 4 Succinyl CoA (4C), Krebs cycle / 2 hydrogen atoms transferred to FAD to form FADH2. Succinate oxidised. Process oxidation. Refer 6 Fumarate (4C), Krebs cycle breakdown pyruvate, Succinate(4C) 2 hydrogen atoms transferred to FAD to form FADH2. Succinate oxidised. Process oxidation. Refer 6 Fumarate (4C)