ATP + H. 2O ADP + Pi ΔGº’ = -30.5 kj/mol . Conclusion: the thermodynamic lability of ATP is used frequently to drive reactions to the right. VI. Why is ATP chosen as the energy currency of the cell? (Recall from the first lecture that ATP is continually being made and used) Why does ATP have such a large free energy of
Dec 24, 2014 · In eukaryotic cells, cellular respiration begins with the product of glycolysis (pyruvic acid) being transported into the mitochondria. A series of metabolic pathways (the Krebs cycle and others) in the mitochondria result in the further breaking of chemical bonds and the liberation of ATP. CO 2 and H 2 O are end products of these reactions ...
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Glycolysis breaks down glucose and forms pyruvate with the production of two molecules of ATP. The pyruvate end product of glycolysis can be used in either anaerobic respiration if no oxygen is available or in aerobic respiration via the TCA cycle which yields much more usable energy for the cell.
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The carbon that carried the hydroxyl group is now converted into a carbonyl group. The end product is oxaloacetate which can then combine with acetyl-coenzyme A and begin the Krebs’ Cycle all over again. Amino Acid Energy Boosters. Amino acids can be converted via the Krebs’ cycle to glucose for energy or for storage as glycogen and fat.
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c) Coupled hydrolysis of ATP during the addition reaction. d) Carboxylation of glucose-6-phosphate followed by decarboxylation during the addition to the growing glycogen chain. 6) An important product of the Pentose Phosphate pathway is the formation of . a) ATP. b) Glucose-6-phosphate for glycogen synthesis
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Substrate-level phosphorylation: 2 ATP from glycolysis + 2 ATP (directly GTP) from Krebs cycle Oxidative phosphorylation ... Possible Products of the End-On Addition of N3-to N5+ and Their ...