Solution-How does dehydration trap so much chemical energy

Describe the process of dnareplication
April 15, 2020
Solution-Explain the difference and why tig is so important
April 15, 2020

Solution-How does dehydration trap so much chemical energy

1. The energies of glycolysis shows that there is a large drop in free energy upon oxidation of glycerladehydes 3-phosphate to 1,3-bisphosphoglycerate. In the presence of oxygen, some of this energy is ultimately converted into ATP production. However, no such conversion happens under anaerobic conditions. Explain why?

2. How does the nonpolar nature of the active site in hexokinase promote phosphoryl transfer from ATP?

3. delta G knot for the aldolase reaction is 22.8 Kj/mol. In the cell at 37degree C, [DHAP]/[GAP]=5.5. Calculate the equilibrium ratio of [FBP]/[GAP] when [GAP]=10 to the power -4 M.

4. 2-phosphoglycerate and phosphoenolpyruvate differ only by dehydration between C-2 and C-3, yet the difference in delta G knot prime of hydrolysis is about -50Kj/mol. How does dehydration “trap” so much chemical energy?