Explain how much ATP is produced in oxidative phosphorylation and where in the pathway it comes from. Chemiosmosis Chemiosmosis is the process through which a cell creates usable energy. The cell uses chemiosmosis in order to turn chemical energy into an electrochemic...
How much ATP does one proton produce? How much adenosine triphosphate is in a cell? How is energy stored in ATP? How many atp are produced using the energy from each nadh? How many ATP molecules are produced in glycolysis? How many ATP are produced in the electron transport chain?
Glycolysis can be broken up into two different parts – fast glycolysis and slow glycolysis.The determining factor is the direction in which the end product, pyruvate, goes. Within fast glycolysis the pyruvate is converted into lactate. With lactate our body can resynthesize ATP at a much faster...
Which of the following statements is correct about glycolysis? (A) It is the conversion of glucose into pyruvate (B) The Glycolysis pathway can take place aerobically and anaerobically (C) Phosphoenolpyruvate acts as the second source of ATP in glycolysis (D) All of these Answer: (D) All of...
To sustain muscle activity, ATP needs to be regenerated by energy systems (aerobic oxidation, anaerobic glycolysis) so that the ratio of ATP/AMP is maintained in a state of dynamic equilibrium. When muscle stops working, we should expect a natural shift in this ratio with ...
It is unlikely, for example, that the retina is much more impermeable than the RPE to diffusion but more permeable to water flow. But the diffusional permeability (solute transport) and hydraulic permeability/conductivity (solvent/fluid transport) are two quite different material properties, and ...
Therefore, retention of an “incorrect” progene next to a “correct” progene on the “correct” template will be much weaker. The responsibility to completely exclude “incorrect” progenes lies with the polymerase that is supposed to acquire substantial stereospecificity in the process of its ...
2020). Pma1 which generates the proton gradient and drives the active transport of nutrients by H+-symport is the most abundant protein in the yeast plasma membrane (Ferreira et al. 2001). It is also a major consumer of cellular ATP and has been estimated to consume at least 20% of ...
How much ATP is generated in catabolism from the NADH? Is NAD+ or NADH used in catabolic reactions? Why can't acetyl CoA make glucose? Why is ATP required for glycolysis? Explain respiration, glycolysis of the Krebs cycle Why does NAD+ reduction release energy?
How many ATPs are produced in anaerobic respiration? How much ATP is produced in aerobic respiration? How many ATP molecules are produced and consumed by glycolysis? How many ATP molecules are usually produced per NADH? a. 1 b. 3 c. 36 d. 10 ...