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Explain why FADH2 produces fewer ATP molecules than NADH when it passes its electrons down the Electron transport chain.
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- . Explain why coenzyme Q is an effective mobile electron carrier in the electron-transport chain.Describe the movement of protons that is caused by the action of the mitochondrial electron transport chain and explain why more ATP can be generated from the addition of NADH to the system as opposed to succinate.explain why the statement is correct. Within the eukaryotic cell, most of the energy stored in ATP is produced through the: mitochondrion completing the oxidation of pyruvate (3 carbon chains)
- Explain why ATP hydrolysis occurs so early in glycolysis,an ATP-producing pathwayDescribe the conformational changes (including substrates that bind to the different conformations) that occur in the F1 domain of ATP Synthase that result from protons flowing through the Fo domain down their concentration gradient:PLEASE EXPLAIN WHY ATP AND NADH ARE REQUIRED FOR THIS PATHWAY AND WHY THEY ARE NEEDED IN DIFFERENT AMOUNTS!!!!
- Cancer cells can use NADH to make electrons flow in the electron transport chain. is this statement true or false?Uncoupling agents are proteins spanning the inner mitochondrial membrane that allow protons to pass through the membrane and bypass the channel of ATP synthase. Describe the consequences to the proton gradient and ATP production.?A larger proton gradient is required to forma single ATP in chloroplasts than in mitochondria. Suggest a reason why. Hint: Ions can move across the thylakoid membrane moreeasily than across the inner mitochondrial membrane.