4. Rotenone will affect oxygen production in cholorplasts as it is involved in blocking of electron transport which is required for splitting of water and production of oxygen.Other poisons do not affect oxygen production as they do not interfere with electron flow or transport.
3. In the lab, metabolic poisons can be used to study ATP synthesis and oxygen consumption....
. In the lab, metabolic poisons can be used to study ATP synthesis and oxygen consumption. The action of several metabolic poisons is given in the table below Poison Action Oligomycin Binds and blocks the proton channel in ATP synthase Carbon monoxide Inhibits cytochrome oxidase 2,4-dinitrophenol (DNP) Binds protons and moves them down their electrochemical gradient Rotenone Blocks electron transfer at NADH dehydrogenase 3b. Would you expect rotenone to be more, less or equally poisonous as carbon monoxide? Explain your...
Action of metabolic processes: Oligomycin - Binds and blocks the proton channel in ATP synthase Carbon monoxide - Inhibits cytochrome oxidase 2,4-dinitrophenol (DNP) - Binds protons and moves them down their electrochemical gradient Rotenone - Blocks electron transfer at NADH dehydrogenase 1.) Which metabolic poison described above will affect oxygen production in chloroplasts? Why other poisons described above do not affect oxygen production in chloroplasts? Explain your answers.
Poison Action Oligomycin Binds and blocks the proton channel in ATP synthase Carbon monoxide Inhibits cytochrome oxidase 2,4-dinitrophenol (DNP) Binds protons and moves them down their electrochemical gradient Rotenone Blocks electron transfer at NADH dehydrogenase Which metabolic poison described will affect oxygen production in chloroplasts? (10pts) Why other poisons described do no affect oxygen production in chloroplasts? (12pts) Explain your answers.
Action of metabolic processes: Oligomycin - Binds and blocks the proton channel in ATP synthase Carbon monoxide - Inhibits cytochrome oxidase 2,4-dinitrophenol (DNP) - Binds protons and moves them down their electrochemical gradient Rotenone - Blocks electron transfer at NADH dehydrogenase 1.) Would you expect rotenone to be more, less or equally poisonous as carbon monoxide? Explain your answer 2.) Which metabolic poison described above will affect oxygen production in chloroplasts? Why other poisons described above do not affect oxygen...
Would you expect rotenone to be more, less or equally poisonous as carbon monoxide? Explain your answer Which metabolic poison described in question 3 will affect oxygen production in chloroplasts? Why other poisons described in question 3 do not affect oxygen production in chloroplasts? Explain your answer In the lab, metabolic poisons can be used to study ATP synthesis and oxygen consumption. The action of several metabolic poisons is given in the table below: Poison Action Oligomycin Binds and blocks...
3b) Would you expect rotenone to be more, less or equally poisonous as carbon monoxide? Explain you answer. (10pt) 3. In the lab, metabolic poisons can be used to study ATP synthesis and oxygen consumption. The action of several metabolic poisons is given in the table below: Poison Oligomycin Carbon monoxide 2,4-dinitrophenol (DNP) Rotenone Action Binds and blocks the proton channel in ATP synthase Inhibits cytochrome oxidase Binds protons and moves them down their electrochemical gradient Blocks electron transfer at...
Please explain why as well. 4. On average, how many ATP molecules are synthesized per NADH? A. 0 B. 1 C. 2 D. 3 E. 4 5. The FADH2 that is produced donates its electrons directly to A. Complex I B. Complex III C. Complex IV D. Coenzyme Q E. Cytochrome C F. O2 6. In the Binding Change Mechanism the 3 conformational states that occur in the F1 subunit of ATP synthase depend on A. interaction with b subunits...
37. During dietary restriction, amino acids may be used as metabolic fuels. In this process, glutamate is converted by glutamate dehydrogenase to alpha ketoglutarate. Alpha ketoglutarate binds to the beta subunit of ATP synthase and inhibits its catalytic activity. Predict the effects of increased alpha ketoglutarate on oxygen consumption and the production of reactive oxygen species. 38. Is this consistent with the hypothesis that dietary restriction can slow the aging process?
Q13 Cyanide is a deadly poison that attaches to cytochrome c oxidase, the last protein in the electron transport chain before the terminal electron acceptor. Based on your knowledge of the electron transport chain, which statement below best describes the action of cyanide on the body? A. Cyanide does not allow the Krebs cycle to be completed by blocking acetyl CoA from entering this cycle. This action shuts down the entire process of cellular metabolism. B. Cyanide does not allow...
1. The Mystery of the Seven Deaths-- The results in Part III suggests which process of respiration [glycolysis, pyruvate processing, citric acid cycle, or the electron transport chain] was affected? Why is this the process you suspect [based on the results]? Does cyanide poisoning increase ATP production or decrease it? Explain your answer. 2. The effect of gramicidin-- List the one(s) that would remain the same. List the one(s) that would decrease (or go to zero). List the one(s) that...