Cyanide is a chemical that irreversibly binds to (and prevents the function of) the enzyme cytochrome...
Cyanide is a chemical that irreversibly binds to (and prevents the function of) the enzyme cytochrome oxidase, an essential component on the electron transport chain. Explain the effect this would have on cellular respiration and ATP synthesis.
Why would this be lethal?
Many plants produce cyanide in their tissue why would they do this
Homework Answers
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Cyanide is a chemical that irreversibly binds to (and prevents
the function of) the enzyme cytochrome...
Cyanide poisoning causes a type of hypoxia by inhibiting cytochrome c oxidase, which is the very last protein in the ele...
Cyanide poisoning causes a type of hypoxia by inhibiting cytochrome c oxidase, which is the very last protein in the electron transport chain. A) Explain how/why cyanide inhibition of cytochrome c oxidase interferes with cellular respiration. B) Does the cell have any alternative to keep glycolysis going? C) Explain the purpose of oxygen in respiration.
Question 4 You are now convinced that you know the cause of death for these victims...
Question 4 You are now convinced that you know the cause of death for these victims and quickly report it back to the police as this is a very dangerous situation. After realizing that the electron transport chain was no longer functioning, you started to suspect poisoning and ran a blood test for various poisons that you knew affected the electron transport chain. The test of all seven patients came back positive for cyanide. Cyanide irreversibly binds to cytochrome c...
Which describes the effect of cyanide on cellular respiration? Question 20 of 25 ) Which describes...
Which describes the effect of cyanide on cellular
respiration?
Question 20 of 25 ) Which describes the effect of cyanide on cellular respiration? O inhibits the the breakdown of acetyl-CoA by the citric acid cycle O inhibits the function of pyruvate kinase in glycolysis O inhibits the function of cytochrome c oxidase in the electron transport chain O inhibits the production of acetyl-CoA by the pyruvate dehyrogenase complex
Q13 Cyanide is a deadly poison that attaches to cytochrome c oxidase, the last protein in...
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...
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...
You will be assigned a specific cellular respiration inhibitor for this discussion (Cyanide is my cellular...
You will be assigned a specific cellular respiration inhibitor for this discussion (Cyanide is my cellular respiration). As you know by now, cellular respiration is essential for many organisms including plants, animals, and many single-celled organisms. What happens when a molecule interrupts cellular respiration? How might it do so? You should spend approximately 3 hours on this assignment. Instructions Answer the following questions in a few paragraphs. What is the basic purpose of cellular respiration? What are the reactants and...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring compound that binds to protein complex IV of the mitochondrial electron transport chain and prevents transfer of electrons from the protein. Metformin: At the cellular level, chemically synthesized metformin, a drug commonly prescribed for Type 2 diabetes, inhibits mitochondrial respiration by blocking complex I. Dinitrophenol: Dinitrophenol is a metabolic poison that can be sold legally as a pesticide. Although it is lethal to humans,...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring compound that binds to protein complex IV of the mitochondrial electron transport chain and prevents transfer of electrons from the protein. Metformin: At the cellular level, chemically synthesized metformin, a drug commonly prescribed for Type 2 diabetes, inhibits mitochondrial respiration by blocking complex I. Dinitrophenol: Dinitrophenol is a metabolic poison that can be sold legally as a pesticide. Although it is lethal to humans,...
Part II – Autopsy Report • Immediate cause of death was hypoxia (suffocation or lack of...
Part II – Autopsy Report • Immediate cause of death was hypoxia (suffocation or lack of oxygen). • Tissue sections from heart, lung, kidney, and liver all show massive cell death. • Staining with specific dyes showed major mitochondrial damage within the affected tissues. • Oxygen levels in the patients’ blood were approximately 110 mm Hg (normal range is 75 – 100 mm Hg). Questions 1. Recalling your knowledge of the function of organelles, what function of the cells was...
3b) Would you expect rotenone to be more, less or equally poisonous as carbon monoxide? Explain...
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...
Which describes the effect of cyanide on cellular
respiration?
Question 20 of 25 ) Which describes the effect of cyanide on cellular respiration? O inhibits the the breakdown of acetyl-CoA by the citric acid cycle O inhibits the function of pyruvate kinase in glycolysis O inhibits the function of cytochrome c oxidase in the electron transport chain O inhibits the production of acetyl-CoA by the pyruvate dehyrogenase complex
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...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring compound that binds to protein complex IV of the mitochondrial electron transport chain and prevents transfer of electrons from the protein. Metformin: At the cellular level, chemically synthesized metformin, a drug commonly prescribed for Type 2 diabetes, inhibits mitochondrial respiration by blocking complex I. Dinitrophenol: Dinitrophenol is a metabolic poison that can be sold legally as a pesticide. Although it is lethal to humans,...
Inhibitors of Oxidative Phosphorylation The following chemicals inhibit oxidative phosphorylation: Cyanide: Cyanide is a naturally occurring compound that binds to protein complex IV of the mitochondrial electron transport chain and prevents transfer of electrons from the protein. Metformin: At the cellular level, chemically synthesized metformin, a drug commonly prescribed for Type 2 diabetes, inhibits mitochondrial respiration by blocking complex I. Dinitrophenol: Dinitrophenol is a metabolic poison that can be sold legally as a pesticide. Although it is lethal to humans,...
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...
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