Cyanide is a deadly and notorious poison that inhibits the electron transport chain by competitively inhibiting...
Cyanide is a deadly and notorious poison that inhibits the electron transport chain by competitively inhibiting cytochorome c oxidase.
Given this information answer the following questions:
Cyanide inhibition of the electron transport chain will __________ (simply state raise or lower) ATP production.
Cyanide inhibition of the electron transport chain will __________ (simply state raise or lower) NAD+ levels in the mitochondria.
Cyanide inhibition of the electron transport chain will __________ (simply state raise of lower) NADH levels in the mitochondria.
For part d. explain why.
Homework Answers
- The mechanism of oxidative phosphorylation occurs in mitochondria of live cells.
- Electrons are transported across various components of electron transport chain (ETC), resulting in series of oxidation-reduction reactions within the membrane bound complexes in mitochondria (complex I, II, II, IV).
- Electrons are transported across various components of electron transport chain (ETC), resulting in series of oxidation-reduction reactions. NADH and FADH2 are electron donors, their oxidation creates high concentration energy from electrons. This energy is used to pump proton from matrix to inter membrane space. Flow of protons creates and electrochemical gradient, which is used to generate ATP.
Answers:
a. Lowers ATP production
b. Lowers NAD+ levels
c. Raise NADH levels
d.
- Cyanide binds to complex IV in Electron transport chain.
- Cyanide ion interacts with the iron (Hem group) of the complex, acting as inhibitor of enzyme Cytochrome C Oxidase (aa3).
- Thus, cyanide blocks the electron flow, redox reactions and there will be no proton motive force generated causing stopping of ATP production.
- Cyanide thus also prevent electron flow from electron donors like NADH and FADH2.
- Thus, NADH cannot recycle to NAD+ resulting in increased NADH level and decreased NAD+ level.
Add Answer to:
Cyanide is a deadly and notorious poison that inhibits the
electron transport chain by competitively inhibiting...
B. The electron transport chain (ETC) consists of four protein complexes as shown in the following...
B. The electron transport chain (ETC) consists of four protein
complexes as shown in the following figure.
1. Name the complex(es) where electrons enter the ETC:
2. How many electrons are accepted at the entry point(s) per
cycle?
The Electron Transport Chain showing the four complexes embedded
in the inner mitochondrial membrane. Barbiturates inhibits Complex
I and cyanide inhibits Complex IV.
3. Barbiturates, a class of drugs, interrupt the flow of
electrons in the chain by inhibiting Complex I. Cyanide,...
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is required to accept electron 17. At the very end of the electron transport chain in...
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2. Nicotinamide adenine dinucleotide (NADH) acts as a Redox catalyst in the electron transport chain of...
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What effect does Cyanide have on NAD+ and NADH production in Complex IV of the Electron...
What effect does Cyanide have on NAD+ and NADH production in Complex IV of the Electron Transport Chain? Why would cyanide cause High NADH concentrations and low NAD+ concentrations?
Question 4 Describe, preferably in diagram form, how the electron transport chain generates ATP via the...
Question 4 Describe, preferably in diagram form, how the electron transport chain generates ATP via the process of oxidative phosphorylation. Account for the production of ATP during electron transport according to the chemiosmotic theory. Include sites of inhibition for oligomycin, thermogenin, and cyanide. (10 marks)
Question 4 Describe, preferably in diagram form, how the electron transport chain generates ATP via the process of oxidative phosphorylation. Account for the production of ATP during electron transport according to the chemiosmotic theory. Include...
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please help!
51. Which type of inorganic complexes are found in the electron transport chain? A) Gold-Sulfur (Au-S) B) Titanium-Sulfur (Ti-S) C) Silver-Sulfur (Ag-S) D) Iron-Sulfur (Fe-S) 52. Which of the following statement does not support the chemiosmosis model? A) Intact mitochondria are necessary for ATP synthesis. B) ATP is synthesized when a pH gradient is imposed on mitochondria in absence of NADH C) In cells without mitochondria significant ATP synthesis did not occur D) PH outside the mitochondria is...
B. The electron transport chain (ETC) consists of four protein
complexes as shown in the following figure.
1. Name the complex(es) where electrons enter the ETC:
2. How many electrons are accepted at the entry point(s) per
cycle?
The Electron Transport Chain showing the four complexes embedded
in the inner mitochondrial membrane. Barbiturates inhibits Complex
I and cyanide inhibits Complex IV.
3. Barbiturates, a class of drugs, interrupt the flow of
electrons in the chain by inhibiting Complex I. Cyanide,...
is required to accept electron 17. At the very end of the electron transport chain in the mitochondria, final electron acceptor. A. carbon dioxide B. ADP C. ATP Synthase Doxygen E. NAD+ 18. Select the correct flow of energy transfer during cellular respiration. A. NADHH gradient glucose → ATP B glucose → NADH H gradient ATP C. glucose H gradient → NADH ATP D. glucose ATPH gradient → NADH 19. If a muscle cell has low levels of oxygen, which...
2. Nicotinamide adenine dinucleotide (NADH) acts as a Redox catalyst in the electron transport chain of mitochondria to supply protons for the synthesis of ATP. Calculate the oxidation state for the carbon atoms highlighted in red in the structures below. Which compound is the reduced form and which is the oxidized form? NADH NAD
Question 4 Describe, preferably in diagram form, how the electron transport chain generates ATP via the process of oxidative phosphorylation. Account for the production of ATP during electron transport according to the chemiosmotic theory. Include sites of inhibition for oligomycin, thermogenin, and cyanide. (10 marks)
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please help!
51. Which type of inorganic complexes are found in the electron transport chain? A) Gold-Sulfur (Au-S) B) Titanium-Sulfur (Ti-S) C) Silver-Sulfur (Ag-S) D) Iron-Sulfur (Fe-S) 52. Which of the following statement does not support the chemiosmosis model? A) Intact mitochondria are necessary for ATP synthesis. B) ATP is synthesized when a pH gradient is imposed on mitochondria in absence of NADH C) In cells without mitochondria significant ATP synthesis did not occur D) PH outside the mitochondria is...
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