Reference no: EM13886248 , Length: 2000 words
Explain Features of an enzyme.
Question 1 : Demonstrate the activation energy.
Question 2 : Demonstrate how enzymes are specific in both their substrate and reactant.
Question 3 : Demonstrate how a deficiency in aldolase B causes hereditary fructose intolerance
Question 4 : Demonstrate the role of ATP synthase in energy transfer.
Question 5 : Demonstrate how defects in ATP energy transfer could cause specified cytopathologies.
Question 6 : Construct a dynamic model to demonstrate why the citric acid cycle is central to aerobic metabolism.
Question 7 : Explain how enzymes act as catalysts in biochemical processes
Question 8 : Explain how a deficiency in aldolase B can be responsible for hereditary fructose intolerance.
Question 9 : Discuss the specific substrate acted on by aldolase B during the breakdown of fructose.
Question 10 : Explain the role of aldolase B in the breakdown of fructose by discussing the products of the reaction.
Question 11 : Explain what would hypothetically happen to the amount of ATP available to a cell if the entire Cori cycle occurred and remained within that single cell
Question 12 : Explain where in the citric acid cycle a hypothetical defect of an enzyme could occur that would decrease the overall ATP production, including the consequences of the defect.
Question 13 : Explain the role of coenzyme Q10 in ATP synthesis as part of the electron transport chain.
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Determining the drag and the lift slope
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Demonstrate the activation energy
: Demonstrate the activation energy.Demonstrate how enzymes are specific in both their substrate and reactant.Demonstrate how a deficiency in aldolase B causes hereditary fructose intolerance.Demonstrate the role of ATP synthase in energy transfer.
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: Use tabulated thermodynamic data to find ΔG° for this reaction at the standard temperature of 25°C. Then calculate the calculate ΔG°1000 for this process when it occurs at 1000 K.
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