1. The initial rate of an enzymatic reaction was determined at differentsubstrate concentrations. The data is below:[S] (μmoles/L)v [(μmol/L) min -¹]205010020065102120135A. Graph Michaelis and Menten and use it to estimate Vmax and Km.B. Make the Lineweaver-Burk plot and use it to estimate Vmax and Km.C. What would you expect to find in the values of Vmax and Km if you do thesame experiment but with twice the amount of enzyme used here. Draw youranswer on the MM graph.2. The Table below shows the data collected by an undergraduate student ofthe enzyme rate at different substrate concentrations. In the presence and inthe absence of an inhibitor.

Enzyme kinetics is the study of the rate at which enzymes convert substrates into products, as well…

Answered: 1. The initial rate of an enzymatic…

Biochemistry

9th Edition

ISBN:9781319114671

Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Chapter1: Biochemistry: An Evolving Science

Section: Chapter Questions

Problem 1P

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In an experiment, three batches of the same enzyme were incubated with 5 mM of substrate and 2 mM of inhibitor. In each batch, the inhibitor was of a different type: a.Batch 1: competitive inhibitor b.Batch 2:uncompetitive inhibitor c.Batch 3:non-competitive inhibitor Assuming that Vmax = 80 mM s', Km = 8 mM, and Kiof all three inhibitors was 10 mM, which of the inhibitors was the most efficient on Vo? Explain your answer.
1. Make a Lineweaver-Burk plot and use the plot to complete the information in the table and the following questions. a. Is it possible for the enzyme to overcome the effect of the inhibitor in question from the chart. Explain. b. What prevents this enzyme from being an even more catalytically efficient enzyme? c. What do single molecule data indicate about the validity of ensemble data?d. What is the reason that humans are insensitive to sulfa drugs?
Graph a double reciprocal plot that satisfy the following: a. Michaelis-Menten kinetics enzyme, b. an inhibitor that binds only free enzyme (competitive), c. an inhibitor that binds only enzyme-substrate complex.
1. Start with the Michaelis-Menten equation and convert it to a double-reciprocal equation. Show how you would make a linear Lineweaver-Burk plot using this equation. 2. Based on th chart make a Lineweaver-Burk plot and later use the plot to complete the information in the table.
Which of the following is true about a mixed type inhibition? a. None of these is true b. A Lineweaver-Burk plot will give parallel lines c. The lines of a Lineweaver-Burk graph will cross in the top left quadrant d. The KM will change but not the Vmax
15) The graph at right shows the results of reaction rate vs. substrate concentration for a Michaelis-Menten type enzyme 16) Th a. True b. False* reaction rate substrate concentration
You run a series of assays at 25°C on enzyme A. You measure the velocity for a range of S concentrations. What is the Km (in mM) for Enzyme A?
You design an enzyme assay and choose a substrate concentration equal to the Km of the enzymatic reaction. You measure the rate of the reaction at this substrate concentration to be 75.0 μmol/min. Calculate the Vmax of this reaction in μmol/min. Express your answer with one decimal place. Your previous attempt suffered from low signal-to-noise ratio when you used a substrate concentration equal to the Km. So you decide to increase the substrate concentration to 0.45 mM. You remeasure the rate of the reaction at this new substrate concentration and find it to be 135.0 μmol/min. Using the same Vmax value found above, calculate the Km value of this enzymatic reaction. Express your answer in μM with one decimal place. Considering the previous two questions, what would be the rate of the reaction at a substrate concentration of 0.01 mM? Express your answer in μmol/min with one decimal place.
a. What is the Vmax of this enzyme WITHOUT inhibitor? Please show your work. b. What is the Km of this enzyme WITHOUT inhibitor? Please show your work. c. The specificity constant of enzyme X is 8 x 10^7 /(M * seconds) What is the kcat of enzyme X WITHOUT inhibitor? Please show your work d. What was the concentration of enzyme used for measuring the kinetics of enzyme X WITHOUT inhibitor? Please show your work
Given the parameters below:1. u(max) = 1.0/ h Ks = 10 uM2. u(max) = 0.7/h Ks = 2 uM) a. sketch the comparative Substrate Concentration vs.u(max) graphs for 1. b. sketch the comparative Substrate Concentration vs.u(max) graphs for 2. (answer a and b)
In response to epinephrine for the "fight or flight" response, there is INCREASED activity of PEP carboxykinase in the liver. What is the function of PEP carboxykinase? Enter your answer here Why is it beneficial to increase the activity of PEP carboxykinase in the liver in response to epinephrine for the "fight or flight" response? Enter your answer here
An uncatalyzed reaction has a rate of 6.2x10-7 sec-1. When an enzyme is added the rate is 1.2x104 sec-1. Calculate rate of enhancement caused by enzyme. Options are: A. 1.9x1010 B. 5.2x10-11 C. 7.4x10-3 D. The data are not appropriate for calculation requested. E. 1.2x104

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