Lehninger Principles of Biochemistry 7E & SaplingPlus for Lehninger Principles of Biochemistry 7E (Six-Month Access)
7th Edition
ISBN: 9781319125882
Author: David L. Nelson, Michael M. Cox
Publisher: W. H. Freeman
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Chapter 6, Problem 10P
(a)
Summary Introduction
To calculate: The Kcat of enzyme.
Introduction:
Enzyme kinetics is defined as the study of enzyme catalyzed
(b)
Summary Introduction
To calculate: The values of Vmax and Km that will be observed in the presence of sufficient amount of an uncompetitive inhibitor to generate an
Introduction:
Inhibitor is a chemical molecule that may inhibit the activity of enzyme by binding at its active site. It prevents the binding of substrate with enzyme. There are two types of inhibitors such as reversible and irreversible inhibitors.
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The preferred substrate is T because the enzyme half-saturates at 7.00 mM for T, but requires 28.0 mM for U, and 112 mM for S.
b
Question Content Area
The rate constant k 2 with substrate S is 9.60×107 sec-1, with substrate T, k 2 = 6.00×104 sec-1, and with substrate U, k 2 = 2.40×106 sec-1.
Calculate the catalytic efficiency with S, T, and U.
Catalytic efficiency with S =
Catalytic efficiency with T =
Catalytic efficiency with U =
Does enzyme A use substrate S, substrate T, or substrate U with greater catalytic efficiency?
Fumerase catalyzes the conversion of fumerate to malate.
fumerate + H2O ⇋ malate
The turnover number, kcat, for fumerase is 8.00×102 sec-1. The Km of this enzyme for fumerate is 5.00×10-3 μmol mL-1.
a
In an experiment using 2.00×10-3 μmol·mL-1, what is Vmax?
Suppose you wanted to make a buffer of exactly pH 7.00 using KH2PO4 and Na2HPO4. If the final solution was 0.18 M in KH2PO4, you would need 0.25 M Na2HPO4. Now assume you wish to make a buffer at the same pH, using the same substances, but want the total phosphate molarity ([HPO42−]+[H2PO−4]) to equal 0.20 M. What concentration of the Na2HPO4 would be required?
Chapter 6 Solutions
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