Lehninger Principles of Biochemistry
7th Edition
ISBN: 9781464126116
Author: David L. Nelson, Michael M. Cox
Publisher: W. H. Freeman
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Chapter 6, Problem 11P
(a)
Summary Introduction
To determine: The Kcat for happyase.
Introduction: Enzyme kinetics is defined as the study of
(b)
Summary Introduction
To determine: The measured Km of happyase for its substrate HAPPY.
Introduction: Enzyme is defined as biological macromolecules that can enhance a rate of chemical reactions. Enzymes acts on a molecule known as substrate and the substrate is converted into products. All chemical reactions are regulated by enzymes.
(c)
Summary Introduction
To calculate: The values of
Introduction: Enzyme inhibitors are defined as chemical molecules that bind at active site of enzymes and prevent the binding of substrate with enzyme. There are two types of inhibitors that are reversible and irreversible inhibitors.
(d)
Summary Introduction
To determine: What type of inhibitor is anger.
Introduction: Inhibitors are chemical molecules that inhibit activity of enzyme by binding either at active site of enzyme or region other than active site. It prevents the binding of substrate by changing the shape and conformation of enzyme.
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The rate data from an enzyme catalyzed reaction with and without an inhibitor present is found in the image.
Question: what is the KM and Vm and the nature of inhibition
1. Estimate the concentration of an enzyme within a living cell. Assume that:
(a): fresh tissue is 80% water and all of it is intracellular
(b): the total soluble protein represents 15% of the weight
(c): all the soluble proteins are enzymes
(d): the average molecular weight of the proteins is 150,000
(E): about 100 different enzymes are present
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Chapter 6 Solutions
Lehninger Principles of Biochemistry
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- The following data were recorded for the enzyme catalyzed conversion of S -> P. Question: Estimate the Vmax and Km. What would be the rate at 2.5 and 5.0 x 10-5 M [S] ?arrow_forwardPlease helparrow_forwardThe following data were recorded for the enzyme catalyzed conversion of S -> P Question: what would the rate be at 5.0 x 10-5 M [S] and the enzyme concentration was doubled? Also, the rate given in the table is from product accumulation after 10 minuets of reaction time. Verify these rates represent a true initial rate (less than 5% turnover). Please helparrow_forward
- The following data was obtained on isocitrate lyase from an algal species. Identify the reaction catalyzed by this enzyme, deduce the KM and Vmax , and determine the nature of the inhibition by oxaloacetate. Please helparrow_forwardIn the table below, there are sketches of four crystals made of positively-charged cations and negatively-charged anions. Rank these crystals in decreasing order of stability (or equivalently increasing order of energy). That is, select "1" below the most stable (lowest energy) crystal. Select "2" below the next most stable (next lowest energy) crystal, and so forth. A B 鹽 (Choose one) +2 C +2 +2 (Choose one) D 鹽雞 (Choose one) (Choose one)arrow_forward1. Draw the structures for the fats A. 16:2: w-3 and B. 18:3:49,12,15 2. Name each of the molecules below (image attached)arrow_forward
- draw the structures for the fats A. 16:2:w-3 B 18:3:9,12,15arrow_forward1. Below is a template strand of DNA. Show the mRNA and protein that would result. label the ends of the molecules ( refer to attached image)arrow_forwardAttach the followina labels to the diagram below: helicase, single stranded binding proteins, lagging strand, leading strand, DNA polymerase, primase, 5' ends (3), 3' ends (3) (image attached)arrow_forward
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