1. Suppose the following kinetic data was collected for an enzymatic reaction For eachsubstrate concentration, calculate and show the average initial rate and its standarddeviation.[substrate), mMinitial rate, min¹Average initial rate, min¹150621506015063404440414043222121115Calculation of rates (min) for acid phosphatase reactionGeneral Procedure for the End Point Assay of What Germ Acid PhosphateThe general procedure used for each assay except the concentration of p-nitrophenyl phosphatewas varied. The concentration of acid phosphatase was 7.2 μM) and each assay involve a 5-minuteincubations with enzyme. Using this information along with the extinction coefficient of the p-nitrophenol product of the reaction allows for the initial rate to be expressed in terms of min¹.Vo[E]=absorbance at 410 nm0.677= initial rate in min-1

Enzyme are proteins that catalyse the conversion of substrate into product. The mathematical…

Answered: 1. Suppose the following kinetic data…

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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The enzymatic activity of PFK1 is generally measured by set- ting up a coupled enzyme assay system whereby aldolase, triose phos- phate isomerase, and glycerol-3-phosphate dehydrogenase are added to the assay mixture. For the latter enzyme, NADH is added and its change in concentration is readily monitored at 340 nm. Write the chain of reactions catalyzed by these enzymes using structural formulas, label substrates and products, and explain why the coupled en- zyme assay system leads to oxidation of NADH. While the chain of reac- tions is similar to those in glycolysis, there is a critical difference because of the dehydrogenase enzyme. Describe how this enzyme causes the chain of reactions to differ from those in glycolysis.
If the allosteric coefficient for ATCase increases from 250 to 1300, the rate of the N-carbamoylaspartate formation: O stays the same and the sigmoidal curve of reaction rate as a function of substrate shifts up. O decreases and the sigmoidal curve of reaction rate as a function of substrate shifts to the left. O increases and the sigmoidal curve of reaction rate as a function of substrate shifts to the left. O stays the same and the sigmoidal curve of reaction rate as a function of substrate shifts to the right. O decreases and the sigmoidal curve of reaction rate as a function of substrate shifts to the right. Question 9 Which of the following CANNOT be targeted for phosphorylation to modulate the activity of an enzyme? O Ser Ala O None of the amino acids listed can be targeted for phosphorylation to modulate enzyme activity The Tyr
Test Tube # Enzyme 1 (uL added) Product Formation (umol) 1 0 0 2 25 0.08 3 50 0.15 4 75 0.22 5 100 0.3 6 125 0.37 7 150 0.45 8 175 0.53 9 200 0.59 10 225 0.68 11 250 0.74 A. Make a graph is Excel/Google Sheets plotting Product formation (umol) on the y-axis and Enzyme volume added on the x-axis. Paste the graph below. Make sure to have axis labels and a title on the graph. B. What can you conclude from this graph, ie how is the amount of product formed changing as a function of the amount of enzyme present?
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
Determine the minimum inhibitory concentrations (MIC) for compounds 1, 2, and 3 based on the microdilution results.
Part 1: Assess the following partial results section below by editing it for brevity by omitting any unnecessary parts (1 point), explain why you decided to remove certain sections (1 point): To evaluate inhibitory effects of the selected molecules, 10mM stock solutions of each molecule were prepared in DMSO. A reaction mixture (200μl) was prepared with the same formula optimized for the enzyme activity assay (0.1 M Tris-HCl ph 8, 0.1 M KCI, 25 mM NaCl, 0.25 mM ATP, and two units of inorganic yeast pyrophosphatase) with 10 µM of the sample molecule. The reaction mixture was incubated for 20 minutes at ambient temperature. Enzymatic reaction was triggered by addition of the substrate B (0.2 mM) and the absorbance of the product was monitored at 290 nm for 10 minutes. Six out of 15 sample molecules showed appreciable inhibition at 10 μM (Figure 5). Three of the molecules, A3, A6, and A7 exhibited more than 50% inhibition of the enzyme activity and were further diluted to find the minimal…

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