The Competitive
inhibitor
Find the attached image file for every answers
For the graph purpose X axis having substrate concentration and Y axis having velocity of reaction for michaelis-menten graph. Plot indicating I represent the curve for inhibitor and [S] represent without inhibitor or for substrate.
For double reciprocal plot inverse of data are taken and straight line curve observed.
The inhibitor Draw a sketch on where a(n). inhibitor binds to the enzyme: The reaction in...
1. MICHAELIS-MENTON-(REQUIRED) a. Draw a simple graph, showing the classic Michaelis-Menton plot of enzyme activity as a function of substrate concentration; label both axes. Write the associated Michaelis-Menton equation and show the location of Km and Vmax on your graph. b. Draw a second graph showing the classic Lineweaver-Burk plot; label both axes. Show the location of Km and Vmax on your graph. Discuss which plot is the most useful to determine Vmax. Draw a second line on each graph...
The kinetic data given below are for an enzyme in the absence and presence of a reversible inhibitor. From the data, generate both a Michaelis-Menten and Linweaver-Burk Plot for both that uninbibited and inhibited reactions. Graph both the uninhibited and inhibited data on the same plot. From these data calculate the Vmax and Km for the enzyme in absence and presence of the inhibitor. Is the inhibitor working cometitively or noncompetitively? Explain. [S], mM Vo, mM/min Vo, mM, min with...
An enzyme-catalyzed reaction to the presence of 5 nM of reversible inhibitor yields a Vmax value that is 80% of the value in absence of the inhibitor. The KMvalue is unchanged. a) what type of inhibition is occurring? b) what proportion of the enzyme molecule will have bound inhibitor? c) Draw the Lineweaver-Burk (known as double-reciprocal plot) for uninhibited and inhibited reaction. SHOW ALL YOUR WORK PLEASE
CHEM3250 Assignment-Enzyme Inhibition Consider the data below for an enzyme catalyzed reaction. The rate of the reaction has been determined with and without an inhibitor. A total concentration of enzyme of 20 uM was used in the experiment. SHOW WORK AND UNITS!!! Without Inhibitor With Inhibitor [substrate] (mM)Rate of formation of te of formation of product product (mM/min) mM/min) 6.67 5.25 0.49 7.04 38.91 1.0 2.2 6.9 41.8 44.0 1.5 3.5 1 a) On the same graph, plot the data...
Please do everything like you were answering a test. Don’t attempt if youre not going to do all parts. Do it ASAP and I will give you a good rating. If not I will report you. Thank you so much for being the best. Show work if necessary and be concise. There’s no way for me to separate so do all parts. do all parts please. I cant seperate it because it will be refunded. 2. i) (10 points) The...
The following data was obtained for an enzyme in the absence of an inhibitor, and in the presence of two different inhibitors. The concentration of each inhibitor was 10 mM. The total concentration of enzyme was the same for each experiment. [S] {mM} without inhibitor v, {umol/(ml*s)} with inhibitor A v, {umol/(ml*s)} With inhibitor B v, {umol/(ml*s)} 0.0 0.0 0.0 0.0 1.0 3.6 3.2 2.6 2.0 6.3 5.3 4.5 4.0 10.0 7.8 7.1 8.0 14.3 10.1 10.2 12.0 16.7 11.3...
The following observations come from Lineweaver-Burke plots, based on kinetic data generated from a Michaelis/Menton-type enzyme (E) that catalyzes the hydrolysis of a peptide substrate (S). All data were generated in the presence of 18.0 μM total enzyme. The enzyme-catalyzed reaction has a Km of 3.00 μM and a Vmax of 2.00 μM/sec. The enzyme-catalyzed reaction in the presence of 15.0 μM of Inhibitor A has an apparent Km of 2.25 μM and an apparent Vmax of 1.50 μM/sec. The...
11. In Excel, prepare Lineweaver-Burk plots for the behavior of an enzyme for which the following experimental data are available: V, umol/min umol/min (No Inhibitor) S], mM (Inhibitor Present) 3.66 5.12 6.18 6.98 7.60 4.58 6.40 7.72 8.72 9.50 3.0 5.0 7.0 9.0 11.0 a. What are the KM and Vmax values for the inhibited and uninhibited reaction 5 pts. each reaction) b. Is the inhibitor competitive or noncompetitive? (5 pts.) Micheli-Menten) EQUATIONS: VV
2. If an inhibitor competitively inhibits an enzyme, use Michaelis-Menten and Lineweaver-Burk plots to illustrate how the enzyme kinetics differ in the presence and absence of the inhibitor. (20 pts)
Write the equations that describe the Michaelis-Menten and the Lineweaver-Burk double-reciprocal plots. Draw examples of each plot, demonstrating how Km and Vmax can be determined. On the same graphs, draw another plot where the same enzyme-catalyzed reaction is subjected to inhibition by a competitive inhibitor.