Problem Set 4
1. The
acid hydrolysis of sucrose into glucose and fructose is a first order reaction
in terms of sucrose concentration.
a. Write the rate law for this reaction.
b. Laboratory experiments revealed that the rate constant for this reaction was 7.8 x 10-3 sec-1 at a temperature of 28°C and was 3.2 x 10-2 sec-1 at 40°C. Calculate the activation energy for this reaction.
c. Determine the value of the rate constant k at a temperature of 37°C.
d. For each of the two temperatures above, use your calculated activation energy to determine the fraction of molecular collisions with sufficient kinetic energy to react.
e. Calculate the collision frequency factor A for a temperature of 40°C.
2. The
KM for an enzyme catalyzed reaction at a temperature of 310K was
found to be 10 mM. Determine the substrate concentration at
which 80% of the enzyme molecules have their active sites occupied by the
substrate.
3. A
recent enzyme-catalyzed reaction study revealed the following reaction rates
for various substrate concentrations. An enzyme concentration of 10 mM was used for all runs. Using the data
listed in the table below, answer each of these questions:
|
[S] mM |
Velocity (M/min) |
|
0.10 |
3.33 |
|
0.20 |
5 |
|
0.50 |
7.14 |
|
0.80 |
8 |
|
1.00 |
8.33 |
|
2.00 |
9.09 |
a. Construct
a Lineweaver-Burk plot of these data; show both the
data and the plot.
b. Do
a linear fit to these data; determine the slope and intercept.
c. Determine
KM and Vmax
d. Determine
the turnover number for the enzyme used in this reaction.