Homework Answers
a) Km is the substrate concentration required to reach Vmax, this means that the lower the Km the more efficient the enzyme is to a determined substrate. The the Happyase enzyme preferred substrate is ICE
b) K2 represents the number of substrate molecule turned over per time unit, so the greater catalitic efficiency will be in the higher k2. The answer then is substrate CREAM
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2) (5 marks) The enzyme Happyase follows simple Michaelis – Menten Kinetics a. The Km of...
2) (5 marks) The enzyme Happyase follows simple Michaelis – Menten Kinetics a. The Km of...
2) (5 marks) The enzyme Happyase follows simple Michaelis – Menten Kinetics a. The Km of Happyase for its substrate ICE is Km^s = 1mM. Happyase also acts on substrate CREAM and its Km^T =10mM. Is ICE or CREAM the preferred substrate for Happyase? Explain b. The rate constant k2 with substrate ICE is 2x10^4sec^ -1; with substrate CREAM, k2=4x10^5sec ^-1. Does Happyase use substrate ICE or substrate CREAM with greater catalytic efficiency? Show calculations and explain your answer
An enzyme that follows Michaelis-Menten kinetics has a KM value of 20.0 μM and a kcat...
An enzyme that follows Michaelis-Menten kinetics has a KM value of 20.0 μM and a kcat value of 211 s−1. At an initial enzyme concentration of 0.0100 μM, the initial reaction velocity was found to be 1.07×10−6 μM/s. What was the initial concentration of the substrate, [S], used in the reaction ? Express your answer in micromolar to three significant figures.
Part A An enzyme that follows Michaelis-Menten kinetics has a KM value of 10.0 uM and...
Part A An enzyme that follows Michaelis-Menten kinetics has a KM value of 10.0 uM and a kcat value of 201 s-1. At an initial enzyme concentration of 0.0100 uM, the initial reaction velocity was found to be 1.07 x 10- uM/s. What was the initial concentration of the substrate, [S], used in the reaction ? Express your answer in micromolar to three significant figures. ► View Available Hint(s) PO ALO O O ? [S]; = MM UM
An enzyme that follows Michaelis-Menten kinetics has a initial velocity of 300 nM/s at a substrate...
An enzyme that follows Michaelis-Menten kinetics has a initial velocity of 300 nM/s at a substrate concentration of 30 uM. The maximum velocity of 400 nM/sec. What is the Km for this enzyme in uM? (Give your answer as a number only. Type your response
c. 0.6 sec d. 1.67 sec 16. Which of the following about Michaelis-Menten enzyme kinetics is CORRECT? a. It assumes t...
c. 0.6 sec d. 1.67 sec 16. Which of the following about Michaelis-Menten enzyme kinetics is CORRECT? a. It assumes that the maximum reaction rate is proportional to the catalytic constant multiplied by the total enzyme concentration. b. It assumes that the enzyme-substrate complex concentration remains steady state. c. KM is defined as the substrate concentration at which the velocity of the reaction is maximal, so the unit is M. d. The KM is assigned to each enzyme regardless of...
7. a) In an enzyme catalyzed reaction which follows the Michaelis-Menten kinetics. The substrate ...
7. a) In an enzyme catalyzed reaction which follows the Michaelis-Menten kinetics. The substrate concentration (Km, Michaelis constant) needed to reach 50% of the maximum reaction velocity (Vmax) is 20 μΜ. What substrate concentration is required to obtain at least 75% of the maximum reaction velocity? Show the work to get full points. (5 points) b) You want to load 10 μg of protein in 15 μL into one of the 10% polyacrylamide gel well. The protein needs to be...
2. A highly regulated enzyme displays Michaelis Menten (non-cooperative) kinetics with a Km for the substrate,...
2. A highly regulated enzyme displays Michaelis Menten (non-cooperative) kinetics with a Km for the substrate, aspartate, of 5mM. In the presence of citodine triphosphate (CTP), the enzyme displays positive cooperativity and the T-state is stabilized. In the graph below, draw two lines: One line corresponding to velocity versus [aspartate] in the absence of CTP, and the other line in the presence of CTP. (Label the axes)
Assuming that an enzyme catalyzed reaction follows Michaelis-Menten kinetics with a Km of 1 x 10-6...
Assuming that an enzyme catalyzed reaction follows Michaelis-Menten kinetics with a Km of 1 x 10-6 M. If the initial reaction rate (V0) is 0.1 μmol/min at 0.1 M, what would it be at 0.01 M, 10-3M, and 10-6 M?
An enzyme follows Michaelis-Menten kinetics. Indicate (with an "x") which of the kinetic parameters would be...
An enzyme follows Michaelis-Menten kinetics. Indicate (with an "x") which of the kinetic parameters would be altered in the presence of the corresponding type of inhibitors. Inhibitor type Vmax Km Neither Both Competitive Uncompetitive Noncompetitive
13. Explain this statement: An Enzyme follows Michaelis-Menten kinetics, meaning explain the characteristics of a M-Menzyme...
13. Explain this statement: An Enzyme follows Michaelis-Menten kinetics, meaning explain the characteristics of a M-Menzyme and the type of mechanism it uses. Also, include definitions of Km and Vmax. (This is that synthesis question.) 14. Compare and contrast E-S interactions with P-L interactions.
Part A An enzyme that follows Michaelis-Menten kinetics has a KM value of 10.0 uM and a kcat value of 201 s-1. At an initial enzyme concentration of 0.0100 uM, the initial reaction velocity was found to be 1.07 x 10- uM/s. What was the initial concentration of the substrate, [S], used in the reaction ? Express your answer in micromolar to three significant figures. ► View Available Hint(s) PO ALO O O ? [S]; = MM UM
An enzyme that follows Michaelis-Menten kinetics has a initial velocity of 300 nM/s at a substrate concentration of 30 uM. The maximum velocity of 400 nM/sec. What is the Km for this enzyme in uM? (Give your answer as a number only. Type your response
c. 0.6 sec d. 1.67 sec 16. Which of the following about Michaelis-Menten enzyme kinetics is CORRECT? a. It assumes that the maximum reaction rate is proportional to the catalytic constant multiplied by the total enzyme concentration. b. It assumes that the enzyme-substrate complex concentration remains steady state. c. KM is defined as the substrate concentration at which the velocity of the reaction is maximal, so the unit is M. d. The KM is assigned to each enzyme regardless of...
7. a) In an enzyme catalyzed reaction which follows the Michaelis-Menten kinetics. The substrate concentration (Km, Michaelis constant) needed to reach 50% of the maximum reaction velocity (Vmax) is 20 μΜ. What substrate concentration is required to obtain at least 75% of the maximum reaction velocity? Show the work to get full points. (5 points) b) You want to load 10 μg of protein in 15 μL into one of the 10% polyacrylamide gel well. The protein needs to be...
13. Explain this statement: An Enzyme follows Michaelis-Menten kinetics, meaning explain the characteristics of a M-Menzyme and the type of mechanism it uses. Also, include definitions of Km and Vmax. (This is that synthesis question.) 14. Compare and contrast E-S interactions with P-L interactions.
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