Which of the following is TRUE of reactions that follow Michaelis-Menten kinetics?
|
At both low and high substrate concentrations, rate is only dependent on total enzyme concentration. |
||
|
At high substrate concentrations, rate is only dependent on total enzyme concentration. |
||
|
At low concentrations of substrate, rate is only dependent on Vmax |
||
|
At both low and high substrate concentrations, rate is only dependent on substrate concentration. |
||
|
At low concentrations of substrate, rate is only dependent on kcat. |
Michael menten kinetics explains how rate of reaction depends on concentration of enzyme and substrate.
At low substrate concentration, the rate of reaction is dependent on the substrate concentration.
When there is higher concentration of substrate and saturation point is reached, the rate of reaction depends on the total enzyme concentration.
Hence the option (at high substrate concentrations, rate is only dependent on total enzyme concentration) is correct.
Which of the following is TRUE of reactions that follow Michaelis-Menten kinetics? At both low and...
1. Michaelis and Menten examined how the velocity of enzyme catalyzed reactions change with substrate concentration. Which of the following is (are) common to all enzyme catalyzed reactions? Velocity is insensitive to changes in [substrate] at all substrate concentrations. Km is the [substrate] required to reach 50% of Vmax. Velocity is responsive to changes in [substrate] when the Km > [substrate]. Velocity is insensitive to [substrate] when [substrate] is much greater than Km. Velocity reaches 90% of Vmax when [substrate]...
The relation between Reaction Velocity and Substrate Concentration: Michaelis-Menten Equation a) At what substrate concentration would an enzyme with a kcat of 30.0 s-1 and a Km of 0.0050 M operate at one-quarter of its maximum rate? b) Determine the fraction of Vmax that would be obtained at the following substrate concentrations: [S]=Km/2, [S]=2Km, [S]=10Km
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...
(I need help with part C, Drawing the expected Michaelis-Menten plot; Do NOT draw the Lineweaver-Burk plot. thanks!) 1. Michaelis-Menten kinetics- use the M-M equation to answer the following: a. An enzyme (5 µM) has a Vmax of 450 mM/min. What is kcat? b. When the substrate concentration is 50 mM, the initial velocity (V0) was measured to be 375 mM/min. Under the conditions described above, calculate the KM. c. Draw the expected Michaelis-Menten plot (label your axes and include...
For an enzyme that displays Michaelis-Menten kinetics, what is the reaction velocity v (as a percentage of Vmax) ,observed at each of the following substrate concentrations. (Ex, v = xVmax, where x = an integer, fraction, or decimal number (two decimal places)) a) [S] = 0.1 Km _________ b) [S] = 2 Km _________ c) [S] = 10 Km _________
4. Basic concepts of Michaelis-Menten kinetics. The Michaelis-Menten equation is expression of the relationship between the initial velocity, Vo, of an enzymatic reaction and substrate concentration, [S]. There are three conditions that are useful for simplifying the Michaelis-Menten equation: [S] <<Km; [S] = Km; [S] >> Km. Match each condition with the statement(s) that describe it. TV, Vmox[S] Vo =Vmax m . V Vo - Vmax [S] Km +[S] V. (um/min) max [S] (mm) (a) Doubling [S] will almost double...
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.
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...
In the absence of allosteric effectors, the enzyme phosphofructokinase displays Michaelis–Menten kinetics (see Fig. 7.15). The v0/Vmax ratio is 0.9 when the concentration of the substrate, fructose-6-phosphate, is 0.10 mM. Calculate the KM for phosphofructokinase under these conditions (in units of mM).
The kinetics of enzyme catalyzed reactions can be described the Michaelis-Menten equation and the Eadie-Hofstee equation as shown below: V0 = (-Km) V0 / [S] + Vmax a). Please derive the Eadie-Hofstee equation starting from the Michaelis-Menten equation. b). The Vmax and Km of the enzyme catalyzed reaction can be derived from a plot of V0 versus V0/[S]. Please draw one of these plots and explain how do you use it to derive Vmax and Km. c). Please draw a...