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The Vmax and Km values of a certain enzyme can be measured by the double reciprocal plot (i.e., the Lineweaver-Burk plot).

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Presentation on theme: "The Vmax and Km values of a certain enzyme can be measured by the double reciprocal plot (i.e., the Lineweaver-Burk plot)."— Presentation transcript:

1 The Vmax and Km values of a certain enzyme can be measured by the double reciprocal plot (i.e., the Lineweaver-Burk plot).

2 Lineweaver-Burk plot The Vmax and Km values of a certain enzyme can be measured by the double reciprocal plot. The plot provides a useful graphical method for analysis of the Michaelis–Menten equation. Taking the reciprocal gives

3 The double reciprocal plot: 1/V0 vs 1/[S]

4 Apply this to equation for a straight line
When we plot versus

5 Hanes–Woolf plot: A graphical representation of enzyme kinetics in which the ratio of the initial substrate concentration [S] to the reaction velocity v is plotted against [S]. Inversting and multiply by [S]: A perfect data will yield a straight line of slope 1/Vmax, a y-intercept of Km/Vmax and an x-intercept of −Km.

6 Hanes–Woolf plot

7 Eadie–Hofstee Plot Model
Is a graphical representation of enzyme kinetics in which reaction velocity is plotted as a function of the velocity vs. substrate concentration ratio: A plot of v vs v/[S] will yield Vmax as the y-intercept, Vmax/Km as the x-intercept, and Km as the slope. Like other techniques that linearize the Michaelis–Menten equation, the Eadie-Hofstee plot was used historically for rapid identification of important kinetic terms like Km and Vmax,

8 invert and multiply with Vmax
: invert and multiply with Vmax

9 Eadie–Hofstee Plot Model

10 The "kinetic activator constant"
Understanding Km The "kinetic activator constant" Km is a constant Km is a constant derived from rate constants Km is, under true Michaelis-Menten conditions, an estimate of the dissociation constant of E from S Small Km means tight binding; high Km means weak binding

11 The theoretical maximal velocity
Understanding Vmax The theoretical maximal velocity Vmax is a constant Vmax is the theoretical maximal rate of the reaction - but it is NEVER achieved in reality To reach Vmax would require that ALL enzyme molecules are tightly bound with substrate Vmax is asymptotically approached as substrate is increased

12 The dual nature of the Michaelis-Menten equation
Combination of 0-order and 1st-order kinetics When S is low, the equation for rate is 1st order in S When S is high, the equation for rate is 0-order in S The Michaelis-Menten equation describes a rectangular hyperbolic dependence of v on S!

13 A measure of catalytic activity
The turnover number A measure of catalytic activity kcat, the turnover number, is the number of substrate molecules converted to product per enzyme molecule per unit of time, when E is saturated with substrate. If the M-M model fits, k2 = kcat Values of kcat range from less than 1/sec to many millions per sec

14

15 The catalytic efficiency
Name for kcat/Km An estimate of "how perfect" the enzyme is kcat/Km is an apparent second-order rate constant It measures how the enzyme performs when S is low The upper limit for kcat/Km is the diffusion limit - the rate at which E and S diffuse together

16 Catalytic perfection (rate of reaction being
diffusion-controlled) can be achieved by a combination of different values of kcat and Km.


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