In the following chapter, enzyme catalysis reactions will be extensively reviewed. The first step in these reactions involves the binding of a reactant molecule (referred to as a substrate) to a binding site on the enzyme. If this binding is extremely efficient (that is, equilibrium strongly favors the enzymeâ€“substrate complex over separate enzyme and substrate) and the formation of product rapid, then the rate of catalysis could be diffusion limited. Estimate the expected rate constant for a diffusion controlled reaction using typical values for an enzyme ( and Ã…) and a small molecular substrate ( and Ã…).

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okpalawalter8 okpalawalter8 · Answer 1 · 2020-06-05T02:56:01+02:00

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Answer:

The rate constant is [tex]k_d = 3.44*10^{10} \ L \cdot mol^{-1} s^{-1}[/tex]

Explanation:

From the question we are told that

The values for an enzyme is given as

[tex]D_1 = 1.00 *10^{-7} \ cm^2 s^{-1}[/tex]

[tex]r_1 = 40.0 \r A = 40*10^{-8} cm[/tex]

The values of a small molecular substrate is

[tex]D_2 = 1.00 *10^{-5} \ cm^2 s^{-1}[/tex]

[tex]r_2 = 5.00 \r A = 5.00*10^{-8} \ cm[/tex]

The equation relating the rate constant is

[tex]k_d = 4 \pi N_A (D_1 +D_2) (r_1 +r_2)[/tex]

substituting values

[tex]k_d = 4 \pi (6.022 *10^{23})(1 *10^{-7} * 1*10^{-5} (40*10^{-8} + 5*10^{-8}))[/tex]

[tex]k_d = 3.44*10^{10} \ L \cdot mol^{-1} s^{-1}[/tex]