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30 April, 20:27

The decarboxylation of lysine catalyzed by lysine decarboxylase has a kcat value of 500 s-1 at 298K, and loss of CO2 is the rate-determining step. What is the free energy of activation for the CO2 loss step? The half-life for the uncatalyzed reaction under the same conditions is 4 billion years (1017 seconds). How much does the enzyme lower the free energy of activation for this reaction? Show your work.

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  1. 30 April, 20:56
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    The decrease in free energy is 113.299kJ

    Explanation:

    K for enzyme catalyzed reaction = 500s^-1

    Temperature (T) = 298k

    ΔG = ?

    ΔG = - 2.303 RT log k

    ΔG = (-2.303) (8.314) (298) log 500

    ΔG = - 15399.9 J

    ΔG catalyzed = - 15. 399kJ

    The first order reaction is given as:

    t1/2 = 0.693/k

    or k = 0.693/t1/2

    0.693/10^17

    Therefore,

    K = 0.693 * 10^-17

    Now,

    K = 0.693 * 10^-17

    T = 298k

    ΔG uncatalyzed = ?

    ΔG uncatalyzed = - 2.303 RT log k

    ΔG uncatalyzed = (-2.303) (8.314) (298) log0.693 * 10^-17

    = 97908.1J

    ΔG uncatalyzed = 97.9081kJ

    Therefore,

    The decrease in free energy is:

    ΔG uncatalyzed - ΔG catalyzed

    97.908 - (-15.399)

    = 113.299KJ

    The decrease in free energy is 113.299kJ
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