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12 September, 20:57

Go'=30.5 kJ/mol

a) Calculate the equilibrium constant for this reaction at 25C.

b) Because deltaGo' assumes standard pH of 7, the equilibrium constant calculated in (a) corresponds to Keq' = [oxaloacetate] [NADH] / [L-malate] [NAD+]

The measured concentration of L-malate in rat liver mitochondria is about 0.20 mM when [NAD+]/[NADH] is 10. Calculate the concentration of oxaloaceteate at pH 7 in mitochondria.

c) To appreciate the magnitude of the mitochondrial oxaloacetate concentration, calculate the number of oxaloacetate molecules in a single rat mitochodrion. Assume the mitochondrion is a sphere of diameter 2.0 micro meters.

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  1. 12 September, 21:22
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    a) Keq = 4.5x10^-6

    b) [oxaloacetate] = 9x10^-9 M

    c) 23 oxaloacetate molecules

    Explanation:

    a) In the standard state we have to:

    ΔGo = - R*T*ln (Keq) (eq. 1)

    ΔGo = 30.5 kJ/moles = 30500 J/moles

    R = 8.314 J*K^-1*moles^-1

    Clearing Keq:

    Keq = e^ (ΔGo/-R*T) = e^ (30500 / (-8.314*298)) = 4.5x10^-6

    b) Keq = ([oxaloacetate]*[NADH]) / ([L-malate]*[NAD+])

    4.5x10^-6 = ([oxaloacetate] / (0.20*10)

    Clearing [oxaloacetate]:

    [oxaloacetate] = 9x10^-9 M

    c) the radius of the mitochondria is equal to:

    r = 10^-5 dm

    The volume of the mitochondria is:

    V = (4/3) * pi*r^3 = (4/3) * pi * (10^-15) ^3 = 4.18x10^-42 L

    1 L of mitochondria contains 9x10^-9 M of oxaloacetate

    Thus, 4.18x10^-42 L of mitochondria contains:

    molecules of oxaloacetate = 4.18x10^-42 * 9x10^-9 * 6.023x10^23 = 2.27x10^-26 = 23 oxaloacetate molecules
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