Abstract
An idealized model for the kinetics of benzo[ a]pyrene (BaP) metabolism is established. As observed from experimental results, the BaP transfer from microcrystals to the cell membrane is definitely a first-order process. The rate constant of this process is signified as k1. We describe the surface–midplane exchange as reversible and use rate constants k2and k3to describe the inward and outward diffusions, respectively. The metabolism is identified as an irreversible reaction with a rate constant k4. If k2and k3are assumed to be fast and not rate determining, the effect of the metabolism rate, k4, on the number density of BaP in the midplane of the microsomal membrane, m3, can be estimated. If the metabolism rate is faster than or comparable to the distribution rates, k2and k3, the BaP concentration in the membrane midplane, m3, will quickly be dissipated. But if k4is extremely small, m3will reach a plateau. Under conditions when k2and k3also play significant roles in determining the overall rate, more complicated patterns of m3are expected.
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