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Chemosphere Volume 18, Issues 9-10 , 1989, Pages 1955-1963
Possible involvement of frontier ( )electrons in the metabolism of poly-chlorinated biphenyls (PCBs)
Narayanan Kannan, Tadaaki Wakimoto and Ryo Tatsukawa
The electron density, at each carbon atom, of the highest occupied orbital of thirteen polychlorinated biphenyl (PCB) and one polychlorinated dibenzofuran (PCDF) molecules were calculated and the result was compared with their in vitro and/or in vivo metabolism. We noted that 1. the carbon position at which the frontier electron density was highest was most readily hydroxylated or sulfonated, 2. if the carbon with the highest frontier () electrons was occupied by chlorine, either a replacement occurred or the carbon with the next highest electron density was activated for metabolism, 3. due to steric hinderance ‘ortho’ carbons in PCBs were least preferred for such reactions inspite of possessing favorable electron density, 4. this was applicable to both phenobarbitol (PB) - type and 3-methyl cholanthrene (3 MC) - type PCB inducers. Frontier () electron density could be an easy guide for understanding the metabolic products of persistent and toxic environmental pollutants in vitro or in vivo and in understanding their environmental fate.
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