Filípek J, Kovács P, Balgavý P
Research Institute of Gerontology, Zámocká ul., Malacky, Czechoslovakia.
Biochem Int. 1992 Feb;26(1):79-85.
N-alkyl-N,N,N-trimethylamonium bromides (cnTMA, n = number of carbons in alkyl) stimulate and inhibit the autoperoxidation of egg yolk phosphatidylcholine (EYPC) in liposomes at n less than 12 and n greater than 12, respectively, with maximum stimulation for n = 8. CnTMA intercalate between EYPC molecules (decreasing the yield of ROO. + RH----ROOH+R. reaction, where RH is an unsaturated EYPC acyl chain, R. - EYPC acyl radical, and ROO. - peroxy radical of the EYPC acyl chain) and disorder the hydrophobic region of the bilayer (increasing the oxygen solubility there and thus yield of R. + O2----ROO. reaction). The final level of oxidation is affected by a summation of the EYPC lateral separation and disordering effects.
N-烷基-N,N,N-三甲基溴化铵(cnTMA,n为烷基中的碳原子数)分别在n小于12和n大于12时刺激和抑制脂质体中蛋黄磷脂酰胆碱(EYPC)的自氧化,n = 8时刺激作用最大。CnTMA插入EYPC分子之间(降低ROO· + RH→ROOH + R·反应的产率,其中RH是不饱和EYPC酰基链,R·是EYPC酰基自由基,ROO·是EYPC酰基链的过氧自由基)并使双层的疏水区域无序化(增加那里的氧溶解度,从而增加R· + O2→ROO·反应的产率)。最终的氧化水平受EYPC侧向分离和无序化效应总和的影响。
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