氯化烯烃的脱氯机制

Dechloriation mechanisms of chlorinated olefins.

作者信息

Van Dyke R A

出版信息

Environ Health Perspect. 1977 Dec;21:121-4. doi: 10.1289/ehp.7721121.

DOI:10.1289/ehp.7721121

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1475340/

Abstract

The dechlorination of chlorinated hydrocarbons has been examined in detail. The reaction is catalyzed by cytochrome P-450 and occurs optimally in the presence of oxygen although some dechlorination may occur under anaerobic conditions. Halothane has been shown to undergo an oxidative dechlorination and a reductive defluorination. Enzymatic attack of chlorinated olefins and hydrocarbons is not on the carbon--halogen bond. Oxidative dechlorination of hydrocarbons is apparently initiated by an attack on the carbon atom and the halogen is then released from the oxidized carbon. The chlorinated olefins, on the other hand, are not easily dechlorinated enzymatically. The chlorines migrate readily across the double bond, therefore, cyclic chloronium ions must occur as intermediates. It is not clear at this time if epoxides are also intermediates in this conversion.

摘要

人们已对氯代烃的脱氯反应进行了详细研究。该反应由细胞色素P - 450催化，在有氧气存在的条件下反应最为理想，不过在厌氧条件下也可能发生一些脱氯反应。已证明氟烷会发生氧化脱氯和还原脱氟反应。氯代烯烃和烃类的酶促攻击并非作用于碳 - 卤键。烃类的氧化脱氯显然是由对碳原子的攻击引发的，然后卤素从被氧化的碳上释放出来。另一方面，氯代烯烃不容易发生酶促脱氯反应。氯很容易在双键间迁移，因此，环状氯鎓离子必定作为中间体出现。目前尚不清楚环氧化物在这种转化过程中是否也是中间体。

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