摘要
采用AM1方法计算了环境致癌物1,3-丁二烯(BD)的代谢产物1,2-环氧-3,4-丁烯(EB)和1,2,3,4-二环氧丁烷(DEB)与DNA腺嘌呤和胞嘧啶烷化反应过程速率控制步骤的活化能,以及DEB在DNA大沟侧与不同序列DNA片断生成烷化股间横向交联产物的结构和能量.结论认为:用烷化反应的难易程度难以解释DEB的致突性比EB约大100倍的实验事实;强致突的DEB可与碱基发生2次烷化反应,生成DNA交联产物;而EB则不能交联,这可能为2者基因毒性差异巨大的分子机制;同时DEB在DNA大沟侧可与多种不同的DNA序列发生股间横向交联,对比在小沟侧只与2种序列交联。
The alkylating reaction of 1,2Epoxy3,4Butene(EB)and 1,2,3,4DiEpoxyButane(DEB),the metabolites of rodent carcinogenic 1,3Butadiene,with Adenine and Cytosine and interaction with fragment of DNA have been computedThe results show that it is difficult to explain the fact that the mutagenicity of DEB is 100 times greater than that of EB by the ability of alkylation,and also show that DEB can interstrand crosslink with DNA through two times alkylating reactions,but EB cannotSo,this difference may contribute to the significant different carcinogenicity of two agentsMeanwhile,it is known that DEB can interstrand crosslink with many sequences of DNA in major groove vstwo in minor grooveThis increases opportunities of interstrand crosslink with DNAThis difference may be the reason of base selection of DEB mutationThe deformation of some crosslinked DNA may also contribute to this selection in some degree
出处
《环境科学》
EI
CAS
CSCD
北大核心
1999年第4期42-46,共5页
Environmental Science
基金
国家自然科学基金
关键词
丁二烯
致癌作用
致突作用
股间交联
DNA
Butadiene
carcinogenesis
mutagenesis
crosslinking with DNA
Diregion theory
AM1
