Hoffmann G R
Mutat Res. 1980 Jan;75(1):63-129. doi: 10.1016/0165-1110(80)90028-7.
DMS and DES are monofunctional alkylating agents that have been shown to induce mutations, chromosomal aberrations, and other genetic alterations in a diversity of organisms. They have also been shown to be carcinogenic in animals. As an alkylating agent, DMS is a typical SN2 agent, attacking predominantly nitrogen sites in nucleic acids. DES is capable of SN1 alkylations as well as SN2 and thereby causes some alkylation on oxygen sites including the O6-position of guanine which is thought to be significant in mutagenesis by direct mispairing. The mutagenicity of DMS is better explained in terms of indirect, repair-dependent processes. With respect to both alkylating activity and genetic effects, striking similarities are found between DMS and MMS and between DES and EMS. In most systems where they have been tested, both DMS and DES are mutagenic. Results of many of the mutagenesis studies involving these compounds and other alkylating sulfuric acid esters are summarized in Tables 6, 7, 8, 9 and 10 of this review. Most data are consistent with these agents acting primarily as base-pair substitution mutagens. In the case of DES, strong specificity for G.C to A.T transitions has been reported in some systems but has not been clearly supported in some others. Low levels of frameshift mutations of the deletion type are also likely. In addition to the induction of mutations, recombinogenic and clastogenic effects have been described.
硫酸二甲酯(DMS)和硫酸二乙酯(DES)是单功能烷基化剂,已被证明能在多种生物体中诱发突变、染色体畸变及其他基因改变。它们在动物中也已被证明具有致癌性。作为一种烷基化剂,DMS是典型的SN2试剂,主要攻击核酸中的氮位点。DES既能进行SN1烷基化反应,也能进行SN2烷基化反应,因此会在包括鸟嘌呤O6位在内的氧位点上引起一些烷基化,而鸟嘌呤O6位被认为在通过直接错配产生的诱变过程中具有重要意义。DMS的诱变性可以通过间接的、依赖修复的过程得到更好的解释。在烷基化活性和遗传效应方面,DMS与甲基磺酸甲酯(MMS)之间以及DES与甲基磺酸乙酯(EMS)之间存在显著相似性。在大多数对它们进行测试的系统中,DMS和DES都具有诱变性。本综述的表6、7、8、9和10总结了许多涉及这些化合物及其他烷基化硫酸酯的诱变研究结果。大多数数据与这些试剂主要作为碱基对取代诱变剂的作用一致。就DES而言,在某些系统中已报道其对G.C到A.T转换具有很强的特异性,但在其他一些系统中尚未得到明确支持。缺失型的低水平移码突变也有可能发生。除了诱发突变外,还描述了重组和断裂效应。
