用甲磺酸乙酯诱变大肠杆菌B/r后突变频率下降

Richard Bockrath, Aaron Barlow, Joyce Engstrom
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引用次数: 29

摘要

以无意义缺陷型营养不良大肠杆菌B/r为研究对象,研究了甲基磺酸乙酯(EMS)诱变后的突变频率下降(MFD)。当处理的营养不良亲本细胞与葡萄糖孵育但不需要氨基酸(通常产生MFD的条件)时,转化或重新产生谷氨酰胺tRNA抑制突变的原生营养回变物的突变频率下降。在低或中度EMS治疗后,转化抑制基因突变的下降速度比新生抑制基因突变的下降速度要快,但在广泛治疗后,两种抑制基因突变类型都表现出同样的缓慢下降。在uvra缺陷细胞中,这两种类型的抑制基因突变的下降都被消除了,而在mfd缺陷细胞中,转化抑制基因突变的快速下降表现为缓慢下降。结果表明,真正的MFD(快速过程)仅影响ems诱导的转化谷氨酰胺tRNA抑制基因突变。这就解释了mfd缺陷细胞和缺乏切除修复活性(uvrA或过度DNA损伤)的细胞的快速下降被阻断的原因。此外,提出了第二种非特异性抗突变机制,该机制仅依赖于切除修复,并解释了在某些情况下转化抑制基因突变和在任何时候新生抑制基因突变所见的缓慢下降。真正的MFD机制可能包括生理上依赖的促进切除修复,特别是针对位于目标DNa序列转录链上的突变前残基(对于用甲基磺酸乙酯或嘧啶-嘧啶光产物处理过的细胞中的o6 -乙基鸟嘌呤,紫外线照射后)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mutation frequency decline in Escherichia coli B/r after mutagenesis with ethyl methanesulfonate

Nonsense-defective auxotrophic strains of Escherichia coli B/r were used to study mutation frequency decline (MFD) after mutagenesis with ethyl methanesulfonate (EMS). The mutation frequencies for prototrophic revertants that were either converted or de novo glutamine tRNA suppressor mutations declined as treated auxotrophic parental cells were incubated with glucose but without required amino acids (a condition typically producing MFD). The decline for converted suppressor mutations was more rapid than the decline for de novo suppressor mutations after low or moderate EMS treatment, but both suppressor mutation types showed the same slow decline after extensive treatment. The declines for both types of suppressor mutation were eliminated in uvrA-defective cells, and the rapid decline seen for converted suppressor mutations appeared as a slow decline in mfd-defective cells. The results are interpreted that true MFD (the rapid process) affects only the EMS-induced converted glutamine tRNA suppressor mutations. This would account for the rapid decline that is blocked in cells with an mfd defect and in cells with deficient excision repair activity (uvrA or excessive DNA damage). In addition, a second non-specific antimutation mechanism is proposed that is dependent on excision repair only and accounts for the slow decline seen with converted suppressor mutations in some instances and with de novo suppressor mutations at all times. The true MFD mechanism may consist of a physiologically dependent facilitated excision repair specifically for premutational residues located in the transcribed strand of the target DNa sequence (for O6-ethylguanine in cells treated with ethyl methanesulfonate or pyrimidine- pyrimidine photoproducts after UV irradiation.

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