Tindall K R, Stein J, Hutchinson F
Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, Connecticut 06511.
Genetics. 1988 Apr;118(4):551-60. doi: 10.1093/genetics/118.4.551.
Mutations in the cI (repressor) gene were induced by gamma-ray irradiation of lambda phage and of prophage, and 121 mutations were sequenced. Two-thirds of the mutations in irradiated phage assayed in recA host cells (no induction of the SOS response) were G:C to A:T transitions; it is hypothesized that these may arise during DNA replication from adenine mispairing with a cytosine product deaminated by irradiation. For irradiated phage assayed in host cells in which the SOS response had been induced, 85% of the mutations were base substitutions, and in 40 of the 41 base changes, a preexisting base pair had been replaced by an A:T pair; these might come from damaged bases acting as AP (apurinic or apyrimidinic) sites. The remaining mutations were 1 and 2 base deletions. In irradiated prophage, base change mutations involved the substitution of both A:T and of G:C pairs for the preexisting pairs; the substitution of G:C pairs shows that some base substitution mechanism acts on the cell genome but not on the phage. In the irradiated prophage, frameshifts and a significant number of gross rearrangements were also found.
通过对λ噬菌体和原噬菌体进行γ射线照射诱导cI(阻遏物)基因突变,并对121个突变进行了测序。在recA宿主细胞(未诱导SOS反应)中检测到的受照射噬菌体的三分之二突变是G:C到A:T的转换;据推测,这些突变可能在DNA复制过程中由腺嘌呤与经照射脱氨基的胞嘧啶产物错配产生。对于在已诱导SOS反应的宿主细胞中检测的受照射噬菌体,85%的突变是碱基替换,在41个碱基变化中的40个中,一个预先存在的碱基对被A:T对取代;这些可能来自作为AP(无嘌呤或无嘧啶)位点的受损碱基。其余的突变是1个和2个碱基的缺失。在受照射的原噬菌体中,碱基变化突变涉及用A:T对和G:C对替换预先存在的对;G:C对的替换表明某些碱基替换机制作用于细胞基因组而非噬菌体。在受照射的原噬菌体中,还发现了移码突变和大量的总体重排。
