Bass S, Sugiono P, Arvidson D N, Gunsalus R P, Youderian P
Department of Biological Sciences, University of Southern California, Los Angeles 90089-1481.
Genes Dev. 1987 Aug;1(6):565-72. doi: 10.1101/gad.1.6.565.
We have analyzed the sequence-specific interaction between the Escherichia coli tryptophan (Trp) repressor and its operator using challenge phage vectors. These phages, derivatives of Salmonella phage P22 that have substitutions of synthetic, symmetric trp operators for the P22 mnt operator, provide a genetic assay for DNA binding in vivo. Phages carrying operators that retain the determinants of Trp repressor binding efficiently lysogenize cells producing repressor; in contrast, phages with operators missing critical determinants kill such hosts. The binding determinants revealed by this assay corroborate a simple docking model for the Trp repressor-operator interaction postulated from the repressor crystal structure, and account for both the specificity of repressor binding and the ability of Trp repressor to recognize multiple, tandem DNA sites.
我们使用挑战噬菌体载体分析了大肠杆菌色氨酸(Trp)阻遏物与其操纵基因之间的序列特异性相互作用。这些噬菌体是沙门氏菌噬菌体P22的衍生物,它们用合成的对称trp操纵基因取代了P22 mnt操纵基因,为体内DNA结合提供了一种遗传检测方法。携带保留Trp阻遏物结合决定簇的操纵基因的噬菌体能够有效地使产生阻遏物的细胞溶原化;相反,缺少关键决定簇的操纵基因的噬菌体则会杀死这类宿主。该检测方法揭示的结合决定簇证实了从阻遏物晶体结构推测出的Trp阻遏物-操纵基因相互作用的简单对接模型,并解释了阻遏物结合的特异性以及Trp阻遏物识别多个串联DNA位点的能力。