Suppression of the Escherichia coli rpoH opal mutation by ribosomes lacking S15 protein

Abstract

Several suppressors (suhD) that can specifically suppress the temperature-sensitive opal rpoH11 mutation of Escherichia coli K-12 have been isolated and characterized. Unlike the parental rpoH11 mutant deficient in the heat shock response, the temperature-resistant pseudorevertants carrying suhD were capable of synthesizing sigma 32 and exhibiting partial induction of heat shock proteins. These strains were also cold sensitive and unable to grow at 25 degrees C. Genetic mapping and complementation studies permitted us to localize suhD near rpsO (69 min), the structural gene for ribosomal protein S15. Ribosomes and polyribosomes prepared from suhD cells contained a reduced level (ca. 10%) of S15 relative to that of the wild type. Cloning and sequencing of suhD revealed that an IS10-like element had been inserted at the attenuator-terminator region immediately downstream of the rpsO coding region. The rpsO mRNA level in the suhD strain was also reduced to about 10% that of wild type. Apparently, ribosomes lacking S15 can actively participate in protein synthesis and suppress the rpoH11 opal (UGA) mutation at high temperature but cannot sustain cell growth at low temperature.