A novel type of rho mutants, rhos, with increased transcription termination activities have been isolated. A termination defective rho mutation rho-ts702 (formerly designated nitA702), which causes temperature-sensitive cell growth, was found to be dominant over the wild-type allele in relieving mutational polarity. The rhos mutations were derived as temperature-resistant revertants of rho-ts702 carried by lambda transducing phage. They exhibited dominance over rho-ts702 leading to restoration of polarity. When the rhos mutations were introduced into the Escherichia coli chromosome, they caused increased polarity in the trp and lac operons. The rhos mutants were classified into two groups in terms of their terminator specificity: The first group demonstrated increased termination efficiencies against all terminators tested, whereas the second exhibited various efficiencies, either more than or less than the normal level depending on the terminator. The cellular content of p protein in each rhos strain was significantly lower than that in the rho+ strain. Moreover, in an in vitro transcription system, purified ps proteins showed increased termination activities against the trpE pseudoterminators. These results indicate that the rhos phenotype is due to qualitative alterations, rather than quantitative increases, of the p protein. The reduced content of ps enforces the current notion that the rho gene is autogenously regulated by rho-dependent transcriptional attenuation.