Conditionally lethal amber mutations in the dnaA region of the Escherichia coli chromosome that affect chromosome replication.

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Three amber mutations, dna-801, dna-803, and dna-806, were isolated by localized mutagenesis of the dnaA-oriC region of the chromosome from an Escherichia coli strain carrying temperature-sensitive amber suppressors. When the mutations were not suppressed at 42 degrees C, the cells did not grow and DNA synthesis was arrested. They were very closely linked to each other and to the dnaA46 mutation. The mutant phenotype of each strain was converted to the wild type by infecting the mutants with specialized transducing phase lambda i21 dnaA-2 but not with lambda i21 tna. Derivatives of lambda i21 dnaA-2, each of which carried the amber mutation dna-801 dna-803, or dna-806, converted the dnaA mutant phenotype to Dna+ but did not convert rhe amber mutants to the wild-type phenotype. E. coli uvrB cells were irradiated with ultraviolet light and infected with each of these phage strains. An analysis of proteins synthesized in the cells revealed that two proteins with molecular weights of 50,000 and 43,000 were specified by lambda i21 dnaA-2 but not by lambda i21 tna. When the ultraviolet-irradiated cells did not carry an amber suppressor, the derivative phage with the amber mutation invariably failed to produce the 43,000-dalton protein, but when the host cell carried supF (tyrT), the protein was produced. The 50,000-dalton protein was unaffected.

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