Properties of a mutant of Escherichia coli defective in bacteriophage lambda head formation (groE). I. Initial characterization

Three mutant strains of Escherichia coli were independently isolated based upon their inability to propagate bacteriophage λ. The strain most extensively studied, NS-1, has a pleiotropic temperature sensitive alteration that affects cell growth, stable RNA synthesis and λ propagation. Labeling experiments and colorimetric determinations of total RNA carried out in this strain demonstrate that within the first five minutes after raising the temperature to 44.5 °C the rate of total RNA accumulation is reduced to a level that is about 15% that of the control, while protein and DNA synthesis continue at nearly normal rates for at least 30 min. This effect is either due to a very rapid degradation of stable RNA species or a reduced synthesis of RNA. Although the accumulation of all stable RNA species (23, 16 and 4 S RNAs) is reduced co-ordinately to levels ranging from 12 to 16% that of the control, the synthesis of messenger RNA is affected to a lesser degree, if at all. The defect in RNA accumulation can be partially reversed by the addition of chloramphenicol at the moment of temperature shift.In addition to phage λ these strains are unable to propagate RNA phage R17 and lambdoid phages φ80, 21 and 434 at elevated temperatures. The growth of phages T4, T7, P1 and P2 is normal.A genetic analysis of strain NS-1 indicates that all of its temperature sensitive properties depend on a mutation, designated groE-1, which co-transduces with a mel (melibiose) marker. However, the expression of the RNA synthesis defect requires, in addition, a second mutation which does not co-transduce with mel.