Amino acid changes in the repressor of bacteriophage lambda due to temperature-sensitive mutations in its cI gene and the structure of a highly temperature-sensitive mutant repressor

The mutant cIts genes from seven different cIts phages carryingtsU50, tsU9, tsU46, ts1, tsU51, tsI-22 and ts2 mutations werecloned in plasmid. The positions of these mutations and theresulting changes of amino acids in the repressor were determinedby DNA sequencing. The first four mutations mapping in the N-terminaldomain show the following changes: I21S, G53S, A62T and V73A,respectively. Of the three remaining mutations mapping in theC-terminal domain, cItsI-22 and cIts2 show N207T and K224E substitutionsrespectively, while the mutant cItsU51 gene carries F141I andP153L substitutions. Among these ts repressors, CIts2 havingthe charge-reversal change K224E was overexpressed from tacpromoter in a plasmid and purified, and its structure and functionwere studied. Operator-binding studies suggest that the ts2repressor is somewhat defective in monomer–dimer equilibriumand/or cooperativity even at permissive temperatures and losesits operator-binding ability very rapidly above 25°C. Comparativestudies of fluorescence and CD spectra, sulfhydryl group reactivityand elution behaviour in size-exclusion HPLC of both wild-typeand ts2-mutant repressors at permissive and non-permissive temperaturessuggest that the C-terminal domain of the ts2 repressor carryinga K224E substitution has a structure that does not favor tetramerformation at non-permissive temperatures.