Purification and characterization of the DNA-binding protein Ner of bacteriophage Mu

The construction is described of a plasmid (pL-ner) which directs the high-level production of the bacteriophage Mu Ner protein in Escherichia coli. The protein, recovered in the soluble cellular fraction, was susceptible to in vivo proteolytic processing, in many host strains, but not in E. coli B, a natural lon- prototroph. A simple purification method is described which takes advantage of the basic nature of the protein. The purified protein was shown to be physically and chemically homogeneous and to have an amino acid sequence identical to that predicted for the authentic protein. The protein was also shown to have in vitro biological activity, as measured by specific binding to a DNA fragment containing the consensus Ner-binding sequence, and in vivo biological activity as the protein produced by the pL-ner plasmid allowed lysogenic-like maintenance of a Mu prophage c mutant unable to synthesise a functional Mu repressor.     

Purification and characterization of the Ner repressor of bacteriophage Mu

The Ner protein of bacteriophage Mu acts as a lambda cro-like negative regulator of the phage's early (transposase) operon. Using the band retardation assay to monitor ner-operator-specific DNA-binding activity, the 8 kDa Ner protein was purified to homogeneity. DNase I footprinting revealed that the purified protein bound and protected a specific DNA operator that contains two 12 bp sites with the consensus sequence 5'-ANPyTAPuCTAAGT-3', separated by a 6 bp spacer region. Moreover, regions corresponding to a turn of the DNA helix flanking these 12 bp repeats are also protected by Ner. Unlike the functionally similar lambda cro protein, gel filtration experiments show that the native molecular mass of Mu Ner to be approx. 8 kDa. These results, plus the pattern of DNase I protection, suggest that the protein may bind as a monomer to each of its specific DNA substrates.