Structure of straight flagellar filaments from a mutant of Escherichia coli

A mutant of Escherichia coli K12 has been found to produce straight flagellar filaments. Electron micrographs of the negatively stained filaments were analysed by optical diffraction and filtering methods. The filament appears to consist of a one-start basic helix with 11 subunits in two turns and with a pitch of 26 Å. One class of the rows of subunits runs closely parallel to the filament axis. We have found that the addition of acridines to the filament suspension induces side-by side aggregation of the filaments. The optical diffraction pattern of the aggregates is similar to that of untreated filaments.Straight filaments were observed to be reconstructed on polymerization of the isolated mutant flagellin in vitro. When the straight-type flagellin copolymerizes with normal-type flagellin, the wave form of the resultant filaments is either normal or heteromorphous. The latter consists of straight and normal-type parts.These results indicate that the straight filament described here is a novel type and differs from that of a mutant of Salmonella with respect to structure (O'Brien & Bennett, 1972) and to the wave form of the copolymer product (Asakura, 1970; Asakura & Iino, 1972).