Folding and capsomere morphology of the P23 surface shell of bacteriophage T4 polyheads from mutants in five different head genes

Mutants in five different “head formation” genes (20, 22, 24, 40, IPIII)² of bacteriophage T4 produce polyheads. “Coarse” polyheads, which contain uncleaved P23, constitute over 90% of these tubular particles in fresh lysates. Using optical diffraction and filtration, we show that the pseudo-hexagonal net and the capsomere morphology are common to all coarse polyheads, regardless of genetic origin or polyhead diameter. Micropolymorphism is exhibited in each genetic class with respect to the cylindrical folding of the hexagonal net. We find that the frequency distribution of the diameters and pitch angles is significantly different for polyheads made by mutants affecting either of the major prohead core proteins (IPIII and P22). In every case, the foldings differ from the unique folding characteristic of giant phage capsid, suggesting that the assembly error responsible for producing polyheads instead of proheads involves a misdirection in arranging the P23 shell. By analysing the properties common to the various structures which may be formed out of this net (single-layered polyheads, multi-layered polyheads, proheads), we find that the P23 molecules possess form-determining specificity in terms of an intrinsic curvature of the capsomere bonding. These observations are discussed within the context of form determination of the phage prohead (τ-particle) and of its subsequent conservative maturation to the head of the infective wild-type phage.