Cleavage of head and tail proteins during bacteriophage T5 assembly: selective host involvement in the cleavage of a tail protein

Electrophoresis studies showed that at least three phage-specified proteins undergo proteolytic cleavage during the development of bacteriophage T5. One of these proteins has a molecular weight of about 135,000 and the product of this cleavage reaction is a minor component of the T5 tail, having a molecular weight of about 128,000. All of the tail-defective T5 mutants studied in this report failed to induce this cleavage reaction under restrictive conditions. This reaction also failed to occur in Escherichia coli groEA639 and groEA36 infected with wild type T5. Examination of lysates of infected groE cells in the electron microscope revealed the presence of filled and empty heads as well as tubular head structures, but no tails were detected. The filled heads were able to combine with separately prepared T5 tails in vitro to form infectious phage particles. Therefore, propagation of T5 in these groE mutants is prevented primarily by a specific block in tail assembly. A T5 mutant, T5?6, was isolated, which has the capacity to propagate in these groE hosts. The gene locus in T5?6 was mapped.The second T5 protein which is cleaved has a molecular weight of 50,000 and is related to head morphogenesis. Treatment of infected cells with l-canavanine (50 μg/ml) inhibited cleavage of this polypeptide. Only small quantities of the major head protein (32,000 mol. wt) were produced in these treated cells. Treatment with canavanine lead to production of tubular heads. The major protein component of partially purified tubular heads has a molecular weight of 50,000. Cells infected with T5 amber H30b, a mutant defective in head gene D20, does not produce the 50,000 and 32,000 molecular weight proteins. These findings suggest that the 50,000 molecular weight protein undergoes cleavage to form the major head polypeptide. A third T5 protein is cleaved to form a minor head component with a molecular weight of 43,000 and its cleavage is linked to that involving the major head protein.