Functional assembly of the λ S holin requires periplasmic localization of its N-terminus

Abstract

Bacteriophage-λ-induced host-cell lysis requires two phage-encoded proteins, the S holin and the R transglycosylase. At a specific time during infection, the holin forms a lesion in the cytoplasmic membrane that permits access of the R protein to its substrate, the peptidoglycan. The λS gene represents the prototype of holin genes with a dual-start motif; they encode two proteins, a lysis effector and a lysis inhibitor. Although the two S proteins differ only by two amino acids (Met-1 and Lys-2) at the N-terminus, the longer product (S107) acts as an inhibitor of the lysis effector (S105). The functional difference between the proteins has been previously ascribed to the Lys-2 residue in S107. It was therefore of interest to determine the subcellular localization of the N-terminus of either S protein. To study the membrane topology of the S proteins, we used the topology probe TEM β-lactamase and an N-terminal tag derived from the Pseudomonas aeruginosa phage Pf3 coat protein. We show that both S proteins have a type III (N_out/C_in) topology. The results provide insight into the regulatory mechanism imposed by the dual-start motif and will be discussed in terms of a model for temporal regulation of the S-dependent “hole” in the membrane.