Abstract
Bacteriophages can encode multiple receptor-binding proteins, allowing them to recognize diverse receptors for infecting different strains. Ackermannviridae phages recognize various polysaccharides as receptors by encoding multiple tail spike proteins (TSPs), forming a branched complex. We aimed to mimic the evolution of the TSP complex by studying the acquisition of TSPs without disrupting the complex's functionality. Using kuttervirus S117 as a backbone, we demonstrated that acquiring tsp genes from Kuttervirus and Agtrevirus phages within the Ackermannviridae family led to altered host recognition. A fifth TSP was designed to interact with the branched complex and expand host recognition even further. Interestingly, the acquisition of tsp5 resulted in a recombination event between tsp4 and tsp5 or deletion of tsp3 and truncation of tsp4 genes. Our study provides insight into the development of the branched TSP complex, enabling Ackermannviridae phages to adapt to different hosts.