Bacteriophages of the predominant coral symbiont Endozoicomonas : novel models for coral holobiont interactions

Phages are important symbionts in corals that modulate the community and functions of other symbiotic bacteria. Although phages infecting coral pathogens have been reported, no phage targeting beneficial microorganisms in corals has been isolated to date. From seawater near Acropora and Stylophora corals, we isolated the first bacteriophages (designated EmPhiA and EmPhiS) that infect Endozoicomonas montiporae CL-33, a model strain of the coral-prevalent and predominant Endozoicomonas bacteria. Electron microscopic observations of both phages showed Myovirus -like morphology and head sizes characteristic of jumbophages, with cryo-electron microscopy reveals long whiskers unprecedent in known phages. Genetically, these phages shared 99.21% genome similarity and are distant from known prokaryotic viruses, suggesting that they represent a novel viral species, which we name Encorevirus taiwanensis , in a novel family Encoreviridae . The small burst sizes of these phages (13.14 PFU/cell for EmPhiA and 21.4 PFU/cell for EmPhiS) potentially enable continuous coexistence of them with host bacteria within corals, making them putative core members of coral holobionts. Furthermore, host range test showed that EmPhiA and EmPhiS infect both Endozoicomonas bacteria isolated from stony and soft corals, implying their presence in a broad spectrum of host marine invertebrates. Using EmPhiS, we also investigated phage-bacterium interaction during its infection of E. montiporae CL-33. Interestingly, in addition to modulation of host cellular machinery, we found expression of several tellurium resistance proteins by EmPhiS during infection, which may provide the host additional stress resistance. These phages provide a novel model that will greatly advance our understanding of coral- Endozoicomonas -phage interactions.