A Novel Phage Indirectly Regulates Diatom Growth by Infecting a Diatom-Associated Biofilm-Forming Bacterium
Abstract
The impact of phage infection on the alga-bacterium relationship in the ocean is poorly understood. Here, a novel phage infecting the diatom-associated bacterium Stappia indica SNL01 was isolated. ABSTRACT Algae and heterotrophic bacteria have close and intricate interactions, which are regulated by multiple factors in the natural environment. Phages are the major factor determining bacterial mortality rates. However, their impacts on the alga-associated bacteria and thus on the alga-bacterium interactions are poorly understood. Here, we obtained a diatom-associated bacterium, Stappia indica SNL01, that could form a biofilm and had an inhibitory effect on the growth of the diatom Thalassiosira pseudonana . Meanwhile, phage SI01, with a double-stranded circular DNA genome (44,247 bp), infecting S. indica SNL01 was isolated. Phylogenetic analysis revealed that phage SI01 represents a novel member of the Podoviridae family. The phage contained multiple lysis genes encoding cell wall-lysing muramidase and spore cortex-lysing SleB, as well as depolymerase-like tail spike protein. By lysing the host bacterium and inhibiting the formation of biofilm, this phage could indirectly promote the growth of the diatom. Our results provide new insights into how phages indirectly regulate algal growth by infecting bacteria that are closely associated with algae or in the phycosphere. IMPORTANCE The impact of phage infection on the alga-bacterium relationship in the ocean is poorly understood. Here, a novel phage infecting the diatom-associated bacterium Stappia indica SNL01 was isolated. This bacterium could form a biofilm and had a negative effect on diatom growth. We revealed that this phage contained multiple lysis genes and could inhibit the formation of the bacterial biofilm, thus indirectly promoting diatom growth. This study suggests that phages not only are important regulators of bacteria but also have substantial indirect effects on algae and the alga-bacterium relationship.
- Publication:
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Applied and Environmental Microbiology
- Pub Date:
- March 2022
- DOI:
- Bibcode:
- 2022ApEnM..88E2138N