Journal
MOLECULAR MICROBIOLOGY
Volume 118, Issue 3, Pages 258-277Publisher
WILEY
DOI: 10.1111/mmi.14966
Keywords
Bacillus anthracis; exosporium; interspace; polysaccharide; spore
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Funding
- National Institutes of Health [AI093493]
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This study elucidates the assembly mechanism of the outer layer of cells, particularly the exosporium assembly in the pathogen Bacillus anthracis, and proposes a novel mechanism in which polysaccharide layers drive the assembly of a protein shell.
A fundamental question in cell biology is how cells assemble their outer layers. The bacterial endospore is a well-established model for cell layer assembly. However, the assembly of the exosporium, a complex protein shell comprising the outermost layer in the pathogen Bacillus anthracis, remains poorly understood. Exosporium assembly begins with the deposition of proteins at one side of the spore surface, followed by the progressive encirclement of the spore. We seek to resolve a major open question: the mechanism directing exosporium assembly to the spore, and then into a closed shell. We hypothesized that material directly underneath the exosporium (the interspace) directs exosporium assembly to the spore and drives encirclement. In support of this, we show that the interspace possesses at least two distinct layers of polysaccharide. Secondly, we show that putative polysaccharide biosynthetic genes are required for exosporium encirclement, suggesting a direct role for the interspace. These results not only significantly clarify the mechanism of assembly of the exosporium, an especially widespread bacterial outer layer, but also suggest a novel mechanism in which polysaccharide layers drive the assembly of a protein shell.
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