Dynamic Remodeling of the Magnetosome Membrane Is Triggered by the Initiation of Biomineralization

• Main Authors: Elias Cornejo, Poorna Subramanian, Zhuo Li, Grant J. Jensen, Arash Komeili
• Format: Article
• Language: English
• Published: American Society for Microbiology 2016-02-01
• Series: mBio
• Online Access: http://mbio.asm.org/cgi/content/full/7/1/e01898-15

Magnetotactic bacteria produce chains of membrane-bound organelles that direct the biomineralization of magnetic nanoparticles. These magnetosome compartments are a model for studying the biogenesis and subcellular organization of bacterial organelles. Previous studies have suggested that discrete gene products build and assemble magnetosomes in a stepwise fashion. Here, using an inducible system, we show that the stages of magnetosome formation are highly dynamic and interconnected. During de novo formation, magnetosomes first organize into discontinuous chain fragments that are subsequently connected by the bacterial actin-like protein MamK. We also find that magnetosome membranes are not uniform in size and can grow in a biomineralization-dependent manner. In the absence of biomineralization, magnetosome membranes stall at a diameter of ~50 nm. Those that have initiated biomineralization then expand to significantly larger sizes and accommodate mature magnetic particles. We speculate that such a biomineralization-dependent checkpoint for membrane growth establishes the appropriate conditions within the magnetosome to ensure successful nucleation and growth of magnetic particles.