Abstract
Rather than being a homogenous diffusion-dominated structure, biological membranes can exhibit areas with distinct composition and characteristics commonly termed as lipid domains. Arguably the most comprehensively studied examples in bacteria are domains formed by cardiolipin, which have been functionally linked to protein targeting, cell division process, and mode of action of membrane targeting antimicrobials. Cardiolipin domains were originally identified in the Gram-negative model organism Escherichia coli based on preferential staining by the fluorescent membrane dye nonyl acridine orange (NAO), and later reported to exist also in other Gram-negative and -positive bacteria. Recently, the lipid-specificity of NAO has been questioned based on studies conducted in E. coli. This prompted us to re-analyse cardiolipin domains also in the Gram-positive model organism Bacillus subtilis. Here we show that logarithmically growing B. subtilis does not form microscopically detectable cardiolipin-specific lipid domains, and that NAO is not a specific stain for cardiolipin in this organism.
- NAO
- 10-nonyl acridine orange bromide
- Nile Red
- 9-diethylamino-5-benzo[±]phenoxazinone