Abstract
Upon depletion of combined nitrogen, N(2)-fixing heterocysts are formed from vegetative cells in the case of the filamentous cyanobacterium Anabaena sp. strain PCC 7120. A heterocyst-specific layer composed of glycolipids (heterocyst envelope glycolipids (HGLs)) that functions as an O(2) diffusion barrier is deposited over the heterocyst outer membrane and is surrounded by an outermost heterocyst polysaccharide envelope. Mutations in any gene of the devBCA operon or tolC result in the absence of the HGL layer, preventing growth on N(2) used as the sole nitrogen source. However, those mutants do not have impaired HGL synthesis. In this study, we show that DevBCA and TolC form an ATP-driven efflux pump required for the export of HGLs across the Gram-negative cell wall. By performing protein-protein interaction studies (in vivo formaldehyde cross-linking, surface plasmon resonance, and isothermal titration calorimetry), we determined the kinetics and stoichiometric relations for the transport process. For sufficient glycolipid export, the membrane fusion protein DevB had to be in a hexameric form to connect the inner membrane factor DevC and the outer membrane factor TolC. A mutation that impaired the ability of DevB to form a hexameric arrangement abolished the ability of DevC to recognize its substrate. The physiological relevance of a hexameric DevB is shown in complementation studies. We provide insights into a novel pathway of glycolipid export across the Gram-negative cell wall.
Highlights
The ATP-binding cassette (ABC) exporter DevBCA and the outer membrane protein TolC are necessary for maturation of heterocysts in filamentous cyanobacteria
We show that DevBCA and TolC form an ATP-driven efflux pump required for the export of HGLs across the Gram-negative cell wall
We show that TolC-DevBCA form an ATPdriven efflux pump mediating the export of entire HGLs from the location of their synthesis, the cytoplasmic membrane, to beyond the outer membrane
Summary
The ABC exporter DevBCA and the outer membrane protein TolC are necessary for maturation of heterocysts in filamentous cyanobacteria. Results: DevBCA-TolC form an ATP-driven efflux pump and export heterocyst-specific glycolipids. Mutations in any gene of the devBCA operon or tolC result in the absence of the HGL layer, preventing growth on N2 used as the sole nitrogen source Those mutants do not have impaired HGL synthesis. We show that DevBCA and TolC form an ATP-driven efflux pump required for the export of HGLs across the Gram-negative cell wall. Mutations in devBCA or tolC result in the absence of the HGL layer, but the synthesis of HGLs is not impaired; it was assumed that TolC-DevBCA form an efflux pump involved in the transport and/or assembly of the HGL layer (19 –21) It remained unclear which substrate is transported by the postulated TolC-DevBCA machinery across the cell wall. The exporter requires a distinct stoichiometry that includes a hexameric MFP DevB to recognize and export its substrate
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