Structural basis for the RC–LH1 supercomplex of Dinoroseobacter shibae for anaerobic anoxygenic photosynthesis

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Abstract

Aerobic anoxygenic phototrophic (AAP) bacteria are essential for oceanic carbon cycling. However, the architecture and structural adaptations of their photosynthetic systems to ensure adequate light harvesting, electron transport, and oxidative resilience in oxygen-rich environments remain poorly understood. In this study, we present the 2.4-Å cryo-EM structure of the reaction center-light-harvesting 1 (RC–LH1) supercomplex from Dinoroseobacter shibae DFL-12, a marine AAP bacterial symbiont of benthic dinoflagellates. This RC–LH1 supercomplex features a closed LH1 ring comprising 17 αβ-subunits, each containing two spheroidenones per αβ-heterodimer—a previously unreported configuration in phototrophic bacteria. The cytochrome subunit of the RC is truncated to three hemes, in contrast to the four-heme configuration found in anaerobic relatives. The structure also reveals elongated bacteriochlorophyll (BChl) spacing, accounting for its blue-shifted absorption maximum that is optimized for low-light benthic environments. Furthermore, we identify a previously unknown protein-LRC (Light-Respiratory Connector), which structurally bridges the RC and LH1 components and exhibits homology to NADH oxidoreductase subunit E, suggesting a functional coupling between photochemical and respiratory electron transport. Collectively, these specific structural features allow AAP bacteria to balance anoxygenic photosynthesis and protection against oxidative damage, providing a mechanistic framework for them to thrive in oxygenated marine environments. Our study provides insights into the structural and functional variability of bacterial photosynthesis in response to oxygenated marine environments.

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License: CC-BY-4.0