Horizontal gene transfer drives the emergence of nitrogen fixation in a unicellular Synechocystis lineage

Nitrogen fixation plays a central role in primary productivity and nitrogen cycling in aquatic ecosystems, yet its distribution among cyanobacterial lineages remains incompletely understood. Biological nitrogen fixation is energetically costly and highly oxygen-sensitive, imposing constraints in oxygenic phototrophs. The unicellular cyanobacterial genus Synechocystis has long been regarded as strictly non-diazotrophic. Here, we report that Synechocystis sp. LKSZ1 possesses a functional nitrogen fixation system. Comparative genomics revealed that LKSZ1 is distinct from other Synechocystis strains and uniquely harbors a complete nif gene. Phylogenetic and structural analyses indicate acquisition via horizontal gene transfer from filamentous cyanobacteria. Physiological assays demonstrated photoautotrophic growth under nitrogen-depleted conditions and nitrogenase activity under microoxic to anaerobic conditions. Disruption of nifK abolished both growth and activity. These findings show that ecological nitrogen limitation and host compatibility can enable functional integration of horizontally acquired nitrogen fixation.