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Study Shows Oxygenic Photosynthesis Possible Using Only One Photosystem

July 16, 2026
in Biology
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Study Shows Oxygenic Photosynthesis Possible Using Only One Photosystem

Study Shows Oxygenic Photosynthesis Possible Using Only One Photosystem

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LMU researchers have reported a striking challenge to a long-standing textbook rule of photosynthesis: oxygenic photosynthesis can, in principle, occur without photosystem I. The study, published in Nature Communications, shows that certain cyanobacteria continued to grow, fix carbon dioxide, and release oxygen even after photosystem I disappeared.

For more than half a century, the dominant model has emphasized the coordinated roles of two protein complexes—photosystem II and photosystem I. In that framework, photosystem I is widely treated as indispensable for producing NADPH, the reducing power required for carbon fixation.

What made the finding especially surprising is that the work began with a different goal. Dario Leister’s team aimed to introduce a plant-like photosystem I component into the cyanobacterium Synechocystis. Instead, through genetic engineering combined with adaptive laboratory evolution, they generated strains in which the photosystem I machinery vanished.

Yet these evolved organisms did not lose oxygenic photosynthesis. They maintained electron flow and preserved the ability to perform the full suite of biochemical steps leading to oxygen production and carbon assimilation, contradicting the assumption that photosystem I is universally required.

The researchers traced this resilience to a major reorganization of the photosynthetic electron transport chain. A steep proton gradient emerges under these new conditions, and the NDH-1 complex appears to operate in reverse.

In reverse mode, NDH-1 can generate NADPH, effectively replacing the function that had previously been attributed exclusively to photosystem I. This mechanistic workaround suggests that the cell can reroute energy conversion chemistry when key components are removed.

The findings carry implications beyond cyanobacteria. They reshape hypotheses about how oxygenic photosynthesis may have evolved, and they highlight the ability of biological systems to achieve essential outputs via alternative biochemical pathways.

In the bigger picture, the work also raises questions about robustness and adaptability in one of biology’s best-studied processes. If nature can re-engineer NADPH supply without photosystem I, it may be possible to exploit similar flexibility when designing more efficient photosynthetic systems.

The study underscores a viral-science takeaway: even entrenched paradigms can collapse when organisms reveal unexpected routes through evolution, and new experiments can expose surprising “missing pieces” in what we thought we understood.

Subject of Research: Oxygenic photosynthesis without photosystem I
Article Title: Photosystem I-independent oxygenic photosynthesis in cyanobacteria
News Publication Date: 10-Jul-2026
Web References: http://dx.doi.org/10.1038/s41467-026-74903-2
References: Nature Communications, “Photosystem I-independent oxygenic photosynthesis in cyanobacteria” (DOI: 10.1038/s41467-026-74903-2)
Image Credits:
Keywords: oxygenic photosynthesis, photosystem I, cyanobacteria, NADPH, NDH-1, adaptive evolution, electron transport, carbon fixation, proton gradient, Nature Communications

Tags: adaptive laboratory evolution in photosynthesisalternative pathways for NADPH productionbiochemical steps of oxygen evolutioncyanobacteria photosynthesis adaptationgenetic engineering of cyanobacteriaimplications for photosynthesis researchlong-standing photosynthesis models challengedoxygenic photosynthesis without photosystem Iphotosynthetic electron transport chain reorganizationphotosystem II independent oxygen productionplant-like photosystem I components in cyanobacteriaproton gradient in modified photosynthesis
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