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Prof. Dr. Kirstin Gutekunst

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Photosystem I–hydrogenase fusion in cyanobacteria
The Photosystem I–hydrogenase fusion is a genetic engineering strategy in which a hydrogenase enzyme is covalently linked to a component of Photosystem I, enabling direct transfer of photosynthetic electrons to hydrogenase and thereby enhancing light‑driven hydrogen production.[1][2] In the reported system, cyanobacterial mutants expressing such a fusion showed significantly longer and more stable hydrogen production compared with wild‑type cells when immobilized in the protective redox polymer matrix.[1][2]
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Viologen‑modified redox polymer electrodes
Viologen‑modified redox polymer electrodes are electrochemical interfaces where polymer matrices containing viologen groups are deposited on conductive substrates to mediate electron transfer and control local redox conditions, particularly useful for interfacing and protecting sensitive enzymes or cells.[1][2] In the cyanobacterial hydrogen system, such a polymer layer holds the cells close to the electrode and contains viologen moieties that can be electrochemically reduced to efficiently remove dissolved oxygen around the cells, thereby creating a microenvironment compatible with oxygen‑sensitive hydrogenases.[1][2]
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Photosynthetic hydrogen production with cyanobacteria
Photosynthetic hydrogen production using cyanobacteria harnesses these microorganisms’ natural ability to use light energy to split water, channeling some of the resulting electrons to hydrogenase or nitrogenase enzymes that reduce protons to molecular hydrogen, effectively turning sunlight, water, and CO₂ into a storable fuel.[1][2] In the reported study, cyanobacteria are used as living catalysts in an electrochemical device where their photosynthetic machinery provides electrons to hydrogenases under conditions that maintain enzyme activity, enabling sustained hydrogen evolution.[1][2]
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A biohybrid electrode featuring viologen-shielded cyanobacteria expressing a Photosystem I–hydrogenase fusion delivers continuous hydrogen production under ambient oxygen, marking a key step in bio-photovoltaic green hydrogen.

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