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Light-harvesting complexes: adaptation and efficiency

Different light-harvesting strategy and flexible regulatory mechanism for maximising light-energy capture and their potential application for increasing the biomass and crop product more...

Supervisor(s): Chen, Min (Professor)

Spectral extension in photosynthesis: molecular mechanism of photosynthesis driven by red-shifted chlorophylls

Novel pigments and new directions in photosynthesis: past, now and future. There are five different forms of chlorophylls, Chl a, Chl b, Chl c, Chl d and Chl f. Chlorophyll a i more...

Supervisor(s): Chen, Min (Professor)

Molecular mechanism of photo-regulation in cyanobacteria

Red-light perception and red-shifted chlorophylls: evolutionary consequences. The importance of red light is highlighted by the diversity of photoreceptors and the potential enhance more...

Supervisor(s): Chen, Min (Professor)

Evolutionary relationships of aerobic and anaerobic metabolic reactions

The generation of oxygen in the earth’s atmosphere by oxygenic photosynthesis was the most important environmental event to affect both biology and geology. Accumulation of mo more...

Supervisor(s): Chen, Min (Professor)

The substitution and formation of red-shifted chlorophylls

Novel pigments and new directions in photosynthesis: past, now and future more...

Supervisor(s): Chen, Min (Professor)

Cyanobaterial photoregulatory mechanisms, pigmentation varieties and their evolutionary significance

The red-shifted chlorophylls contain an extra formyl group compared to chlorophyll a in cyanobacteria. The oxygen atom in the formyl group requires oxygen molecules as one important more...

Supervisor(s): Chen, Min (Professor)