Photosynthetic bacteria do not release oxygen during photosynthesis but can convert solar energy into chemical energy with ...

A research team led by the University of Bern has decoded a mechanism by which an inconspicuous succulent regulates the ...

Photosynthesis remains one of the fundamental biological processes that sustains life on Earth, converting light energy into chemical energy. The electron transport mechanisms underpinning this ...

A new study from Osaka Metropolitan University reveals how a freshwater alga extends its reach into far-red light by ...

Purple sulfur bacteria (PSB) convert light energy into chemical energy through photosynthesis. Interestingly, certain species can photosynthesize even in environments with low-calcium levels. Using ...

Researchers have investigated the structure and light energy transfer efficiency of a protein complex crucial to the photosynthesis of purple sulfur bacteria thriving in high-salt, high-alkaline ...

Microscopic pores on the surface of leaves called stomata help plants “breathe” by controlling how much water they lose to evaporation. These stomatal pores also enable and control carbon dioxide ...

A small, green underwater plant with thick stems and short, elongated leaves. A close-up image of hornwort plants, which have a specialized mechanism of photosynthesis. Credit: Shutterstock ...

Recognition of photodamaged D1 reaction center protein through Trp oxidation enables FtsH enzymatic degradation. Researchers from Okayama University, Japan, report the details of the photosystem-II ...

Artificial photosynthesis represents a breakthrough in the field of renewable energy, mimicking the natural photosynthesis process to capture and store solar energy. Recent developments have ...