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 ...

Electron transfer rates to P700+ have been determined in wild-type and three interposon mutants ($psaE^{-}$, $ndhF^{-}$, and $psaE^{-}$ $ndhF^{-}$) of Synechococcus ...

Biologists have shown that 'supervisor' and 'motivator' proteins are required to enable a third factor to perform its function in photosynthesis. LMU biologists have ...

When plants absorb excess light energy during photosynthesis, reactive oxygen species are produced, potentially causing oxidative stress that damages important structures. Plants can suppress the ...

The Chlamydomonas reinhardtii proton gradient regulation5 (Crpgr5) mutant shows phenotypic and functional traits similar to mutants in the Arabidopsis (Arabidopsis thaliana) ortholog, Atpgr5, ...

Physicists at the University of Wisconsin-Madison have directly measured the fluid-like flow of electrons in graphene at nanometer resolution for the first time. The results appear in the journal ...

Quantum physics often reveals phenomena that defy common sense. A new theory of quantum scarring deepens our understanding of ...

A river made of graphene with the electrons flowing like water. Courtesy: Ryan Allen and Peter Allen, Second Bay Studios Electrons can behave like a viscous liquid as they travel through a conducting ...

Plants are susceptible to stress, and with the global impact of climate change and humanity's growing demand for food, it's crucial to understand what causes plant stress and stress tolerance. When ...