Chlorophyll fluorescence analysis is one of the most powerful and widely used techniques to
study the effect of stresses on the photosynthetic process. From the first utilization, the F v/F …

Plants as sessile organisms are continuously exposed to abiotic stress conditions that
impose numerous detrimental effects and cause tremendous loss of yield. Abiotic stresses …

All cyanobacteria, algae, and plants use a similar water-oxidizing catalyst for water
oxidation. This catalyst is housed in Photosystem II, a membrane-protein complex that …

Drought is considered to cause oxidative stress, but the roles of oxidant-induced
modifications in plant responses to water deficit remain obscure. Key unknowns are the …

Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …

Programmable artificial photosynthetic cell is the ultimate goal for mimicking natural
photosynthesis, offering tunable product selectivity via reductase selection toward device …

Cytochrome b 6 f (cytb 6 f) lies at the heart of the light-dependent reactions of oxygenic
photosynthesis, where it serves as a link between photosystem II (PSII) and photosystem I …

Drought is a severe environmental constraint to plant productivity. Being a multidimensional
stress, it triggers a wide variety of plant responses ranging from physiological, biochemical …

Photoprotection refers to a set of well defined plant processes that help to prevent the
deleterious effects of high and excess light on plant cells, especially within the chloroplast …

This review focuses on key components of respiratory and photosynthetic energy-
transduction systems: the cytochrome bc 1 and b 6 f (Cyt bc 1/b 6 f) membranous …