ABSTRACT Carbon/nitrogen (C/N) balance sensing is a key requirement for the
maintenance of cellular homeostasis. Therefore, cyanobacteria have evolved a …

Cyanobacteria have evolved elaborate electron transport pathways to carry out
photosynthesis and respiration, and to dissipate excess energy in order to limit cellular …

Designing genuine electrocatalysts that selectively reduce nitrate/nitrite (NO x−) is becoming
ever more vital to produce ammonia (NH 3) sustainably, safeguard the environment, and …

Marine picocyanobacteria of the genera Prochlorococcus and Synechococcus numerically
dominate the picophytoplankton of the world ocean, making a key contribution to global …

Nitrite is one of the players in the broad nitrogen biogeochemical cycle. This nitrogen oxo-
anion is involved in key pathways crucial to life on Earth and to the planetary “recycling” of …

Inorganic nitrogen is a substrate for nitrogen assimilation and also functions as a signal
triggering widespread changes in gene expression that modulate metabolism and …

Ferredoxin (Fd) is a small [2Fe‐2S] cluster‐containing protein found in all organisms
performing oxygenic photosynthesis. Fd is the first soluble acceptor of electrons on the …

The current study reports the community succession of different toxin and non-toxin
producing cyanobacteria at different stages of cyanobacterial harmful algal blooms …

Cyanobacteria are key organisms in the global ecosystem, useful models for studying
metabolic and physiological processes conserved in photosynthetic organisms, and …

Phytoplankton growth is potentially limited by the scarcity of biologically available forms of
nitrogen such as nitrate and ammonium. In the subtropical ocean gyres, water column …