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

Cyanobacteria are the only prokaryotes capable of performing oxygenic photosynthesis.
Many cyanobacterial strains can live in different trophic modes, ranging from …

Barcoded mutant libraries are a powerful tool for elucidating gene function in microbes,
particularly when screened in multiple growth conditions. Here, we screened a pooled …

Membrane-bound FtsH proteases are universally present in prokaryotes and in
mitochondria and chloroplasts of eukaryotic cells. These metalloproteases are often critical …

Photosynthetic organisms possess a variety of mechanisms to achieve balance between
absorbed light (source) and the capacity to metabolically utilize or dissipate this energy …

Decoupling growth from product synthesis is a promising strategy to increase carbon
partitioning and maximize productivity in cell factories. However, reduction in both substrate …

The amount of inorganic carbon (Ci) fluctuates in aquatic environments. Cyanobacteria
evolved a Ci‐concentrating mechanism (CCM) that is regulated at different levels. The …

Cyanobacteria are highly diverse, widely distributed photosynthetic bacteria inhabiting
various environments ranging from deserts to the cryosphere. Throughout this range of …

The intracellular accumulation of inorganic carbon (Ci) by microalgae and cyanobacteria
under ambient atmospheric CO2 levels was first documented in the 80s of the 20th Century …

Cyanobacteria are the only prokaryotes that perform plant‐like oxygenic photosynthesis.
They evolved an inorganic carbon‐concentrating mechanism to adapt to low CO2 …