Phototrophic microorganisms that convert carbon dioxide are being explored for their
capacity to solve different environmental issues and produce bioactive compounds for …

Microalgal biomass and its fine chemical production from microalgae have pioneered algal
bioprocess technology with few limitations such as lab-to-industry. However, laboratory …

Cyanobacteria must prevent imbalances between absorbed light energy (source) and the
metabolic capacity (sink) to utilize it to protect their photosynthetic apparatus against …

Phototrophic microorganisms are promising resources for green biotechnology. Compared
to heterotrophic microorganisms, however, the cellular economy of phototrophic growth is …

Light-activated photosystem II (PSII) carries out the critical step of splitting water in
photosynthesis. However, PSII is susceptible to light-induced damage. Here, results are …

There has been substantial recent interest in the promise of sustainable, light-driven
bioproduction using cyanobacteria, including developing efforts for microbial bioproduction …

The massive increase in carbon dioxide concentration in the atmosphere driven by human
activities is causing huge negative consequences and new sustainable sources of energy …

Phycobiliproteins are gaining popularity as long-term, high-value natural products which can
be alternatives to synthetic products. This study analyzed research trends of …

Phycocyanin (PC) is a soluble blue pigment-protein primarily harvested from the
cyanobacterium Arthrospira platensis. PC is in high demand from several industries, but its …

Biotechnological exploitation of fast-growing cyanobacterial species is hindered by
unavailable mechanistic interpretations for the differing bioconversion rates when exploring …