The development of more sustainable food, feed, and bio-products is critical to mitigating the
environmental stresses facing our world today. Algae, which includes seaweeds, eukaryotic …

Develo** efficient CO 2 utilization technologies can alleviate the urgent pressure on
energy and the environment. Moreover, these technologies are crucial for achieving the goal …

Abstract Synechococcus sp. PCC 11901 (PCC 11901) is a fast-growing marine
cyanobacterial strain that has a capacity for sustained biomass accumulation to very high …

Highlights•Host organisms need to tolerate outdoor conditions and abiotic stresses.•Robust,
fast-growing cyanobacterial strains can be engineered as efficient hosts.•Engineered and …

Engineering photoautotrophic microorganisms to directly convert carbon dioxide into
platform chemicals is an attractive approach for chemical sustainability and carbon …

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 are photosynthetic microorganisms capable of using solar energy to convert
CO2 and H2O into O2 and energy-rich organic compounds, thus enabling sustainable …

Carbon neutrality by 2050 has become one of the most urgent challenges the world faces
today. To address the issue, it is necessary to develop and promote new technologies …

Background Succinic acid has great potential to be a new bio-based building block for
deriving a number of value-added chemicals in industry. Bio-based succinic acid production …

Abstract The Calvin Benson cycle in phototrophic and chemolithoautotrophic bacteria has
ecological and biotechnological importance, which has motivated study of its regulation. I …