coli and Baker's yeast to produce strigolactones. By co-culturing these two hosts, researchers created a microbial cell factory that produces yields of strigolactones over 125 times higher than ...

The development of single microbial cell techniques is projected to increase knowledge as it will: Enable single microbial cell omics, allowing for population and subpopulation characterization ...

This approach – even with size-fractionation – cannot be used to trace enzymes back to their producers, nor distinguish the active microbial members, leading to a disconnect between measured ...

Jan. 27, 2025 — An international team of scientists has discovered a way to store and release volatile hydrogen using lignin-based jet fuel that could open new pathways for sustainable energy ...

Researchers have developed so-called microbial cell factories -- using E. coli and yeast -- to produce a special class of plant hormones, known as strigolactones, at unprecedented levels.

In technical terms, this fungal battery isn’t a battery at all, but a device known as a microbial fuel cell (MFC). MFCs use the metabolism of living things — traditionally bacteria or algae — to ...

Researchers from the University of California (UC), San Diego, UC Riverside, and Utsunomiya University in Japan have demonstrated the feasibility of using microbial cell factories to amplify the ...

With 14% of all greenhouse gases coming from fossil fuel chemical synthesis, cell factories offer an alternative which could help the U.K. government meet the target of net zero by 2050.

A team of scientists from South Korea is working to lower the cost and boost the durability of promising proton exchange membrane fuel cells by doping expensive platinum-cobalt catalysts with nitrogen ...