Engineers have made bacteria to produce hyperspectral signals that can be detected as far as 90 meters away. Their work could lead to the development of bacterial sensors for agricultural and other ...

Researchers engineered bacteria to produce spectral pigments in response to environmental triggers. Using hyperspectral ...

and Pseudomonas putida—for 235 bio-based chemicals. Using GEMs, the researchers calculated both the maximum theoretical yields and the maximum achievable yields under industrial conditions for ...

“So we took the gene called THFMO from this industrial sludge bacteria and put it into a plasmid, which is the circular piece of DNA, and then we’re able to get that into Pseudomonas putida, and at a ...

Led by Dr Neil Dixon, the team utilised the bacterium Pseudomonas putida, renowned for its resilience and adaptability, to process complex waste streams into bioplastics and even therapeutic proteins.

The study's results could offer an affordable and effective solution. Scientists enlist tiny helpers in fight against one of ...

By screening proteins that interacted with the chemotaxis kinase CheA, we identified a copper-binding repressor CsoR that interacted with CheA in Pseudomonas putida. CsoR interacted with the HPT (P1), ...