Scientists have made a major breakthrough in the accuracy and speed at which often deadly pathogen infections can be ...

In a laboratory in Ulsan, South Korea, scientists have quietly pulled off what might become one of the most important ...

Hajun Kim, Taejoon Kwon, and Joo Hun Kang—from the Department of Biomedical Engineering at UNIST has unveiled a novel ...

A research team affiliated with UNIST has developed a diagnostic technology capable of identifying infectious pathogens with ...

University of São Paulo in Brazil and University of York in the UK report that their new water monitoring fluorometer can detect fluorescent proteins from bacteria in water down to levels of less ...

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In combination with fluorescence microscopy, the researchers revealed that the bacteria respond to outer membrane damage. "Within ten seconds the bacteria assemble their T6SS, often repeatedly ...

Their research is based on E. coli bacteria in UTIs. The team are combining a novel series of chemical probes, Fluorescent Carbon Dots (FCDs), that can attach to bacteria to make them fluorescent, ...

A visualization of potential bacterial associates (green) in fungal hyphae using fluorescence in situ hybridization (FISH), performed in collaboration with the Center for Integrated Nanotechnologies.

Researchers found that Pseudomonas aeruginosa bacteria rapidly assemble their T6SS nanoweapons in response to outer membrane ...

Infrared fluorescent proteins also need not be limited to being engineered from the phytochrome scaffold from D. radiodurans. There are many bacterial phytochrome sequences available, with ...