Artificial intelligence (AI) could be used to identify drug resistant infections, significantly reducing the time taken for a correct diagnosis, Cambridge researchers have shown. The team showed that ...

A mechanosensitive fluorescent probe visualises and quantifies the mechanical stress on bacterial membranes upon contact with a surface. (Nanowerk News) In natural environments, bacteria rarely live ...

An innovative imaging technique developed at Carnegie Mellon University reveals single bacterial cells leaving their biofilm community. Watching the bacteria in real-time at high resolution affords ...

Representative images of antibiotic-resistant Escherichia coli strains and the sensitive parental strain (P) from one of three datasets (Dataset 1) are shown. Four lines were isolated from each ...

A laboratory-grown Pseudomonas aeruginosa biofilm. 3D images were acquired by an advanced light sheet theta microscopy system (ClearScope) developed in Columbia’s Department of Biological Sciences.

Drug-resistant bacteria are becoming harder to treat, pushing scientists to look for new antibiotic targets. Researchers have now discovered that several unrelated viruses disable a key bacterial ...

Professor Anna Panorska and her former master’s student David Kweku (Statistics and Data Science), along with an interdisciplinary and international team of researchers, recently authored an article ...

Every Wednesday and Friday, TechNode’s Briefing newsletter delivers a roundup of the most important news in China tech, straight to your inbox. Sign up Huawei has obtained a smartphone ...

Researchers have found that antibiotic-resistant bacteria are fatter and shorter than their antibiotic-sensitive parental strains, and that these morphological changes correlate with changes in the ...