Why is it important to study bacteria? Pseudomonas aeruginosa is a bacterial strain that can be responsible for several human diseases: the most serious include malignant external otitis, ...

Microfluidic biosensing technologies enable swift identification of pathogenic bacteria, crucial for timely intervention in ...

The newly proposed algorithm uses microbial interaction networks to effectively integrate data from different populations. It can quantify the topological differences between different network modules ...

Bacterial identification can take hours and often longer, precious time when diagnosing infections and selecting appropriate treatments. There may be a quicker, more accurate process according to ...

Researchers from the Disruptive & Sustainable Technologies for Agricultural Precision (DiSTAP) Interdisciplinary Research Group (IRG) of Singapore-MIT Alliance for Research and Technology (SMART), MIT ...

Scientists assess bacterial growth trajectories to better predict infectious capacity and the conditions that aid proliferation. This article explores the key factors that influence bacterial ...

Scientists from the Hebrew University of Jerusalem say they have developed a groundbreaking technique that can help uncover hidden differences between seemingly identical bacteria and may open new ...

Gene editing has advanced in many ways over the past few decades. Most methods in genetic engineering involve altering the genomes of animal models like mice and zebrafish, or mammalian cells growing ...

Metagenomic analysis of vaginal microbiota at delivery outperforms traditional screening methods in identifying newborns at ...