Clinical bacteriology relies on the ability to identify cultured isolates. However, unknown isolates are common in hospital settings. Now, researchers at the University of Basel, have established a ...

In a recent study published in BMC Microbiology, researchers developed the Novel Organism Verification and Analysis (NOVA) algorithm to systematically analyze bacterial isolates unidentified using ...

Algorithms have helped uncover a new antibiotic candidate that shows promise against some particularly nasty bugs, using a novel mode of attack that should be hard for them to develop resistance to.

In a recent study published in Nature Methods, researchers assessed a novel method for bacterial cell segmentation named Omnipose. Breakthroughs in microscopy are extremely promising for enabling ...

Antibiotic resistance is turning routine infections into life threatening events, and the traditional pipeline for new drugs ...

CRISPR systems are powerful tools for genetic engineering, but they have their limitations. Now, scientists have discovered almost 200 new CRISPR systems in their native habitat of bacteria, and found ...

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. By teaching a ...

ITMO scientists have developed an algorithm for deep analysis of bacterial genomes. The tool allows researchers to automatically detect evolutionary events in genomes that are responsible for the ...

Using AI, researchers identified a new antibiotic that can kill Acinetobacter baumannii, a type of bacteria that is responsible for many drug-resistant infections. Using an artificial intelligence ...

Venom is a potent mix of molecules evolved to paralyze, kill, and destroy cells. But it could also hold some promising tools for the future. In a new Nature Communicationsstudy, researchers at the ...