Collaborating researchers have made a breakthrough discovery regarding the intricate defense systems of bacteriophages ...

Bacteria use antiphage systems to combat phages, their ubiquitous competitors, and evolve new defenses through repeated reshuffling of basic functional units into novel reformulations. A common theme ...

The goal of gene therapy is to permanently cure hereditary diseases. One of the most promising technologies for this is the ...

An unexpected find has enabled important progress to be made in the battle against harmful bacteria. An international team of researchers, led by Professor Peter Fineran from the University of Otago, ...

Bacteria get invaded by viruses called phages. Scientists are studying how bacteria use CRISPR to defend themselves from phages, which will inform new phage-based treatments for bacterial infections ...

It acts as a sort of molecular fumigator to battle phages and plasmids. CRISPR-Cas9 has long been likened to a kind of genetic scissors, thanks to its ability to snip out any desired section of DNA ...

Explore opportunities in protein engineering to innovate therapeutic and industrial applications. Enhance your skills in molecular biology and protein chemistry to develop cutting-edge protein-based ...

**ECCMID has now changed its name to ESCMID Global, please credit ESCMID Global Congress (formerly ECCMID, Barcelona, Spain, 27-30 April) in all future stories** Antimicrobial resistance (AMR) is ...

Viktor Mamontov, Alexander Martynov, Natalia Morozova, Anton Bukatin, Dmitry B. Staroverov, Konstantin A. Lukyanov, Yaroslav Ispolatov, Ekaterina Semenova, Konstantin Severinov Proceedings of the ...

In nature, the best-known CRISPR system, CRISPR-Cas9, cuts any RNA or DNA it recognizes as foreign, and thereby protects bacteria from viral attacks. Another CRISPR system, one that is relatively ...