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

On June 28, 2012, the most significant scientific breakthrough of the first quarter of the 21st century was announced to the ...

When scientists discovered how bacteria protect themselves against viral invaders, called phages, in the early 2000s, little did they know they’d stumbled upon a revolutionary tool researchers could ...

The colonies of Escherichia coli sitting in this petri dish become pathogenic when they carry Shiga toxin genes. Credit: Shutterstock “We’re essentially converting a pathogenic strain into a ...

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

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 ...

Researchers have discovered a handful of new CRISPR-Cas systems that could add to the capabilities of the already transformational gene editing and DNA manipulation toolbox. Of the new recruits, one ...

All around the world — in the oceans, the soil, your body — an invisible battle is raging. Earth’s vast population of roughly 10 30 bacteria faces an unending onslaught from an even larger army of ...

Locus Biosciences announced a research collaboration with Viatris to develop engineered bacteriophage therapies for ...

The idea that a single-celled bacterium can defend itself against viruses in a similar way as the 1.8-trillion-cell human immune system is still “mind-blowing” for molecular biologist Joshua Modell of ...

Traditional breeding and genetic modification methods have struggled to keep pace with the rapid evolution of plant viruses.