DNA replication is a fundamental process essential for bacterial growth and survival. Initiation begins at the chromosomal origin (oriC), where the conserved initiator protein DnaA assembles into an ...

In this multi-disciplinary work employing single-molecule TIRF microscopy, chemical biology and structural biology, Dr Aravindan Ilangovan, Reader in Structural Biology, and his team at School of ...

Red arrows indicate the DNA repair pathways that are known to aid bacterial survival as persisters and gamblers in the presence of fluoroquinolones. Blue color arrow indicates downregulation, while ...

E. coli divides faster than it can replicate its genome, while simultaneously expressing its genes. Scientists recently revealed the intricate molecular coordination that makes this possible. “It’s as ...

Researchers from Durham University, Jagiellonian University (Poland) and the John Innes Centre have achieved a breakthrough in understanding DNA gyrase, a vital bacterial enzyme and key antibiotic ...

Scientists from Durham University, Jagiellonian University (Poland), and the John Innes Centre have made a significant advancement in understanding DNA gyrase, an essential bacterial enzyme and a ...

Bacteria possess unique traits with great potential for benefiting society. However, current genetic engineering methods to harness these advantages are limited to a small fraction of bacterial ...

To adapt to changing environmental pressures, bacteria have developed various methods that allow them to uptake exogenous DNA and incorporate it into their own genomes. One of these processes is ...

While CRISPR is probably the most prominent gene-editing technology, there are others, some developed before and since. And people have been developing CRISPR variants to perform more specialized ...