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 ...

Two bacteria are sitting near free-floating DNA. Suddenly, one bacterium shoots out a long appendage, latches onto a DNA fragment and reels in its catch. It happens fast, but it’s clear: this organism ...

The process of bacterial transformation involves the introduction of foreign plasmid DNA into a bacterial cell. The transformation of DNA into bacteria cells, for example, Escherichia coli (E. coli), ...

Plasmid DNA isolation is an important technique in molecular biology, however, achieving effective high-throughput automation of this method has proven to be challenging. Analytik Jena and SynbiCITE ...

Bacterial DNA methylation occurs at diverse sequence contexts and plays important functional roles in cellular defense and gene regulation. An increasing number of studies have reported that bacterial ...

Bacteria evolve fast – and that could be bad news for those of us who don't want to see easily-treatable diseases make a roaring comeback. Resistance to antibiotics is a growing concern, but if ...

The ubiquitous bacteria E. coli rank among nature's most successful species for lots of reasons, to which biologists at the University of Southern California have added another: in a pinch, E. coli ...