Bacterial gene regulation is a finely tuned process essential for cellular adaptation and survival. Central to this regulation are nucleoid-associated proteins (NAPs), which not only compact the ...

In the microscopic world of bacteria, gene transfer is a powerful mechanism that can alter cellular function, drive antibiotic resistance and even shape entire ecosystems. Now an interdisciplinary ...

Researchers have revealed how bacteria precisely control the genes that trigger cell division. The study shows that the MraZ ...

The genomes of phages—viruses that infect bacteria—are largely composed of "dark matter": genes that encode proteins whose functions remain unknown. Less than four years ago, a team led by Prof. Rotem ...

Antimicrobial resistance occurs when pathogens such as bacteria develop the ability to resist the drugs designed to kill them. Now, UK researchers have uncovered the mechanism underpinning antibiotic ...

How do bacteria—harmless ones living in our bodies, or those that cause disease—organize their activities? A new study, combining powerful genomic-scale microscopy with a technical innovation, ...

In 1933, geneticist Thomas Hunt Morgan won the Nobel Prize in Physiology or Medicine for demonstrating that genes exist on chromosomes, which are passed down from parent to offspring. Ninety-one years ...

In its purest form (with no extra debris), liquid water can exist as a liquid until -40°C if left still (unmoving). In order ...

Given the growing antibiotic resistance crisis, novel ways to target bacterial infections are becoming increasingly important. One potential strategy is to manipulate bacterial genes at the ...

People with weakened immune systems are at constant risk of infection. Pseudomonas aeruginosa, a common environmental bacterium, can colonize different body parts, such as the lungs, leading to ...