Microbes essential for human health have proven resilient against the extreme forces of space travel, offering hope for ...

A resilient gut microbe, Bacillus subtilis, has survived the extreme conditions of space launch and reentry - great news for ...

When a rocket launches, the forces are intense enough to strain metal and push the human body to its limits. Yet Bacillus ...

Scientists have long known that humans don’t travel to space alone. Every astronaut carries trillions of microbes, including ...

Previous experiments on board the International Space Station (ISS) have shown that certain types of bacteria can survive in ...

Bacteria adapt readily to many different nutritional environments by altering gene expression in accordance with the availability of particular nutrients. Each metabolic gene or operon is regulated by ...

A collaborative team of physicists and microbiologists from UNIST and Stanford University has, for the first time, uncovered ...

Researchers at National Taiwan University have discovered a versatile enzyme from Bacillus subtilis that efficiently attaches phosphate groups to a wide variety of phenolic molecules, offering a ...

Good news for astronauts, as new research finds that microbes essential for human health can survive the extreme conditions ...

A Bacillus subtilis probiotic demonstrated the ability to wipe out most Staphylococcus aureus colonization without altering the gut microbiome, a placebo-controlled phase II study conducted in ...