.. copy and pasted from the website called "Daily Galaxy" .. article written by Kouceila Rekik .. .. .. .. .. Nightingale mist the second: ..".. but what is this.. what is this.. what is this.." ..

Daily Galaxy 62.2K Followers Scientists found viruses behave strangely in space and it might save lives Story by Kouceila Rekik • 10h • 4 min read Credit: Canva | The Daily Galaxy --Great Discoveries Channel Credit: Canva | The Daily Galaxy --Great Discoveries Channel © Daily Galaxy CA When scientists sent bacteria and their viral predators, bacteriophages, to the International Space Station (ISS), they expected strange things to happen and they weren’t disappointed. In a groundbreaking study published in PLOS Biology, researchers discovered that viruses behave completely differently in microgravity, revealing new ways they evolve, infect, and survive. These findings could help unlock novel treatments for antibiotic-resistant superbugs threatening human health on Earth. The Battle Between Phages And Bacteria Beyond Earth In space, everything changes, even the most basic interactions between living organisms. On Earth, gravity drives constant mixing, pushing nutrients, microbes, and viruses together in a chaotic dance. Without gravity, this rhythm vanishes. Liquids drift, and particles move sluggishly, forcing phages and bacteria into an entirely new type of evolutionary arena. In the recent PLOS Biology experiment, scientists launched cryovials containing the well-known T7 bacteriophage and the Escherichia coli BL21 strain to the ISS, while identical samples stayed on Earth for comparison. The difference was dramatic. On Earth, infections became apparent within hours, as phage numbers soared and bacterial counts plummeted. But in microgravity, nothing much seemed to happen, at least not at first. After nearly a month, researchers found that infection had indeed occurred, but at a drastically slower pace. “Space fundamentally changes how phages and bacteria interact: infection is slowed, and both organisms evolve along a different trajectory than they do on Earth,” the authors said. “By studying those space-driven adaptations, we identified new biological insights that allowed us to engineer phages with far superior activity against drug-resistant pathogens back on Earth.” The findings suggest that microgravity doesn’t stop life, it just rewrites the rules. What emerged was a slow-motion battle between predator and prey, where both the virus and the bacterium had to adapt in entirely new ways to survive. Evolution Under Microgravity A New Frontier For Biology What happens when life is forced to evolve in a near-weightless world? According to the study, both bacteria and viruses accumulated new mutations, but not in the same patterns observed on Earth. These differences hint that the selective pressures in space are unique, pushing evolution down unfamiliar paths. Journal.pbio.3003568.g001 (1) Journal.pbio.3003568.g001 (1) © Daily Galaxy CA In this environment, bacteria may form thicker biofilms, tweak their cell surfaces, or adjust their stress responses, all changes that can make it harder for phages to attach and infect. Meanwhile, viruses are forced to adapt their own infection strategies. This delicate, long-term coevolution produces unexpected outcomes that could inspire biomedical innovation back home. Related video: How NASA plans to edit astronaut DNA for deep space survival (Astrum) Current Time 0:00 / Duration 15:33 Astrum How NASA plans to edit astronaut DNA for deep space survival 0 View on Watch View on Watch For astronauts, understanding these dynamics isn’t just scientific curiosity, it’s a matter of safety. Spacecraft like the ISS are closed ecosystems, where microbes share air, water, and surfaces with humans. If bacteria evolve differently in space, or if phages can control harmful microbes, these findings could transform how we manage microbial health in long-duration missions to the Moon or Mars. From Space Labs To Earth’s Hospitals Back on Earth, the study’s implications reach far beyond the ISS. Antibiotic resistance has become one of humanity’s most pressing medical challenges, creating “superbugs” that no longer respond to conventional drugs. Scientists are revisiting phage therapy, using viruses to hunt and destroy harmful bacteria, as a potential solution. The space-based results suggest that microgravity acts as an evolutionary filter, accelerating the discovery of new viral traits that might improve phage performance. By simulating or exploiting these space-driven mutations, researchers could design more effective phages capable of targeting resistant bacteria that standard lab conditions fail to affect. This connection between space biology and medical innovation illustrates a powerful truth: sometimes, the best way to solve Earth’s toughest problems is to leave the planet. What happens in orbit doesn’t stay in orbit, it may shape the future of infectious disease treatment for generations to come. Beyond Infection What Space Teaches Us About Life Itself The slow, subtle battle between bacteria and viruses in space also raises deeper questions about the origins and limits of life. If even simple microbes evolve differently when freed from gravity, what does that say about potential life forms on other worlds? Could alien ecosystems develop entirely different biological rules simply because their physics differ? The ISS has become an unlikely evolutionary laboratory, offering a glimpse into what biology looks like when one of its fundamental forces, gravity, is removed. These experiments don’t just help us protect astronauts or fight infections; they help us understand life’s adaptability in the universe. As the researchers noted, by exploring how microgravity reshapes microbial evolution, humanity may gain both new medicines and new insights into life’s resilience, whether on Earth, Mars, or beyond. Enjoyed this article? Subscribe to our free newsletter for engaging stories, exclusive content, and the latest news. Sponsored Daily Galaxy Visit Daily Galaxy Plastic trash is now household fuel in the world’s poorest cities where firewood and gas are out of reach Scientists Found Space Signals Inside Beach Sand, Here’s What They Reveal About Earth’s Ancient Massive northern lights alert: 24 US states could see stunning auroras tonight! Sponsored