Science

Researchers at the University of Notre Dame and collaborators have discovered a key process in how the outer membrane of gram-negative bacteria attaches to the cell wall, advancing the understanding of how these bacteria frequently develop resistance to antibiotics.

In a seismic shift since Kew's inaugural State of the World report 10 years ago, the sixth State of the World's Plants and Fungi report, published June 16, 2026, brings together expertise from more than 400 scientists across 40 countries to explore how new technology is transforming the race to save nature. The report argues technology can be nature's ally, with digital tools exposing critical gaps in scientific knowledge and highlighting where action is most urgently needed to safeguard plants and fungi.

A new single-protein analysis technique gives researchers an unprecedented ability to study proteins called scramblases, which have critical roles in biology. The development of the new technique, in a study led by investigators at Weill Cornell Medicine and Ruhr University Bochum in Germany, expands the toolkit available to cell biologists and biophysicists and could someday be useful in devising new strategies against multiple diseases.

Researchers around the world are racing to develop new quantum-based systems for sensing, communication, computing and control that have the promise of outperforming traditional systems. Creating stable, measurable, distinguishable quantum states—which would be the heart of any such system—is a daunting task.

The Bruce Springsteen Center for American Music at Monmouth University, which houses the archives of its namesake Rock & Roll Hall of Fame inductee, welcomed its first visitors

Caltech researchers have identified a novel chemical reaction that could explain the formation of the building blocks of DNA and RNA, the molecules that encode all of life's functions. The work is an important step toward understanding how life may have emerged on Earth and potentially elsewhere in the universe, showing the straightforward and efficient pathways through which simple molecules can give rise to complex biological precursors.

"Love makes fools of all of us," wrote 19th-century novelist William Makepeace Thackeray. A moment spent watching the pigeons at your local park suggests he was right: males with puffed-up, shimmering necks hop, pirouette, coo, and bow to capture the attention of unimpressed females.

This is where the fun begins.

Saturn's largest moon, Titan, is a unique environment in our solar system. It is the only moon (or body beyond Earth) to have a dense, nitrogen-rich atmosphere, and its methane cycle is very similar to Earth's hydrological cycle, in which solid and liquid methane evaporate to form clouds and return to the surface as precipitation. In addition, its prebiotic surface environment and rich organic chemistry make it a prime destination for astrobiology missions, such as NASA's Dragonfly mission (set to launch no earlier than July 2028).

What would it take to instantly transform a material from an electrical insulator into a conductive state without ever touching it? Using ultrafast laser pulses and powerful X-rays, scientists at the National Synchrotron Light Source II (NSLS-II)—a U.S. Department of Energy (DOE) Office of Science user facility at DOE's Brookhaven National Laboratory—developed a methodology to generate "hidden" phases and understand why they work.

Imagine living in the same forest as your parents, grandparents, great-grandparents and all your ancestors as far back in time as stories can tell, and depending on the forest for food, shelter, recreation and education. Imagine, then, that the forest depends on you, too, because you and your people have protected it for generations.

The time capsule will remain sealed in Philadelphia for 250 years. The post America’s Time Capsule includes fabric from the Wright Brother’s plane, whale bone, poker chips, and more appeared first on Popular Science.

Analog filmmakers struggling with aging and hard-to-repair 16mm film cameras can now eagerly anticipate the release of the Cinelux Sixteen, a hybrid 16mm and HD digital camera boasting “live film simulation designed for a new era of filmmakers.”Continue ReadingCategory: Photography, Consumer Tech, TechnologyTags: Filmmaking, Cinematography, Video Cameras

'The truth is, everybody came with their A-game. Because the script called for it. Steven definitely calls for it.'

Trinity's Prof. Stefan Sint, along with collaborators from Germany, Spain and Italy, has published the most precise determination to date of the strong coupling constant. This parameter governs the interactions between quarks and gluons, the fundamental components of nuclear matter. The new result halves the error of all previous experimental measurements combined, setting a new benchmark for the Standard Model, which summarizes our current knowledge of elementary particle physics.