Light strengthens plant tissues but limits growth in peas

April 13, 2026

An Ruwaito ta hanyar AI

Researchers at Osaka Metropolitan University have discovered that light exposure increases adhesion between the outer skin and inner tissues of young pea stems through accumulation of p-coumaric acid. This reinforcement bolsters plant structure but restricts expansion and growth. The findings, published in Physiologia Plantarum, suggest potential applications for improving crop resilience.

A team led by Professor Kouichi Soga at Osaka Metropolitan University examined young pea stems to understand light's role in plant development. They used a specialized technique to measure the bond between the epidermal layer and inner tissues. Plants grown in light showed significantly stronger adhesion compared to those in darkness. Professor Soga noted, 'Compared with plants grown in the dark, the epidermal and inner tissues of plants grown in the light are more tightly bound together. This phenomenon has never been reported before.'

Labaran da ke da alaƙa

Lab illustration of madecassic acid from Centella skincare inhibiting drug-resistant E. coli bacteria.

Study finds madecassic acid, a Centella compound used in skincare, can inhibit drug-resistant E. coli in lab tests

April 21, 2026 An Ruwaito ta hanyar AI Hoton da AI ya samar An Binciki Gaskiya

Researchers at the University of Kent, working with University College London, report that madecassic acid—a compound derived from the medicinal herb Centella asiatica and widely used in skincare—can inhibit the growth of antibiotic-resistant E. coli by targeting a bacterial respiratory system not found in humans or other animals.

Scientists discover oxygen tug-of-war in plant cells

Researchers at the University of Helsinki have found that mitochondria in plant cells can draw oxygen away from chloroplasts, revealing a new interaction that affects photosynthesis and stress responses. This discovery, published in Plant Physiology, explains how plants manage internal oxygen levels. The study used genetically modified Arabidopsis thaliana plants to observe these processes.

New research suggests dim indoor light fuels myopia surge

February 19, 2026 An Ruwaito ta hanyar AI

Scientists at the SUNY College of Optometry propose that the rapid rise in nearsightedness, or myopia, stems not just from screen time but from prolonged close-up focusing in dim indoor lighting. This combination reduces light reaching the retina, potentially triggering eye changes. The study, set for publication in Cell Reports, offers a unified explanation for various myopia causes and treatments.

Muhalli

Raising water levels cuts emissions in Arctic peatlands

Science

Scientists grow chickpeas in simulated lunar soil

Lafiya

Spice compounds synergize to boost anti-inflammation hundreds of times

Cells can sense 10 times farther than expected, a finding that may shed light on cancer spread

Engineers at Washington University in St. Louis report that while single abnormal cells can mechanically probe roughly 10 microns beyond what they directly touch, groups of epithelial cells can combine forces through collagen to sense features more than 100 microns away—an effect the researchers say could help explain how cancer cells navigate tissue.

MIT researchers identify gut lectin intelectin-2 that strengthens mucus and targets bacteria

March 15, 2026 An Ruwaito ta hanyar AI An Binciki Gaskiya

Researchers at the Massachusetts Institute of Technology report that intelectin-2, a carbohydrate-binding lectin found in the gastrointestinal tract, can both crosslink mucus components to reinforce the gut’s protective barrier and bind certain bacteria, restricting their growth and reducing viability—findings that may inform future approaches to drug-resistant infections and inflammatory bowel disease.

April 01, 2026 06:48