Researchers from The University of Osaka found that nanomicelle-mediated delivery of five mRNAs involved in angiogenesis, heart cell contraction, immune and hematopoietic stem cell recruitment, and immune response suppression promoted cardiac repair and increased overall survival in a mouse model of myocardial infarction–induced heart failure. These findings suggest that a multifactorial treatment approach effectively addresses the complex nature of heart failure and could aid new treatments in regenerative medicine for cardiovascular disease.

The planar Hall effect is a tabletop diagnostic tool for special quantum properties useful in basic research and technological applications. Or so it was thought, because careful calculation by Kobe University researchers clarifies the conditions under which this effect may also appear in classical materials. This makes the diagnostic more meaningful and enables more purposeful design.

Excessive bite force does not cause alveolar bone loss but significantly worsens it when combined with periodontitis, report researchers in a new study. While traumatic occlusion has long been suspected to exacerbate periodontitis, the molecular mechanisms behind this link were poorly understood. Now, using mouse models of both conditions separately and combined, the researchers conducted comprehensive gene expression analysis across multiple periodontal tissues, identifying key inflammatory pathways upregulated in bone when both conditions were present.

Conical intersections are crucial molecular switching points in light-driven reactions, but accurately predicting them usually requires computations. A researcher from Shibaura Institute of Technology has developed a new low-cost quantum chemistry method that can simultaneously describe ground and excited molecular states while efficiently locating these elusive structures. The approach reproduces benchmark geometries with strong accuracy and enables practical simulations of photochemical processes, making it promising for applications in photocatalysis, solar cells, and biological light-response studies.

Selenium is an essential micronutrient that supports antioxidant and immune functions, yet how its metabolism is regulated by interactions between host and gut microbiota remains unclear. In a recent study, researchers from Japan used rats to investigate how gut microbiota and the host jointly manage selenium metabolism. Their findings reveal that gut microbiota actively transform selenium into various metabolites that influence selenium utilization, detoxification, and excretion, and that the host’s selenium intake affects bacterial diversity

Researchers at Tohoku University look beyond the life-taking venomous stings of box jellyfish, and focus on life-creating processes in a new comprehensive study of their reproductive traits.

The National Institute of Information and Communications Technology (NICT), together with 5 international research partners, has demonstrated a record-breaking 450 terabits per second (Tb/s) optical transmission - the first time such a rate has been achieved over a field-deployed legacy fiber. The link, in London, UK, connects University College London (UCL) to the Telehouse North data center. This work is part of a long-standing collaboration between NICT and UCL. The team introduced new optical-amplifier technologies that support ultra-wideband signals. Conventional commercial systems use up to about 10 THz of bandwidth, covering the C- and L-bands. The new system uses the O-, E-, S-, C- and L-bands together, more than quadrupling the available bandwidth to a record 42.4 THz. The resulting data rate of 450 Tb/s surpasses the previous records of 402 Tb/s and 430 Tb/s, set in 2024 and 2025 over laboratory fibers. Unlike those earlier demonstrations, the new experiment used real, already-installed fibers from the UK National Dark Fibre Facility (NDFF). This is therefore the closest demonstration to date of how the full capacity of existing fiber infrastructure could be unlocked, paving the way for the next generation of networks needed to support AI services and beyond-5G mobile systems. This achievement was reported as a postdeadline paper at the 2026 Optical Fiber Communication Conference (OFC2026) on Thursday, March 19, 2026, at the Los Angeles Convention Center, Los Angeles, California, USA.

Researchers have developed a new way to generate realistic synthetic training data for agricultural robots by recreating tomato cultivation environments in a virtual world. The approach could help overcome one of the biggest barriers in agricultural robotics: the time and labor required to collect and manually label real-world data under challenging greenhouse conditions such as changing lighting, dense foliage, and fruit occlusion.

Researchers, including those from the University of Tokyo, pioneered a new method for encapsulating cells within small, soft capsules. This is useful for various kinds of research where the properties of a cell, including its behaviors and interactions, need to be isolated and measured. Previous methods required more specialized equipment, time and expertise. The new method needs only basic lab equipment and can open up access to advanced 3D cell culture research to a broad range of researchers.