Sciences

A new study from the Hebrew University of Jerusalem reveals that bacterial movement plays a central role in the transfer of antibiotic resistance genes. The research team discovered that the rotation of flagella in Bacillus subtilis acts as a mechanical signal that activates key conjugation genes. This enables donor bacteria to form clusters with recipients and successfully transfer DNA in liquid environments. The findings suggest that bacteria can use motion to control when and where gene sharing occurs, offering new insight into the spread of resistance across species.

FOOJI – HUJI Center for Sustainable Food Systems in collaboration with GFI Israel, Tnuva, The Kitchen Hub, Aquacultech, Facultech, HUJI Innovate and Food Tech Nation held the first annual Brian Y. Davidson Food Systems Conference on Building Food Systems for Efficiency and Sustainability in a Changing World

Israeli and Palestinian engineers from the Hebrew University of Jerusalem develop novel metamaterials for the cost-effective injection molding of whole cuts of meat. 

A new study reveals how repeated fasting enhances the liver’s ability to adapt through a cellular memory mechanism. The research shows that alternate-day fasting “sensitizes” key genes and liver enhancers, boosting ketogenesis during subsequent fasting bouts. This process, driven by the transcription factor PPARα, highlights how the body adjusts to recurring nutritional challenges. These findings provide fresh insights into the metabolic benefits of fasting and its potential applications in health and dietary science.

New research has revealed that fish embryos actively control their hatching timing through a neurohormone, Thyrotropin-Releasing Hormone (TRH), which triggers the release of enzymes that dissolve the egg wall. This groundbreaking discovery uncovers a previously unknown neural mechanism that governs a critical life-stage transition, showing that embryos are not passive but instead actively make life-or-death decisions. The finding has significant evolutionary implications, offering new insights into neurobiology, survival strategies, and environmental adaptation in vertebrates.

A recent study from Hebrew University has achieved a significant advancement in integrating single-photon sources onto tiny chips at room temperature, representing an important step forward in quantum photonics with potential for applications such as quantum computing and cryptography. This achievement signifies a milestone in the development of practical quantum photonic devices, heralding a promising future where quantum technologies, encompassing computing, communication, and sensing, can be fully realized.

A new study by the Hebrew University has unveiled a significant advancement in chaos theory, introducing a flux-based statistical theory that predicts chaotic outcomes in non-hierarchical three-body systems. This breakthrough holds practical implications for fields such as celestial mechanics, astrophysics, and molecular dynamics, offering a more efficient and precise approach to analyzing complex systems and enabling deeper exploration and understanding of chaotic phenomena.