Randomness inside cells can decide whether a cancer returns after chemotherapy or whether an infection survives antibiotics.

In 2025, large language models moved beyond benchmarks to efficiency, reliability, and integration, reshaping how AI is ...

Researchers have proposed a unifying mathematical framework that helps explain why many successful multimodal AI systems work ...

Cancer therapy and synthetic biology are converging around a shared problem that has long frustrated oncologists and ...

Eighty years after total war transformed the continent, European countries are making big bets on new instruments of ...

Duke University engineers are using artificial intelligence to do something scientists have chased for centuries; turn messy, real-world motion into simple rules you can write down. The work comes ...

Most of the time, you assume your brain is either “on” or “off,” awake or asleep. A new study shows something far more ...

This study presents SynaptoGen, a differentiable extension of connectome models that links gene expression, protein-protein interaction probabilities, synaptic multiplicity, and synaptic weights, and ...

Tech companies are claiming machines more intelligent than us and capable of having their own agendas are just around the ...

Research reveals why AI systems can't become conscious—and what radically different computing substrates would be needed to ...

Overview:  Reinforcement learning in 2025 is more practical than ever, with Python libraries evolving to support real-world simulations, robotics, and deci ...

The study also opens the door to new kinds of treatments that do not rely solely on antibiotics. Some of the surviving bacteria are fragile in specific ways, especially in their outer membranes.