New math model controls biological noise at single-cell level, offering a path to tackle cancer relapse and drug resistance.

Organs often have fluid-filled spaces called lumens, which are crucial for organ function and serve as transport and delivery ...

In an RL-based control system, the turbine (or wind farm) controller is realized as an agent that observes the state of the ...

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

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

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

Organs often have fluid-filled spaces called lumens, which are crucial for organ function and serve as transport and delivery ...

Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The ...

As many as 170 universities/institutions will be admitting students to their postgraduate programs for 2026-27 based on the ...

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

Working with three-dimensional pancreatic models (organoids), derived from mouse cells, researchers combined computer simulations with experiments to find out what controls the shape of lumens ...

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