Biology has always been an unruly science. Cells divide when they want to. Genes switch on and off like temperamental lights.

Mice have remained the focal point for life sciences research for the past several decades. Their universality in biomedicine ...

NVIDIA and Lilly bring together a world-leading, multidisciplinary team of scientists, AI researchers and engineers to ...

Sweeney won the Top Presentation Award for his talk titled, “The SUMO Balancing Act: Insights into Cellular Robustness from ...

The largest single cell perturbation dataset to-date will be generated and released open source in a new team effort.

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

New research shows that AI doesn’t need endless training data to start acting more like a human brain. When researchers ...

The constant, energy-driven motion inside living cells may generate electricity in a way no one fully recognized before.

We know the genes, but not their functions.” To resolve this long-standing bottleneck in microbial research, a joint research ...

A new discovery at the University of Missouri reveals that vitamin C may help protect reproductive health from a harmful ...

Veronika Koren talks about pursuing a theory of neural coding that doesn’t fit a simple narrative, and the resilience it took to see it through.