How many brain cells does it take to play a game of Doom?

Adaptable robotic systems incorporating AI, new vision tech and low-code programming are being used to tackle frequent ...

By simulating the life cycle of a minimal bacterial cell—from DNA replication to protein translation to metabolism and cell ...

By simulating the life cycle of a minimal bacterial cell, from DNA replication to protein translation to metabolism and cell division, scientists have opened a new frontier of computer vision into the ...

Large protein machines in the body carry out many of the cell's most essential tasks, from energy production to the ...

Forget playing Doom on a calculator. Now you can play it with a clump of brain cells--no brainstem necessary.

A biocomputer powered by lab-grown human brain cells has leveled up from Pong to Doom. While nowhere ready to handle the video game shooter’s most challenging levels, researchers at Cortical Labs in ...

A research team ran computer simulations of protein production. The model system, based on E. coli, contained the bare minimum for assembling proteins: 241 chemicals undergoing 968 reactions for 1,000 ...

A dish of living human neurons has been taught to play Doom. No, it isn’t conscious or watching the screen the way players do. But it is learning to respond to signals in a way that produces ...

Understandably, you're likely scratching your head, wondering how it's even possible for a petri dish to play Doom. Good question. The answer is the CL1, "the world’s first code ...

Protein folding is the process by which proteins achieve their mature functional (native) tertiary structure, and often begins co-translationally. Protein folding requires chaperones and often ...