Cells constantly shift and transform, triggering the complex choreography that shapes living organisms. Whether dividing into new cells or sculpting an embryo, these tiny movements rely on chemical ...

After more than a decade of work, researchers have reached a major milestone in their efforts to re-engineer life in the lab, putting together the final chromosome in a synthetic yeast (Saccharomyces ...

As we stand on the precipice of a scientific revolution, researchers are pushing the boundaries of biology by developing synthetic cells from non-living components. This groundbreaking work could ...

In living organisms, the cell membrane plays a crucial role. It’s not just a protective barrier—it also senses the environment, helps transport molecules, and allows cells to adapt and change. This ...

It has taken more than a decade, but scientists have finally reached a major step in the goal to create synthetic life in the lab. According to a new study led by a team from Macquarie University in ...

Synthetic biology offers many tantalizing possibilities, but scientists consider some projects too risky to pursue. DBenitostock/Moment via Getty Images Most major biological molecules, including all ...

Scientists describe molecules like DNA or the amino acids that build proteins as being left-handed or right-handed in their configurations. In humans, the left hand and the right hand are mirror ...

Schematic of synthetic protocells: Upon activation with a light pulse, synthetic cell organelles release substance A. The substance enters the receiver protocell and its synthetic organelle containing ...

A synthetic cell that can be activated by a magnetic field to release a medicine whilst deep in the body has been created by chemists at UCL (University College London) and the University of Oxford.