Thanks to a new technology called Moscot ("Multi-Omics Single-Cell Optimal Transport"), researchers can now observe millions of cells simultaneously as they develop into a new organ-for example, a ...

An IBEC-led study describes the development of an innovative method to control the formation of crypt-like structures and ...

Mysterious Blobs Found inside Cells Are Rewriting the Story of How Life Works Tiny specks called biomolecular condensates are ...

An IBEC-led study describes the development of an innovative method to control the formation of crypt-like structures and ...

The researchers found that the transformation of these DNA nanorobots can be coupled with the deformation of the giant ...

Scientists have revealed the secret to the structural integrity of tiny particles that transport cargo from cell to cell through blood vessels and bodily fluids: special proteins that keep their ...

Understanding bacterial growth mechanisms can potentially help uncover novel drug targets that are crucial for maintaining cellular viability, particularly for bacterial pathogens. In this important ...

Scientists develop DNA nanorobots capable of modifying artificial cells. Scientists at the University of Stuttgart have ...

The bacterial cell wall is crucial to maintain viability. It has previously been suggested that Gram-positive bacteria have a periplasmic region between the cell membrane and peptidoglycan cell wall ...

Scientists at the University of Stuttgart have succeeded in controlling the structure and function of biological membranes ...

Scientists have succeeded in controlling the structure and function of biological membranes with the help of 'DNA origami'. The system they developed may facilitate the transportation of large ...