Imaging live cells with fluorescent proteins has long been a crucial technique for understanding cellular behavior. While bioluminescent proteins offer several advantages over fluorescent proteins, ...

Researchers have developed a groundbreaking method to expand the palette of bioluminescent protein colors for cell labeling. By creating 20 distinct colors, they have enabled the simultaneous ...

With the help of a $33 million contract, U of I engineers with the Biophotonics Imaging Laboratory have created technology to ...

Ramona, a Durham provider of advanced imaging technology for life sciences, has launched a live-cell imaging system that ...

In a recent study, scientists have introduced an innovative imaging technique that provides an unparalleled view of the bone marrow’s intricate structure, focusing on leptin receptor-expressing (LepR+ ...

Filopodia help cells move but also aid cancer spread. Scientists have revealed how fascin proteins build these structures, ...

Solvias, a global provider of chemistry, manufacturing, and control (CMC) analytics and headquartered in Switzerland, ...

Studies in mice show that microplastics entering the bloodstream are engulfed by immune cells, forming clusters that can ...

Researchers explore the cellular and molecular adaptations associated with human secondary lymphoid tissue in adults during ...

Researchers have expanded the colour palette of bioluminescent protein to 20 distinct colours, enabling advanced simultaneous multicolour imaging.

Cells navigating in complex microenvironments frequently encounter narrow spaces that physically challenge migration.

Bioluminescence imaging of human cultured cells transfected with eNLEX. (A) HeLa cells expressing each color of eNLEX. Scale bar: 20 μm. (B) A mixture of cells of each color. Scale bar: 100 μm ...