Cells can spontaneously change shape even without external signals, but the underlying mechanisms behind this form of ...

Spatial biology technologies are reshaping modern biomedical research by enabling the visualization of cellular organization ...

Sterols, such as cholesterol in our bodies or ergosterol in yeast cells, are among the most abundant lipids in eukaryotic cells, yet are synthesized through notoriously long, complex metabolic ...

Aging affects every organ in the body, yet we still know little about how the ovary changes over time. In a new study published in Nature Aging, Yale researchers created one of the most detailed maps ...

Phase separation is a fundamental principle of cellular organization that typically leads to two coexisting phases: a dense one, where intermolecular interactions are stronger and molecules are more ...

The in silico labeling prediction of organelle fluorescence from label-free microscopy images has the potential to revolutionize our understanding of cells as integrated complex systems. However, ...

New work from the laboratory of Michel Cayouette, Director of the Cellular Neurobiology Research Unit at the Montreal Clinical Research Institute (IRCM) and Professor in the Faculty of Medicine at the ...

Lucy Shapiro received this year’s Lasker Special Achievement Award for her discovery of how bacteria use genetic circuits to encode three-dimensional cellular life. “I was quite shocked, truly,” said ...