Just like workers need the right environment to efficiently perform their tasks, proteins require placement within specific cellular compartments to function properly. Therefore, understanding where ...

Scientists expanded our understanding of proteins within mitochondria, cells’ powerhouses. A new technique identified ~400 ...

COMPASS, a user-friendly tool that predicts multiple protein locations and enables integrated spatial proteomics and ...

Localizatome contains comprehensive information about the stress-induced protein localization changes within living cells. It provides open access to subcellular protein localization data through a ...

An international team has assembled the first large-scale, publicly available map to show the impact of mutations on where proteins end up in the cell. The team developed a high-throughput imaging ...

A new tool developed by Helmholtz Munich and the German Center for Diabetes Research and the University of Bonn makes spatial proteomics and lipidomics easier to use—no coding required. C-COMPASS ...

Electron cryo-tomography (cryo-ET) is emerging as a powerful technique to provide detailed 3D images of cellular environments and enclosed biomolecules. However, one of the challenges of the ...

Immunolocalization of epitope-tagged proteins. (A-E) represent cells containing HAT-tagged proteins stained with the DNA dye, DAPI, and a monoclonal antibody against hemagluttinin, α-HA. At right the ...

Cell division is essential for the correct transmission of genetic information. Each chromosome within a plant contains a ...