Articles tagged with Immunofluorescence Microscopy
Researchers have discovered a key protein structure in the germ cells of male mice that causes deformations in sperm flagellum leading to infertility. The study used ultrastructure expansion microscopy to visualize the centriole, a tiny cylindrical structure critical for sperm movement.
Researchers developed a mathematical model to predict the efficiency of nanoparticle delivery into cells, particularly in stem cells. They found that nanoparticles become trapped in bubble-like vesicles, preventing them from reaching their targets.
Researchers develop an optimized approach combining AP-MS and BioID to identify protein-protein interactions, stoichiometries, and molecular context. The method enables higher resolution assignment of proteins to cellular or subcellular locations.