Publications by authors named "Andreea E Radulescu"
During the G2-M transition, the highly organized Golgi apparatus undergoes reversible fragmentation through unstacking of the cisternal ribbon and disassembly into radially dispersed vesicles and tubules. These Golgi-derived fragments redistribute randomly within the cytoplasm, partition stochastically, and in telophase coalesce to generate a functionally and structurally intact Golgi complex. Here we identified a novel step in postmitotic Golgi reassembly that requires the clathrin heavy chain (CHC).
View Article and Find Full Text PDFThe Golgi apparatus is a network of polarized cisternae localized to the perinuclear region in mammalian cells. It undergoes extensive vesiculation at the onset of mitosis and its reassembly requires factors that are in part segregated via the mitotic spindle. Here we show that unlike typical Golgi markers, the Golgi-protein p115 partitioned with the spindle poles throughout mitosis.
View Article and Find Full Text PDFThe large nuclear mitotic apparatus (NuMA) protein is an abundant component of interphase nuclei and an essential player in mitotic spindle assembly and maintenance. With its partner, cytoplasmic dynein, NuMA uses its cross-linking properties to tether microtubules to spindle poles. NuMA and its invertebrate homologs play a similar tethering role at the cell cortex, thereby mediating essential asymmetric divisions during development.
View Article and Find Full Text PDFThe Golgi apparatus is a highly dynamic organelle whose organization is maintained by a proteinaceous matrix, cytoskeletal components, and inositol phospholipids. In mammalian cells, disassembly of the organelle occurs reversibly at the onset of mitosis and irreversibly during apoptosis. Several pharmacological agents including nocodazole, brefeldin A (BFA), and primary alcohols (1-butanol) induce reversible fragmentation of the Golgi apparatus.
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