Live Imaging, Identifying, and Tracking Single Cells in Complex Populations In Vivo and Ex Vivo
Advances in optical imaging technologies combined with the use of genetically encoded fluorescent proteins have enabled the visualization of stem cells over extensive periods of time in vivo and ex vivo. The generation of genetically encoded fluorescent protein reporters that are fused with subcellularly localized proteins, such as human histone H2B, has made it possible to direct fluorescent protein reporters to specific subcellular structures and identify single cells in complex populations. This facilitates the visualization of cellular behaviors such as division, movement, and apoptosis at a single-cell resolution and, in principle, allows the prospective and retrospective tracking towards determining the lineage of each cell.
- cdc25和chk1与细胞凋亡
- Terminal Differentiation of Human Epidermal Stem Cells on Micro-patterned Substrates
- Migration Assays for Oligodendrocyte Precursor Cells
- Magnetic Resonance Imaging and Tracking of Stem Cells
- 肌动蛋纤维去聚合蛋白(actin filament-depolymerizing protein)
- 细胞培养基中常用维生素及其作用
- Studies of Adult Neural Stem Cell Migration
- 细胞爬片中重点注意事项
- 细胞凋亡的3种途径是什么?
- Generation, Use, and Validation of Receptor-Selective Antibodies