Rac-1 Regulated Cadherin Clusters Mark Naive Stem Cells
Researchers from the Kanchanawong Lab at the Mechanobiology Institute, NUS discover a marker of ground-state pluripotent stem cells and what governs it.
Confined Migration Shapes the Bony Fate of Stem Cells
Researchers from the Holle Lab at the Mechanobiology Institute, NUS discover that migration through confined spaces causes lasting nuclear changes in stem cells, biasing them toward bone formation.
DECIPHERing the Role of Cell-Matrix Interactions in Ageing Heart Health
Researchers from the Soft Nano-Biomaterials Lab at MBI developed a material system to enable precise investigation into how individual ECM properties affect cultured heart cells.
How Dying Cells Signal Growth: Mechanical Forces Drive Targeted Cell Proliferation after Apoptosis
Researchers from the Toyama Lab at MBI reveal how mechanical factors control apoptosis and cell replacement.
Scientists Develop AI-Driven Tool to Map 3D Cellular Landscapes
Researchers from the Beghin Lab at the Mechanobiology Institute, NUS combine DeepStar3D algorithm and 3DCellScope interface to develop an experimental tool for real-time interaction with cell data.
The Nano-Heartbuilder: BNIP-2 Influences Mechanosensing in Cardiomyoblast Differentiation
Researchers from the Low Lab at MBI discover a crucial role for the scaffold protein BNIP-2 in orchestrating focal adhesion dynamics during early heart development, offering new insights into heart regeneration strategies.
Shedding Light on Local Microtubule Regulation of Focal Adhesions
Researchers from the Bershadsky Lab at MBI utilized optogenetics to unlock the role of microtubules in regulating focal adhesion disassembly, an important step in cell migration. http://www.mbi.nus.edu.sg/featured-research/microtubules-and-cell-movement-a-closer-look-at-focal-adhesion-disassembly
