How cells decide their growth modes using biophysical principles derived from Reaction-Diffusion systems. Numerical simulations, Analytical solutions, and microscopic image analysis of live cells.
Han-Ching Wang
Crustacean Immunology, Crustacean Virology, Systems Biology, Multi-omics Analysis
Anna C-C Jang
My lab applies a group of migratory cells named border cells (BCs) as a model to investigate collective cell movement. BCs are derived from anterior follicle epithelia of Drosophila egg chambers, migrate as a cluster to invade through nurse cells and reach the oocyte border in stage 10 of oogenesis, which makes it an elegant model to explore basic mechanisms in collective invasion.
Yu-Hsun Hsu
Evolution of mating systems in birds using phylogenetic comparative analyses. The association between changing environmens and extra-pair mating. Behavioral and morphological polymorphism in an endemic damselfly species in Taiwan.
Shun-Fen Tzeng
Molecular regulation of oligodendrocyte maturation and astrocyte function. Immunoception and Interoception in CNS disorders.
Ju-Ming Wang
ExplorIing and clarifying the molecular mechanisms of inflammation involved in the development of various diseases
Yi-Chun Du
Development of an Intelligent Peripheral Circulation Assessment and Personalized Health Education System Using AI Model of Pulse Analysis and LLM Knowledge Distillation Technology. Highly realistic, multi-functional phantom system simulating thermal ablation surgical training.
