East China Normal University – Tian Yang: Revealing Dynamic Changes in Arginine Metabolism During Neuronal Differentiation Through Ratio Fluorescence Imaging

East China Normal University - Tian Yang: Revealing Dynamic Changes in Arginine Metabolism During Neuronal Differentiation Through Ratio Fluorescence Imaging

East China Normal University Tian YangPublished on 2025.9.15 Recent article by the corresponding author: J. Am. Chem. Soc. | East China Normal University – Tian Yang: Engineered Supramolecular Fluorescent Chemical Sensors for Dynamic Multiscale Visualization Monitoring of Glutamate in Living Systems Research Highlights Arginine (Arg) is a crucial amino acid in the central nervous system, … Read more

Revealing Dynamics of Arginine Metabolism in Neural Differentiation through Ratiometric Fluorescence Imaging

Revealing Dynamics of Arginine Metabolism in Neural Differentiation through Ratiometric Fluorescence Imaging

Neural stem cell (NSC) differentiation is one of the core processes in the central nervous system, involving the regulation of various bioactive molecules such as growth factors, reactive oxygen species, and amino acids. Among these, arginine (Arg) plays a crucial role in NSC differentiation. Once the levels of arginine become excessive or uncontrolled, it disrupts … Read more

Recent Advances: Nature | Human Accelerated Regions Regulate the Potential of Human and Chimpanzee Neural Stem Cells

“Natural selection only acts on the minute, continuous variations.” —— Charles Darwin, On the Origin of Species Throughout the history of species evolution, the expansion of brain capacity in modern humans (Homo sapiens) is one of the most remarkable achievements. Approximately 6-7 million years ago (ma), humans diverged from their closest ape relatives, the chimpanzees … Read more