NeuM (Neuronal Membrane-selective) selectively identifies neuronal membranes, visualizing neuronal structures and permitting real-time monitoring of neuronal changes.Researchers from Dr. Kim Yoon-kyungs team at KIST are using the next-generation nerve cell labeling innovation, NeuM, to envision nerve cells in real-time and analyze high-resolution images. Current gene-based and antibody-based labeling innovations, commonly used to observe nerve cells, suffer from low precision and problem in long-lasting tracking due to their reliance on specific gene expression or proteins.Advantages and Capabilities of NeuMNeuM, developed by the research study team through the molecular style of neuronal cells, has outstanding binding affinity to neuronal membranes, allowing long-term tracking and high-resolution imaging of neurons. This visualization of neuronal membranes enables for comprehensive observation of neuronal terminal structures and high-resolution tracking of neuronal distinction and interactions.Molecular style for selective labeling of neuronal membranes.
NeuM (Neuronal Membrane-selective) selectively labels neuronal membranes, imagining neuronal structures and permitting real-time monitoring of neuronal changes.Researchers from Dr. Kim Yoon-kyungs team at KIST are utilizing the next-generation neuron labeling innovation, NeuM, to envision nerve cells in real-time and analyze high-resolution images. Present gene-based and antibody-based labeling innovations, commonly used to observe neurons, suffer from low accuracy and trouble in long-term tracking due to their reliance on particular gene expression or proteins.Advantages and Capabilities of NeuMNeuM, established by the research team through the molecular design of neuronal cells, has exceptional binding affinity to neuronal membranes, making it possible for long-lasting tracking and high-resolution imaging of neurons. This visualization of neuronal membranes enables for detailed observation of neuronal terminal structures and high-resolution monitoring of neuronal differentiation and interactions.Molecular design for selective labeling of neuronal membranes.