Your search keyword '"Yongling, Zhu"' showing total 2 results

1. Probing synaptic vesicle fusion by altering mechanical properties of the neuronal surface membrane

Author

Yongling Zhu and Charles F. Stevens

Subjects

Neurons, Multidisciplinary, Vesicle fusion, Chemistry, Vesicle, Cell Membrane, Detergents, Presynaptic Terminals, SNAP25, Lipid bilayer fusion, Kiss-and-run fusion, Biological Sciences, Synaptic vesicle, Membrane Fusion, Exocytosis, Cell biology, Biomechanical Phenomena, Rats, Synaptic vesicle exocytosis, Surface-Active Agents, Animals, Calcium, Synaptic Vesicles, Coloring Agents, Porosity

Abstract

Because synaptic vesicle exocytosis is a nano-mechanical process, it should be influenced by the mechanical properties of the cell membrane to which the vesicle fuses. By dissolving surfactants at various concentrations in the neuronal membrane, we have perturbed mechanical properties of the membrane and have found that dissolved surfactants lower the probability that a synaptic vesicle will open its fusion pore when the fusion machinery of the vesicle is activated by binding calcium. By using standard theories from the physics and chemistry of surfaces, we can account for this decrease in fusion probability and can infer that a vesicle, when activated, opens its fusion pore ≈3 times out of 4 and that the area of the fusion pore is ≈4 nm 2 .

Published

2008

2. Optical measurement of synaptic glutamate spillover and reuptake by linker optimized glutamate-sensitive fluorescent reporters.

Author

Hires, Samuel Andrew, Yongling Zhu, and Tsien, Roger Y.

Subjects

*OPTICAL measurements, *GLUTAMIC acid, *NEURONS, *SPILLOVER (Chemistry), *NERVOUS system, *CARRIER proteins

Abstract

Genetically encoded sensors of glutamate concentration are based on FRET between cyan and yellow fluorescent proteins bracketing a bacterial glutamate-binding protein. Such sensors have yet to find quantitative applications in neurons, because of poor response amplitude in physiological buffers or when expressed on the neuronal cell surface. We have improved our glutamate-sensing fluorescent reporter (GIuSnFR) by systematic optimization of linker sequences and glutamate affinities. Using SuperGluSnFR. which exhibits a 6.2-fold increase in response magnitude over the original GIuSnFR. we demonstrate quantitative optical measurements of the time course of synaptic glutamate release, spillover, and reuptake in cultured hippocampal neurons with centisecond temporal and spine-sized spatial resolution. During burst firing, functionally significant spillover persists for hundreds of milliseconds. These glutamate levels appear sufficient to prime NMDA receptors, potentially affecting dendritic spike initiation and computation. Stimulation frequency-dependent modulation of spillover suggests a mechanism for nonsynaptic neuronal communication. [ABSTRACT FROM AUTHOR]

Published

2008