Tzu-Chien Wang scite author profile

The distribution of cells expressing calcium-permeable alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors (CP-AMPARs) in the somatosensory cortex of rats at different developmental stages was studied using a kainate-stimulated Co(2+)-labeling assay in a quantitative manner. The applicability of this assay for identifying CP-AMPAR-expressing cells was first verified using cultured rat cortical neurons by means of fluorescence Ca(2+) imaging and pharmacological tools. Cells positively identified by the Co(2+)-labelinig assay resided primarily in the marginal zone and subplate of young fetuses and became more widely distributed throughout the cortex as the fetus matured. The majority, >80%, of these Co(2+)-positive cells were neurons, exhibiting immunoreactivity with the neuronal marker NeuN. The proportion of neurons that were Co(2+)-positive increased from approximately 25% to approximately 60% as the rat fetus grew into adulthood. In contrast, less than 20% of nonneuronal cells were Co(2+)-positive. Of the Co(2+)-positive neurons, 15%-31% exhibited GABA immunoreactivity and nonpyramidal-shaped cell bodies; these were presumably GABAergic neurons. Most of the remaining non-GABAergic/Co(2+)-positive neurons had pyramidal-shaped cell bodies and were presumably excitatory principle neurons. Around 70% of GABAergic neurons in the cortex were Co(2+)-positive. Furthermore, in the cortex of neonatal rats the Co(2+)-positive neurons were found to be more susceptible to kainate toxicity than the Co(2+)-negative cells. The Co(2+)-positive neurons in the subplate of neonatal rats were more vulnerable to kainate toxicity than their counterparts in the remaining cortical areas. Together, the widespread distribution and distinct susceptibility to excitotoxicity of CP-AMPAR-expressing neurons suggest that they play various important roles in the development and physiology of the rat cerebral cortex.

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ARMS: An agent-based real-time monitoring system for large scale P2P video streaming platforms

Huang

Wang

et al. 2011

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This article proposes an agent-based real-time monitoring system for large scale peer-to-peer video streaming platforms which provides traffic, user receiving quality and system information through web-based presentation. The information is useful for helping service providers to assess the system performance as well as the quality of the streaming service. The monitored information is also stored in backend database and will be valuable to diagnose the streaming system afterwards. In addition, a series of experiments are conducted to evaluate the performance of our system. And we validate the correctness of the monitoring information through simulated experiments and verify the feasibility of our system by combining our real-time monitoring system with a real-world peer-to-peer live streaming system. Index Terms-multimedia streaming, monitoring system, P2P video streaming, traffic measurement.

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Tzu-Chien Wang

An efficient and locality-aware resource management scheme for SVC-based video streaming system on public-shared network

Measuring QoE/QoS of large scale P2P IPTV service

Quantitative study of the developmental changes in calcium‐permeable AMPA receptor‐expressing neurons in the rat somatosensory cortex

ARMS: An agent-based real-time monitoring system for large scale P2P video streaming platforms

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