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KMID : 0381920060360020083
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Korean Journal of Microscopy
2006 Volume.36 No. 2 p.83 ~ p.91
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Estimation of Number of Synapses on a Neuron in the Brain Using Physical Disector Method
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Lee Kea-Joo
Rhyu Im-Joo
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Abstract
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The number and structure of synapses are dynamically changed in response to diverse physiological and pathological conditions. Since strength of synaptic transmission is closely related to the synaptic density on a neuron, both synaptogenesis and synapse loss may play important roles in controlling neuronal activity. Thus it is essential to estimate the number of synapses using an accurate quantitative method for better understanding of the numerical alteration of synapses under certain experimental conditions. We applied physical disector principle to estimating the number of synapses per neuron in the dentate gyrus of adult mice. First, we measured the numerical density of granule cells using the physical disector principle. Second, the density of medial perforant path to granule cell synapses was estimated using the bidirectional physical disector. Then, the volume ratio of molecular layer to granule cell layer was measured. With these numerial values, we successfully calculated the number of synapses per neuron. Individual granule cells have approximately 6500 synapses in the dentate gyrus of adult mice (6,545¡¾330), which are comparable to those of other researchers. Our results showed that the estimation of synapse numbers per neuron using the physical disector principle
would provide accurate and precise information on the numerical alteration of synapses in diverse physiological and pathological conditions. Following analyses of synapse numbers using this method will contribute to the better understanding of structural synaptic plasticity in a variety of experimental animal models.
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KEYWORD
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Dentate gyrus, Granule cell, Perforant path, Streology, Synaptic plasticity
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