The Experts below are selected from a list of 1140 Experts worldwide ranked by ideXlab platform
Reiji Iizuka - One of the best experts on this subject based on the ideXlab platform.
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Cell membrane changes in brains manifesting senile plaques: an immunohistochemical study of GM1 membranous Ganglioside.
Brain Research, 1990Co-Authors: Norihiko Iwamoto, Yasuo Suzuki, Yutaka Makino, Chie Haga, Kenji Kosaka, Reiji IizukaAbstract:To investigate structural changes in cell membranes of the Alzheimer-type dementia (ATD) brain, we immunostained for GM1 Ganglioside which is a major component of the cell membrane. Our results have shown that astrocytic membranes and senile plaques (SPs) have the same immunoreactivity against the monoclonal anti-Ganglioside GM1 Antibody. Moreover, the astrocytic processes within the SPs were altered and their abnormal membranes seemed to contribute to the formation of SPs.
Norihiko Iwamoto - One of the best experts on this subject based on the ideXlab platform.
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Cell membrane changes in brains manifesting senile plaques: an immunohistochemical study of GM1 membranous Ganglioside.
Brain Research, 1990Co-Authors: Norihiko Iwamoto, Yasuo Suzuki, Yutaka Makino, Chie Haga, Kenji Kosaka, Reiji IizukaAbstract:To investigate structural changes in cell membranes of the Alzheimer-type dementia (ATD) brain, we immunostained for GM1 Ganglioside which is a major component of the cell membrane. Our results have shown that astrocytic membranes and senile plaques (SPs) have the same immunoreactivity against the monoclonal anti-Ganglioside GM1 Antibody. Moreover, the astrocytic processes within the SPs were altered and their abnormal membranes seemed to contribute to the formation of SPs.
Yasuo Suzuki - One of the best experts on this subject based on the ideXlab platform.
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Cell membrane changes in brains manifesting senile plaques: an immunohistochemical study of GM1 membranous Ganglioside.
Brain Research, 1990Co-Authors: Norihiko Iwamoto, Yasuo Suzuki, Yutaka Makino, Chie Haga, Kenji Kosaka, Reiji IizukaAbstract:To investigate structural changes in cell membranes of the Alzheimer-type dementia (ATD) brain, we immunostained for GM1 Ganglioside which is a major component of the cell membrane. Our results have shown that astrocytic membranes and senile plaques (SPs) have the same immunoreactivity against the monoclonal anti-Ganglioside GM1 Antibody. Moreover, the astrocytic processes within the SPs were altered and their abnormal membranes seemed to contribute to the formation of SPs.
Yutaka Makino - One of the best experts on this subject based on the ideXlab platform.
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Cell membrane changes in brains manifesting senile plaques: an immunohistochemical study of GM1 membranous Ganglioside.
Brain Research, 1990Co-Authors: Norihiko Iwamoto, Yasuo Suzuki, Yutaka Makino, Chie Haga, Kenji Kosaka, Reiji IizukaAbstract:To investigate structural changes in cell membranes of the Alzheimer-type dementia (ATD) brain, we immunostained for GM1 Ganglioside which is a major component of the cell membrane. Our results have shown that astrocytic membranes and senile plaques (SPs) have the same immunoreactivity against the monoclonal anti-Ganglioside GM1 Antibody. Moreover, the astrocytic processes within the SPs were altered and their abnormal membranes seemed to contribute to the formation of SPs.
Chie Haga - One of the best experts on this subject based on the ideXlab platform.
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Cell membrane changes in brains manifesting senile plaques: an immunohistochemical study of GM1 membranous Ganglioside.
Brain Research, 1990Co-Authors: Norihiko Iwamoto, Yasuo Suzuki, Yutaka Makino, Chie Haga, Kenji Kosaka, Reiji IizukaAbstract:To investigate structural changes in cell membranes of the Alzheimer-type dementia (ATD) brain, we immunostained for GM1 Ganglioside which is a major component of the cell membrane. Our results have shown that astrocytic membranes and senile plaques (SPs) have the same immunoreactivity against the monoclonal anti-Ganglioside GM1 Antibody. Moreover, the astrocytic processes within the SPs were altered and their abnormal membranes seemed to contribute to the formation of SPs.