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Aging Brain
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December 4, 2023
Urine-derived cells from the aged donor for the 2D/3D modeling of neural cells via iPSCs
Sopak Supakul, Yuki Hatakeyama, Nicolas Leventoux, et al.
Biochemistry
|
March 7, 2007
Granular tau oligomers as intermediates of tau filaments
Sumihiro Maeda, Naruhiko Sahara, Yuko Saito, et al.
Inflammation and Regeneration
|
February 28, 2024
Mutual interaction of neurons and astrocytes derived from iPSCs with APP V717L mutation developed the astrocytic phenotypes of Alzheimer's disease
Sopak Supakul, Rei Murakami, Chisato Oyama, et al.
Neurobiology of Disease
|
June 4, 2018
Neuronal levels and sequence of tau modulate the power of brain rhythms
Melanie Das, Sumihiro Maeda, Bozhong Hu, et al.
Biochemical and Biophysical Research Communications
|
May 12, 2007
Novel conformation-sensitive antibodies specific to three- and four-repeat tau
Hitomi Ueno, Ohoshi Murayama, Sumihiro Maeda, et al.
Plos One
|
October 3, 2012
Human P301L-mutant tau expression in mouse entorhinal-hippocampal network causes tau aggregation and presynaptic pathology but no cognitive deficits
Julie A Harris, Akihiko Koyama, Sumihiro Maeda, et al.
The Journal of Biological Chemistry
|
October 6, 2010
Aggregation of detergent-insoluble tau is involved in neuronal loss but not in synaptic loss
Tetsuya Kimura, Tetsuya Fukuda, Naruhiko Sahara, et al.
Regenerative Therapy
|
January 15, 2025
<i>MAPT</i>-A152T mutation drives neuronal hyperactivity through Fyn-NMDAR signaling in human iPSC-Derived neurons: Insights into Alzheimer's pathogenesis
Maika Itsuno, Hirokazu Tanabe, Etsuko Sano, et al.
EMBO Reports
|
October 3, 2024
Author Correction: Expression of A152T human tau causes age-dependent neuronal dysfunction and loss in transgenic mice
Sumihiro Maeda, Biljana Djukic, Praveen Taneja, et al.
EMBO Reports
|
March 3, 2016
Expression of A152T human tau causes age-dependent neuronal dysfunction and loss in transgenic mice
Sumihiro Maeda, Biljana Djukic, Praveen Taneja, et al.
Page
of 4
Search research articles
Search
Showing results (21-30 of 35) with videos related to
Sort By:
Page
of 4
Aging Brain
|
December 4, 2023
Urine-derived cells from the aged donor for the 2D/3D modeling of neural cells via iPSCs
Sopak Supakul, Yuki Hatakeyama, Nicolas Leventoux, et al.
Biochemistry
|
March 7, 2007
Granular tau oligomers as intermediates of tau filaments
Sumihiro Maeda, Naruhiko Sahara, Yuko Saito, et al.
Inflammation and Regeneration
|
February 28, 2024
Mutual interaction of neurons and astrocytes derived from iPSCs with APP V717L mutation developed the astrocytic phenotypes of Alzheimer's disease
Sopak Supakul, Rei Murakami, Chisato Oyama, et al.
Neurobiology of Disease
|
June 4, 2018
Neuronal levels and sequence of tau modulate the power of brain rhythms
Melanie Das, Sumihiro Maeda, Bozhong Hu, et al.
Biochemical and Biophysical Research Communications
|
May 12, 2007
Novel conformation-sensitive antibodies specific to three- and four-repeat tau
Hitomi Ueno, Ohoshi Murayama, Sumihiro Maeda, et al.
Plos One
|
October 3, 2012
Human P301L-mutant tau expression in mouse entorhinal-hippocampal network causes tau aggregation and presynaptic pathology but no cognitive deficits
Julie A Harris, Akihiko Koyama, Sumihiro Maeda, et al.
The Journal of Biological Chemistry
|
October 6, 2010
Aggregation of detergent-insoluble tau is involved in neuronal loss but not in synaptic loss
Tetsuya Kimura, Tetsuya Fukuda, Naruhiko Sahara, et al.
Regenerative Therapy
|
January 15, 2025
<i>MAPT</i>-A152T mutation drives neuronal hyperactivity through Fyn-NMDAR signaling in human iPSC-Derived neurons: Insights into Alzheimer's pathogenesis
Maika Itsuno, Hirokazu Tanabe, Etsuko Sano, et al.
EMBO Reports
|
October 3, 2024
Author Correction: Expression of A152T human tau causes age-dependent neuronal dysfunction and loss in transgenic mice
Sumihiro Maeda, Biljana Djukic, Praveen Taneja, et al.
EMBO Reports
|
March 3, 2016
Expression of A152T human tau causes age-dependent neuronal dysfunction and loss in transgenic mice
Sumihiro Maeda, Biljana Djukic, Praveen Taneja, et al.
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of 4