Tu Hung-Ya

Affiliation and department：

Research field (1)： Neuroscience - general

Research theme for competitive and other funds (4)：

2023 - 2026 網膜神経回路の可塑性および再構築の分子機構の解明
2020 - 2023 iPS細胞由来網膜移植にて視機能再建のための変性網膜の視覚回路の解析と最適化
2019 - 2023 Development of a novel tissue preservation method via mammalian hypometabolism
2017 - 2020 Probing the effect of degenerated retina potentiation on the synaptogenesis after iPSC-derived retinal transplantation

Papers (14)：

Kenji Watari, Suguru Yamasaki, Hung-Ya Tu, Masayuki Shikamura, Tatsuya Kamei, Hideki Adachi, Tomoaki Tochitani, Yasuyuki Kita, Aya Nakamura, Kazuki Ueyama, et al. Self-organization, quality control, and preclinical studies of human iPSC-derived retinal sheets for tissue-transplantation therapy. Communications Biology. 2023. 6. 1
Hirofumi Uyama, Hung-Ya Tu, Sunao Sugita, Suguru Yamasaki, Yasuo Kurimoto, Take Matsuyama, Takashi Shiina, Takehito Watanabe, Masayo Takahashi, Michiko Mandai. Competency of iPSC-derived retinas in MHC-mismatched transplantation in non-human primates. Stem cell reports. 2022. 17. 11. 2392-2408
Suguru Yamasaki, Hung-Ya Tu, Take Matsuyama, Matsuri Horiuchi, Tomoyo Hashiguchi, Junki Sho, Atsushi Kuwahara, Akiyoshi Kishino, Toru Kimura, Masayo Takahashi, et al. A Genetic modification that reduces ON-bipolar cells in hESC-derived retinas enhances functional integration after transplantation. iScience. 2022. 25. 1. 103657-103657
Take Matsuyama, Hung-Ya Tu, Jianan Sun, Tomoyo Hashiguchi, Ryutaro Akiba, Junki Sho, Momo Fujii, Akishi Onishi, Masayo Takahashi, Michiko Mandai. Genetically engineered stem cell-derived retinal grafts for improved retinal reconstruction after transplantation. iScience. 2021. 24. 8. 102866-102866
Hung-Ya Tu, Take Matsuyama. Multielectrode Array Recording of Mouse Retinas Transplanted with Stem Cell-Derived Retinal Sheets. Methods in molecular biology (Clifton, N.J.). 2020. 2092. 207-220

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MISC (2)：

Hung-Ya Tu, Yu-Jiun Chen, Chuan-Chin Chiao, Adam Rory McQuiston, Ching-Kang Jason Chen. Rhythmic membrane potential fluctuations of cholinergic amacrine cells in mice lacking ERG b-waves. INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE. 2015. 56. 7
Ching-Kang Jason Chen, April Bang, Yu-Jiun Chen, Adam Rory McQuiston, Hung-Ya Tu, Chuan-Chin Chiao. Cell-autonomous changes in displaced cholinergic amacrine cells lacking G beta 5. INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE. 2015. 56. 7

Professional career (1)：

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