Research keywords (4):
遺伝子発現
, エピジェネティクス
, 神経発生
, 神経科学
Research theme for competitive and other funds (3):
2023 - 2025 自閉スペクトラム症における末梢由来因子の機能解析
2021 - 2023 血中エクソソームを基軸とした自閉症スペクトラム障害の病態理解
2019 - 2021 The effect of circulating factor in autism spectrum disorder
Papers (9):
Takashi Maruyama, Shogo Tanabe, Akiko Uyeda, Tatsunori Suzuki, Rieko Muramatsu. Free fatty acids support oligodendrocyte survival in a mouse model of amyotrophic lateral sclerosis. Frontiers in cellular neuroscience. 2023. 17. 1081190-1081190
Niamh B McNamara, David A D Munro, Nadine Bestard-Cuche, Akiko Uyeda, Jeroen F J Bogie, Alana Hoffmann, Rebecca K Holloway, Irene Molina-Gonzalez, Katharine E Askew, Stephen Mitchell, et al. Microglia regulate central nervous system myelin growth and integrity. Nature. 2023. 613. 7942. 120-129
Shizuka Nakano, Akiko Uyeda, Yukiko T. Matsunaga, Rieko Muramatsu. Phenotypic and transcriptional characterization of oligodendrocyte precursor cells in a 3D culture. Biomaterials Science. 2023
Mizuki Uenaka, Akiko Uyeda, Tsutomu Nakahara, Rieko Muramatsu. LPA2 promotes neuronal differentiation and neurite formation in neocortical development. Biochemical and biophysical research communications. 2022. 598. 89-94
Akiko Uyeda, Lili Quan, Yuki Kato, Nagaaki Muramatsu, Shogo Tanabe, Kazuhisa Sakai, Noritaka Ichinohe, Yukio Kawahara, Tatsunori Suzuki, Rieko Muramatsu. Dimethylarginine dimethylaminohydrolase 1 as a novel regulator of oligodendrocyte differentiation in the central nervous system remyelination. Glia. 2021. 69. 11. 2591-2604
Lili Quan, Akiko Uyeda, Rieko Muramatsu. Central nervous system regeneration: the roles of glial cells in the potential molecular mechanism underlying remyelination. Inflammation and regeneration. 2022. 42. 1. 7-7
Akiko Uyeda, Rieko Muramatsu. Molecular Mechanisms of Central Nervous System Axonal Regeneration and Remyelination: A Review. International journal of molecular sciences. 2020. 21. 21
Genome maintenance by Polβ is required for epigenetic regulation of neuronal differentiation in the hippocampus and cortex
(The 12th Annual Meeting for Japanese Developmental Neuroscientists 2019)
DNA polymerase β is required for postnatal hippocampal development and function
(Cold Spring Harbor Asia meeting on Latest Advance in Development & Function of Neuronal Circuit 2018)
Maintenance of genome stability by DNA polymerase β in necessary for postnatal development in cortical and hippocampal neurons
(The 41st Annual meeting of the Japan Neuroscience Society 2018)
Genome stability by DNA polymerase β is required for epigenetic regulation of neuronal differentiation in the postnatal cortex and hippocampus
(S&B International Education Program 2018)
Genome stability by DNA polymerase β is required for neuronal differentiation in the postnatal cortex
(The 22nd biennial meeting of the International Society for Developmental Neuroscience 2018)