Mitsuo Nagane, Yoshinori Oyama, Fuminobu Tamalu, Naofumi Miwa. Salivary cortisol as a marker for assessing the problem-focused coping style of stressed students during the first year of university-An experimental study. Health Science Reports. 2023. 6. 6. e1280
Tomoyuki Araki, Masaru Nagashima, Hajime Hirasawa, Fuminobu Tamalu, Yukiko Katagiri, Naofumi Miwa. Epigenome-wide association analysis of pancreatic exocrine cells from high-fat- and normal diet-fed mice and its potential use for understanding the oncogenesis of human pancreatic cancer. Biochemical and Biophysical Research Communications. 2022. 637. 50-57
Hiromasa Satoh, Fuminobu Tamalu, Narumi Hirosawa, Hajime Hirasawa, Mitsuo Nagane, Ryohei Saito, Shu-Ichi Watanabe, Naofumi Miwa. Positive effect of extending the course duration on dissemination of educational content. Medical Science Educator. 2022. 32. 641-648
Tadashi Yokoi, Taku Tanaka, Emiko Matsuzaka, Fuminobu Tamalu, Shu-Ichi Watanabe, Sachiko Nishina, Noriyuki Azuma. Effects of neuroactive agents on axonal growth and pathfinding of retinal ganglion cells generated from human stem cells. SCIENTIFIC REPORTS. 2017. 7. 16757
Takashi Kozuka, Taro Chaya, Fuminobu Tamalu, Mariko Shimada, Kayo Fujimaki-Aoba, Ryusuke Kuwahara, Shu-Ichi Watanabe, Takahisa Furukawa. The TRPM1 Channel Is Required for Development of the Rod ON Bipolar Cell-AII Amacrine Cell Pathway in the Retinal Circuit. JOURNAL OF NEUROSCIENCE. 2017. 37. 41. 9889-9900
Fuminobu Tamalu, Shu-Ichi Watanabe. Functional roles of TRPM1 channels in the synaptic transmission between rod bipolar and AII amacrine cells in the mouse retina. NEUROSCIENCE RESEARCH. 2011. 71. E256-E256
Fuminobu Tamalu, Yumiko Umino, Yuning Sun, Eduardo Solessio, Shu-Ichi Watanabe, Robert Barlow. Response of retinal rod bipolar cells in chronically hypoglycemic mice. NEUROSCIENCE RESEARCH. 2010. 68. E268-E268
Fuminobu Tamalu, Shu-Ichi Watanabe. A physiological role of gap junctions in firing properties of retinal All amacrine cells. NEUROSCIENCE RESEARCH. 2007. 58. S97-S97
Effect of gap junctions on the firing activities of retinal AII amacrine cells
(52nd Annual Meeting of Society for Neuroscience 2022 2022)
Rod bipolar cell degeneration in chronically hypoglycemic mouse retina
(国際神経化学-アジア太平洋神経化学学会 2022)
Synaptic degeneration in retinal rod bipolar cells is a cause of age-related loss in visual sensitivity in chronically hypoglycemic mice
(13th FENS Forum of Neuroscience 2022)
Extending the course duration facilitates dissemination of educational content
(39th IUPS Congress (IUPS2022) 2022)
2009 - 2010 Center for Vision Research, Department of Ophthalmology, The State University of New York (SUNY) Upstate Medical University, USA. Visiting Research Fellow
