Hitoshi Sakano
Affiliations: | The University of Tokyo, Bunkyō-ku, Tōkyō-to, Japan |
Area:
OlfactionWebsite:
http://www.adm.u-tokyo.ac.jp/IRS/IntroPage_E/intro69429384_e.htmlGoogle:
"Hitoshi Sakano"Mean distance: 13.54 (cluster 11) | S | N | B | C | P |
Children
Sign in to add traineeKei M. Igarashi | research assistant | University of Tokyo | |
Satoru K. Miura | research assistant | University of Tokyo | |
Hidehiko K. Inagaki | research assistant | 2006-2007 | University of Tokyo |
Hideaki E. Kato | research assistant | 2008-2009 | University of Tokyo (Chemistry Tree) |
Kasumi Inokuchi | grad student | University of Tokyo | |
Ko Kobayakawa | grad student | University of Tokyo | |
Kazunari Miyamichi | grad student | University of Tokyo | |
Miho Nakajima | grad student | University of Tokyo | |
Shou Serizawa | grad student | University of Tokyo | |
Takaaki Miyazaki | grad student | 2002-2005 | University of Tokyo |
Takaaki Miyazaki | grad student | 2002-2005 | University of Tokyo |
Yuya Yamagishi | grad student | 2005-2006 | |
Toshinobu Nishimura | grad student | 2006-2007 | University of Tokyo (Stem Cell Tree) |
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Publications
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Mori K, Sakano H. (2024) Circuit formation and sensory perception in the mouse olfactory system. Frontiers in Neural Circuits. 18: 1342576 |
Mori K, Sakano H. (2022) Neural Circuitry for Stress Information of Environmental and Internal Odor Worlds. Frontiers in Behavioral Neuroscience. 16: 943647 |
Mori K, Sakano H. (2022) Processing of Odor Information During the Respiratory Cycle in Mice. Frontiers in Neural Circuits. 16: 861800 |
Inoue N, Nishizumi H, Ooyama R, et al. (2021) The olfactory critical period is determined by activity-dependent Sema7A/PlxnC1 signaling within glomeruli. Elife. 10 |
Mori K, Sakano H. (2020) Olfactory Circuitry and Behavioral Decisions. Annual Review of Physiology |
Sakano H. (2020) Developmental regulation of olfactory circuit formation in mice. Development, Growth & Differentiation |
Nishizumi H, Miyashita A, Inoue N, et al. (2019) Primary dendrites of mitral cells synapse unto neighboring glomeruli independent of their odorant receptor identity. Communications Biology. 2: 14 |
Nishizumi H, Sakano H. (2019) Agonist-independent GPCR activity and receptor-instructed axonal projection in the mouse olfactory system. Future Medicinal Chemistry. 11: 3091-3096 |
Inoue N, Nishizumi H, Naritsuka H, et al. (2019) Author Correction: Sema7A/PlxnCl signaling triggers activity-dependent olfactory synapse formation. Nature Communications. 10: 3036 |
Nishizumi H, Miyashita A, Inoue N, et al. (2019) Primary dendrites of mitral cells synapse unto neighboring glomeruli independent of their odorant receptor identity. Communications Biology. 2: 14 |