H
Hiroki R. Ueda
Researcher at University of Tokyo
Publications - 247
Citations - 21711
Hiroki R. Ueda is an academic researcher from University of Tokyo. The author has contributed to research in topics: Circadian clock & Circadian rhythm. The author has an hindex of 59, co-authored 211 publications receiving 18300 citations. Previous affiliations of Hiroki R. Ueda include Intec, Inc. & Osaka University.
Papers
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Posted ContentDOI
A hybrid open-top light-sheet microscope for multi-scale imaging of cleared tissues
Adam K. Glaser,Kevin Bishop,Lindsey A. Barner,Etsuo A. Susaki,Shimpei I. Kubota,Shimpei I. Kubota,Gan Gao,Robert Serafin,Pooja Balaram,Emily Turschak,Philip R. Nicovich,Hoyin Lai,Luciano A. G. Lucas,Yating Yi,Eva Nichols,Hongyi Huang,Nicholas P. Reder,Jasmine Wilson,Ramya Sivakumar,Elya Shamskhou,Caleb R. Stoltzfus,Xing Wei,Andrew K. Hempton,Marko Pende,Prayag Murawala,Hans Dodt,Hans Dodt,Takato Imaizumi,Jay Shendure,Brian J. Beliveau,Michael Y. Gerner,Li Xin,Hu Zhao,Lawrence D. True,R. Clay Reid,Jayaram Chandrashekar,Hiroki R. Ueda,Karel Svoboda,Jonathan T. C. Liu +38 more
TL;DR: In this article, a hybrid open-top light-sheet microscopy was proposed to image cleared tissues at mesoscopic to sub-micron resolution and depths of up to 1 cm.
Book ChapterDOI
Microarrays: statistical methods for circadian rhythms.
TL;DR: This chapter provides an overview of analytical methods applied to microarray experiments for the identification of genes with circadian expression.
Journal ArticleDOI
Manipulation of metal-insulator transition characteristics in aspect ratio-controlled VO2 micro-scale thin films on TiO2 (001) substrates
TL;DR: In this article, the authors manipulated the metal-insulator transition characteristics of VO2 thin films on TiO2 (001) substrates by changing their micro-scaled metallic domain configurations through size-and aspect ratio-control.
Journal ArticleDOI
Fast and slow Ca2+-dependent hyperpolarization mechanisms connect membrane potential and sleep homeostasis.
TL;DR: Possible Ca2-dependent hyperpolarization mechanisms in cortical neurons are introduced, in which Ca2+ signaling associated with neuronal excitation evokes kinase cascades, and the activated kinases modify ion channels or pumps to regulate the cortical sleep/wake firing mode.
Journal ArticleDOI
Electronic structure of A V 2 O 4 ( A = Li , Zn, and Cd) studied by x-ray photoemission spectroscopy
TL;DR: In this article, the authors studied the electronic structure of spinel-type V oxides using x-ray photo-emission spectroscopy and estimated the charge transfer energy from the valence-band spectra and the exchange interaction due to $d$-$d$ transfer.