G
Genki Kawamura
Researcher at University of Tokyo
Publications - 9
Citations - 188
Genki Kawamura is an academic researcher from University of Tokyo. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 5, co-authored 6 publications receiving 147 citations.
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Journal ArticleDOI
ROS stress resets circadian clocks to coordinate pro-survival signals.
Teruya Tamaru,Mitsuru Hattori,Yasuharu Ninomiya,Genki Kawamura,Guillaume Vares,Kousuke Honda,Durga Prasad Mishra,Bing Wang,Ivor J. Benjamin,Paolo Sassone-Corsi,Takeaki Ozawa,Ken Takamatsu +11 more
TL;DR: A reactive oxygen species (ROS), H2O2 -responsive circadian pathway in mammals is identified and likely plays fundamental protective roles in various ROS-inducible disorders, diseases, and death.
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A local level relationship between floods and poverty: A case in Myanmar
TL;DR: In this article, the authors investigated the relationship between floods and poverty at a household level and found that poor people tend to live in flood-prone areas, and that floods can cause and exacerbate poverty.
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In Situ Characterization of Bak Clusters Responsible for Cell Death Using Single Molecule Localization Microscopy
Yusuke Nasu,Alexander Benke,Satoko Arakawa,Go J. Yoshida,Genki Kawamura,Suliana Manley,Shigeomi Shimizu,Takeaki Ozawa +7 more
TL;DR: This work showed that Bak proteins form densely packed clusters at the nanoscale on mitochondria during apoptosis, andQuantitative analysis based on the localization of each Bak protein revealed that the density of Bak protein is uniform among clusters although the cluster size is highly heterogeneous.
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Cooperative interaction among BMAL1, HSF1, and p53 protects mammalian cells from UV stress.
Genki Kawamura,Mitsuru Hattori,Ken Takamatsu,Teruyo Tsukada,Yasuharu Ninomiya,Ivor J. Benjamin,Paolo Sassone-Corsi,Takeaki Ozawa,Teruya Tamaru +8 more
TL;DR: It is demonstrated that cells are protected against UV stress through cooperative interactions among circadian clock, heat shock response, and a tumor suppression mechanism.
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Confocal Bioluminescence Imaging for Living Tissues with a Caged Substrate of Luciferin
TL;DR: This confocal bioluminescence imaging system uses a luciferase caged substrate, with light passing through multipinhole arrays, causing biolumscence at a focal plane to acquire confocal images of multilayered cells with depth information, supporting quantitative analysis of spatial cellular localization in living tissues.