旭硝子財団助成研究成果報告2019

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旭硝子財団　助成研究成果報告（2019）36KentaroDOI37YusukeOHBASayakaTAKEMOTO-KIMURA3839YoshihiroYAMAGUCHI40KojiHASE41YuMATSUDA42KousukeHANADA43MasatoshiMAEKI44ShigeyukiNAMIKI45AkihiroNARITA46MasanariNAGASAKA14Department of Mechanical Science and Bioengineering, Graduate School of Engineer-ing Science, Osaka UniversityDepartment of Cell Physiology, Faculty of Medicine and Graduate School of Medicine, Hokkaido UniversityDepartment of Neuroscience I, Research Institute of Environ-mental Medicine,Nagoya UniversityThe OCU Advanced Research Institute for Natural Science and Technology,Osaka City UniversityFaculty of Pharmacy,Keio UniversityDepartment of Modern Mechanical Engineering,Waseda UniversityDepartment of Bioscience and Bioinformatics,Kyushu Institute of TechnologyDivision of Applied Chemistry, Hokkaido UniversityGraduate School of Medicine, The University of TokyoStructural biology research center, Graduate School of Science, Nagoya UniversityDepartment of Photo-Molecu-lar Science,Institute for Molecular ScienceCreation and Induction of Monopolar Ion Solutions to Achieve High-Speed Signal Transmission (Project 2017)Associate ProfessorDynamics analysis of the interface of interaction between influenza virus and host cells by a hybrid system compris-ing of atomic force and fluorescence microscopy (Project 2017)Molecular and neuronal basis for regulation of social behavior induced by conspecific interaction(Project 2017)Interaction between HipA, YjjJ and HipB regulating cell dormancy and re-growth in bacteria(Project 2017)Establishment of intestnal symbiosis through host-microbe interaction (Project 2017)Nano-scale measurement and thermo-physical property of polymers in super-cooled melt using single-mole-cule tracking assisted by statistical machine learning (Project 2017)Functional analyses of novel small coding genes hidden in plant genome throughout both informatic analysis of big genomics data and experimental analysis of molecular biology(Project 2017)Development of protein 3D structure analysis method using microarray devices (Project 2017)Development of novel superresolution microscopy technique based on antibody chemistry and organic chemistry (Project 2017)Development of structural biology on the cell membrane by using a new correlative microscope based on atomic force and fluorescence(Project 2017)Local structural changes of electric double layers revealed by in operando soft X-ray absorption spectroscopy (Project 2017)ProfessorProfessorSpecially Appointed Associate ProfessorProfessorAssociate ProfessorAssociate ProfessorAssistant ProfessorLecturerAssociate ProfessorAssistant Professor