Past Gakuyugo Seminar |

AY2018 8th Gakuyugo Seminar

Date&Time:
Jan 30, 2019 16:50 - 18:35
Venue:
Large Lecture Room (2C0), New Frontier Science Bldg.
Associate Professor Daimei Oyama

Next-generation proteomics research created by the fusion of analytical and informatics sciences

Associate Professor Daimei Oyama

Recently, with the advent of shotgun proteome analysis technology combining ultra-low flow liquid chromatography and high-precision mass spectrometry, it has become possible to comprehensively identify and quantify a small group of disease-related proteins in cells. In this seminar, we will focus on our research on oncogenic signaling involving epidermal growth factor (EGF) receptors, introduce the methodology for informatics analysis of intracellular signaling dynamics, and look at the new possibilities of proteomics research for elucidating disease control mechanisms at the system level. We will also discuss the new possibilities of proteomics research to elucidate the mechanisms of disease control at the systems level.

Associate Professor Toshinori Tanaka

Environmental Policy, Sustainability and Governance

Associate Professor Toshinori Tanaka

Originally, the role of government was very limited: "security, diplomacy, and justice. With the background of absolute monarchy, industrialization, two world wars, democracy, and the welfare state, the size and role of government continued to expand. On the other hand, the "role of government" has been changing rapidly since the end of the 20th century against the backdrop of new phenomena such as environmental problems, aging societies, and the advance of globalization. We would like to think together about how the role of government will change in the future, and about governance in the 21st century from the perspective of environmental policy and sustainability.

Professor Tsuyoshi Kimura

Connecting electricity and magnetism by breaking symmetry in matter

Professor Tsuyoshi Kimura

These materials are called ferromagnets, ferroelectrics, and ferroelastic materials, and are widely used in electronic devices as functional materials. It is widely used in electronic devices as a functional material. In recent years, the study of multiferroics has progressed rapidly. For example, ferroelectricity induced by magnetic ordering, magneto-electric effect and directional dichroism have been reported one after another in various compounds containing magnetic transition metal ions. In this seminar, we will introduce the recent progress in the development of properties and materials related to multiferroics and the electro-magnetic effect, as well as recent efforts by our group.

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