Recent Progress of Life Science Technology in Japan

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In its capacity as an innovative university, the University of Tsukuba intends to constantly meet new challenges so as to contribute to the wellbeing of its region and regional society, Japan and its citizens, and above all the world and humanity as a whole.

The purpose of the Tsukuba Conference is to bring together young global leaders in the field of science, technology and innovation from all over the world, beyond all borders, be it national, professional, disciplinary or institutional, to facilitate the discussions and information sharing among them, to provide them with precious opportunities to express their visions of the future to the global society and meet their potential partners for solving a diverse range of social issues. I look forward to meeting you soon in our campus and starting working together to organize this renowned event.

With over years of history including three Nobel prizes and over Olympic medals, the University of Tsukuba has a long and distinguished tradition of excellence. Located less than an hour from central Tokyo, at the heart of Tsukuba Science City—Japan's premier science and technology research hub—the university offers a pleasant and green environment for faculty, staff and students to engage in cutting-edge academic research and training.

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In , the university was relocated from Tokyo to Tsukuba, and re-established with the aim of being a global institution open to all—both within and outside Japan. We aim to develop integrative approaches to research and education, which allow our graduates to be active in solving future challenges. The University of Tsukuba is consistently ranked in Japan's top 10 universities.

The university has made it its goal to develop an organization better suiting the functions and administration with a new concept of education and research highly international in character, rich in diversity and flexibility and capable of dealing sensitively with the changes occurring in contemporary society. The World Cultural Council is an international organization based in Mexico.

Founded in the early eighties, it seeks to promote culture, goodwill and philanthropy among individuals. Since the WCC has held a yearly Award Ceremony granting prizes to outstanding scientists, educators and artists whose breakthroughs in the fields of knowledge, learning and research have contributed positively to the cultural enrichment of mankind. Each ceremony is held in a different country with a renowned university or academic institute acting as host.

The WCC and Tsukuba University are enthusiastic about this new partnership, which provides the opportunity to disseminate our many shared values, especially that of contributing to the progress of science and culture. Bringing together global leaders in the field of science, technology and innovation, the conference will engender opportunities for these to express their visions of the future and to meet potential partners for solving a diverse range of social issues.

Conference Starts In

The laureate is selected by the Council's Interdisciplinary Committee, composed of highly acknowledged scientists from across the globe. The prize is awarded for Dr. Wang's pioneering and seminal contributions to the discovery, innovation and implementation of nanogenerators and self-powered systems. These innovations enable unprecedented new technologies for harvesting energy from the environment and biological systems, with applications in personal electronics, sensor networks, biomedical and healthcare devices, and environmental monitoring.

The jury also acknowledged the significant impact of his discoveries and breakthroughs, which have already inspired worldwide efforts in academia and industry towards a wide range of technological applications that will be of great benefit to humankind and the sustainable development of our society. Zhong Lin Wang received his Ph. Throughout his career, he has made seminal and pioneering contributions to developing new energy and sensor technology that are expected to change the world in the near future.

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He is best known for the discovery and development of nanogenerators for self-powered systems and large-scale blue energy, an unprecedented technology for harvesting energy from the environment and biological systems, for applications in personal electronics, internet of things, biomedical devices, environmental monitoring and robotics. His innovations also provide a revolutionary approach for obtaining large-scale energy from daily life non-polluting sources with potential to harvest huge amounts of energy from ocean waves, aimed at solving the future energy needs of the world.

Wang's discovery and breakthroughs in developing nanogenerators have established the principle and technological road map for using mechanical energy for powering mobile sensors. He first showed that the nanogenerator originated from the Maxwell's displacement current and revived the applications of Maxwell's equations in energy and sensors. His recent understanding on the physics of triboelectrification solves a 2, year old science problem and establishes the foundation for triboelectric nanogenerators. His research on self-powered nanosystems has inspired the worldwide efforts in academia and industry for harvesting ambient energy for micro-nanosystems, which is now a distinct discipline in energy science — nano energy.

Nanogenerators have the potential to revolutionize every corner of our life, ranging from the internet of things, to human-machine interfacing for robotics and artificial intelligence, implantable medical devices, health care, self-powered sensors for infrastructure monitoring and even environmental protection. It is remarkable that his discoveries and inventions originate from innovative and creative unprecedented fundamental studies based on basic physical properties of materials and long-known theories, such as piezoelectricity and triboelectricity.

Wang has already published a remarkable number of peer reviewed papers 1, including 55 in Nature, Science and sister journals, and has an enormous impact on the nanotechnology community as measured by the number of citations over , and has an H-index of , according to Google Scholar, June In addition to being a chair professor at Georgia Institute of Technology, he is also the director of Beijing Institute of Nanoenergy and Nanosystems.

Finally, Dr.

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Wang's personal qualities should not be overlooked. He has been described as a "natural leader, always very kind, inspiring, full of energy, with a positive impact on everyone collaborating with him. Maintenace of ER homeostasis: Crosstalks of redox regulation with calcium regulatiojn and protein quality control in the ER. Structural life science for unveiling membrane dynamics during autophagy.

Research Director: Nobuo N. Structural studies of the proteins working in novel cell membrane potential signal. Asymmetrical distribution of phospholipids at plasma membranes, and its breakdown. Research Director: Miyo T. Page Top. News Brochure. Site Map Privacy Policy Japanese.

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At the panel discussion, we will exchange ideas about how to promote industrial application of human microbiome research within Asia by leveraging cross-border collaborations. The Lifelines cohort study: building a 10K Metagenomics project in healthy volunteers. Introduction of Asian Microbiome Project: Comparative gut microbiome study within and across countries.

Introduction of Japan Microbiome Consortium aiming industrial application in Japan. AI has already been introduced in various industrial fields. However, the introduction of AI into the development and manufacturing process of biopharmaceuticals was delayed in efforts not only in Japan but also globally.

International Journal of Recent Advances in Science and Technology

In the field of biopharmaceuticals, AI hardly penetrated due to several reasons, such as using unstable animal cells as production cells or producing by batch method. Recently, following low molecular drugs, continuous production methods have been discussed even in biopharmaceuticals, and technological development has been actively carried out. In this process, elemental technologies such as new manufacturing materials and equipment, development of sensors for process monitoring, process analysis technology, process automation are being developed globally.

Then, by introducing AI to process management, there has been a move to construct a highly productive production process by collecting all data on the process, analyzing it comprehensively, and controlling the process.

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In this session, we will give lectures on relevant contents from the viewpoint of university and industry to engage in the development and manufacture of biopharmaceuticals. We will discuss how AI should be introduced in the manufacture of biopharmaceuticals, and at the same time explore why AI introduction is delayed in the development and manufacture of biopharmaceuticals in Japan. Automation and future applications for improvement of biopharmaceutical manufacturing through measurement, computation and control. Japan and Germany are two of the world's major pharmaceutical markets, with both countries advancing to become global heavyweights in the medical biotechnology industry.

Cooperation between the two can achieve potential synergy effects that allow their respective biotech and pharmaceutical economies to become more dynamic, innovative and competitive. Major companies e. Bayer and Boehringer Ingelheim , highly innovative German SMEs and start-ups as well as German representatives from biotech clusters and governmental agencies will be on hand to present available cooperation and partnership opportunities and discuss shared solutions.

Head, Dept. Recent advancement of measurement instrument and handling and analysis of massive data flow brings revolution of personalized and precision medicine. Traditionally, medicine relies of perception of health condition and accumulation of empirical knowledge. At most standard therapy based on limited test results was the limit.

Now massive data acquisition, at molecular level DNA, RNA protein and metabolite , at imaging level pathology, various imaging technology and behavior pattern level food, exercise, sleep is progressing. How can we integrate traditional empirical knowledge by experts i. Ohta , AI based cancer treatment Dr, Nishimura and drug development based onintegration of multi-omics data Dr.

About Conference

All presentators will be young and top level active scientist from various field and countries. Associate Professor Networked biophotonics and microfluidics group Research center for advanced science and technology, the University of Tokyo. New Trend in Therapeutics Research - Artificial Intelligence for identifying novel therapeutic targets, biomarkers and drug repositioning opportunities. Decades of advanced knowhow, academically-trained and entrepreneurial people, and continuous innovation: these are the main ingredients that have made Flanders, the northern region of Belgium, a world leader in life sciences.

More than life sciences companies are working closely with universities, research institutes and hospitals. They form a mature and unique life sciences cluster in the heart of Europe.