The World Premier International Research Center Initiative (WPI) for the Institute of Transformative Bio-Molecules (ITbM) at Nagoya University in Japan is committed to advance the integration of synthetic chemistry, plant/animal biology and theoretical science, all of which are traditionally strong fields in the university. As part of the Japanese science ministry’s MEXT program, ITbM aims to develop transformative bio-molecules, innovative functional molecules capable of bringing about fundamental change to biological science and technology. Research at ITbM is carried out in a “Mix-Lab” style, where international young researchers from multidisciplinary fields work together side-by-side in the same lab. Through these endeavors, ITbM will create “transformative bio-molecules” that will dramatically change the way of research in chemistry, biology and other related fields to solve urgent problems, such as environmental issues, food production and medical technology.
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A research group led by Associate Professor Masahito Murai of the Graduate School of Science and Professor Shigehiro Yamaguchi of the Functional Organic Materials Laboratory has successfully developed antiaromatic molecules ...
Analytical Chemistry
Nov 15, 2023
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In the midst of unprecedented climate change and population growth, the establishment of a method to rapidly create elite crop varieties via selective breeding is a matter of urgency to maintain the food supply. In order ...
Plants & Animals
Apr 24, 2020
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A team of scientists led by Kenichiro Itami, Professor and Director of the Institute of Transformative Bio-Molecules (WPI-ITbM), has developed a new method for the synthesis of three-dimensional nanocarbons with the potential ...
Nanomaterials
Jul 31, 2020
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Chemists at ITbM, Nagoya University have developed a super-photostable fluorescent dye called PhoxBright 430 (PB430) to visualize cellular ultra-structure by super-resolution microscopy. The exceptional photostability of ...
Optics & Photonics
Aug 18, 2017
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201
Scientists from Nagoya University have discovered a novel regulatory mechanism that controls the opening of stomata in plants, which is crucial for harnessing solar energy through photosynthesis. The team uncovered the role ...
Cell & Microbiology
Mar 26, 2024
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Obtaining structurally uniform nanocarbons in order to properly relate structure and function, ideally as single molecules, is a great challenge in the field of nanocarbon science. Thus, the construction of structurally uniform ...
Nanomaterials
May 19, 2022
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A team of scientists at Nagoya University has discovered new compounds that can control stomatal movements in plants. Some of the compounds have been shown to prevent leaves from drying up suppressed withering when sprayed ...
Biotechnology
Apr 10, 2018
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A group of researchers at Nagoya University, Japan, have developed a new method for quickly and efficiently synthesizing nanographenes, a type of nanocarbon with great potential as a next generation material.
Nanomaterials
Jun 28, 2021
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The development of new methods for the chemical synthesis of proteins is highly significant to access a range of proteins inaccessible by conventional approaches. Dr. Ivano Pusterla and Prof. Jeffery Bode of ETH-Zürich and ...
Biochemistry
Jun 24, 2015
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14
A molecular approach has been used to identify the protein responsible for germination of Striga seeds through visualization by green fluorescence. Striga, a parasitic plant known as witchweed has seriously affected millions ...
Biotechnology
Aug 21, 2015
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