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2020.07.14
A review article summarizing the contribution Euglena genetic engineering technology to the SDGs by a joint team with RIKEN has been published.
By RIKEN and our joint research team (microalgae production control technology research team), Euglena and review for the genetic engineering technology, including high-efficiency genome editing technology, by leveraging their technology Euglena how industry is SDGs A review article has been published that introduces how we can contribute to. It is expected that the publication of this treatise Euglena research and lead to the activation of research and development in peripheral fields.
Click here for details (English treatise) -
2020.06.30
理化学研究所との合同チームによるユーグレナゲノム編集手法の詳細が公開されました
A paper explaining the detailed method of Euglena 's highly efficient genome editing technology developed by RIKEN and our joint research team (Microalgae Production Control Technology Research Team) has been published. This technology can be applied and used for genetic analysis and breeding at Euglena, and it is expected that the technology in peripheral fields will be promoted by disclosing the details.
Click here for details (English treatise)
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2020.06.18
ユーグレナGENKIプログラムよりバングラデシュ事務所レポートを更新しました
The activity report in May 2020 is a follow-up report on food support activities under the influence of the new coronavirus infection in Bangladesh, which was reported last time.
Please take a look.
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2020.06.02
President Izumo has been appointed Vice Chairman of the Board of Trustees of the Japan Business Federation.
Izumo, President and CEO of the Company, has been appointed as Vice Chairman of the Board of Trustees of the Japan Business Federation (Keidanren).
Through the activities of Keidanren, we will continue to draw out the vitality of companies and the individuals and regions that support them, and contribute to the autonomous development of the economy and the improvement of people's lives. -
2020.06.01
We have developed an ultra-high-speed preparative technology for droplet capsules for cell culture in collaboration with the University of Tokyo research group.
Professor Akihiro Isozaki and Professor Keisuke Goda of the Department of Chemistry, Graduate School of Science, the University of Tokyo have succeeded in developing an ultra-high-speed separation technology for microdroplets containing cells. The results of this research are expected to develop various applications such as the development of new medical technologies and the improvement of varieties of microorganisms that can be used industrially. In addition, we are involved in technological development in terms of demonstrating the application and application of the developed device to microalgae.