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Oral Sessions
Day 3, June 24(Tue.) 14:55-15:10
Room C (Top of Yaima)
- 3C-O2-1455
Multi-omics measurement platform driving next-generation biomanufacturing
(1Kyushu Univ., 2NAIST, 3Waseda Univ., 4Niigata Univ., 5Yamaguchi Univ., 6Tokushima Univ.)
oYoshihiro Izumi1, Yuki Soma2, Masahito Hosokawa3, Atsushi Hatano4, Kazuki Ikeda1, Kosuke Hata1, Taihei Torigoe1, Masatomo Takahashi1, Masahiro Ando3, Shinsuke Uda5, Shinsuke Inuki6, Haruko Takeyama3, Masaki Matsumoto4, Takeshi Bamba1
Biomanufacturing using microorganisms and plants is one of the key strategies for transitioning to a sustainable society that enables carbon cycling, and it is an important field of research that is expected to solve social problems and achieve economic growth through the development of innovative elementary technologies and the coordination and integration of these technologies.
There is a growing expectation and interest in multi-omics analysis spanning multiple levels of the transcriptome, proteome, and metabolome in microbial and plant biotechnology research. However, obtaining multi-omics data is easier said than done, and it is not possible in an inefficient system that relies on individual research. In addition, the integration of biology and digital technology requires the use of high-quality omics data from a large number of samples with high quantitative accuracy, but currently there are no multi-omics data that meet these conditions. In this study, we report a high-precision, high-throughput multi-omics measurement technology to advance next-generation biomanufacturing research.