Mabashi-Asazuma Hideaki

マバシヒデアキ | Mabashi-Asazuma Hideaki

Affiliation and department：
Job title： Researcher
Homepage URL (2)： https://bitbiome.co.jp/ , https://bitbiome.bio/

Research field (1)： Applied molecular and cellular biology

Research keywords (6)： Enzyme engineering , Genome editing , Cell Engineering , Glycoengineering , baculovirus , insect cells

Research theme for competitive and other funds (3)：

2021 - 2025 筋内脂質に着目したサルコペニア発症機構の解明と新たな栄養食事療法の創出
2018 - 2021 Rapid large scale VLP vaccine production by genome edited insect cells
2018 - 2019 BacBomb: Targeting antibody drug delivery system using baculovirus

Papers (22)：

Hideaki Mabashi-Asazuma, Donald L. Jarvis. A new insect cell line engineered to produce recombinant glycoproteins with cleavable N-glycans. Journal of Biological Chemistry. 2021. 101454-101454
Motohiro Nonaka, Hideaki Mabashi-Asazuma, Donald L. Jarvis, Kazuhiko Yamasaki, Tomoya O. Akama, Masato Nagaoka, Toshio Sasai, Itsuko Kimura-Takagi, Yoichi Suwa, Takashi Yaegashi, et al. Development of an orally-administrable tumor vasculature-targeting therapeutic using annexin A1-binding D-peptides. PLOS ONE. 2021. 16. 1. e0241157
Miori Tanaka, Akari Sato, Yoshimi Kishimoto, Hideaki Mabashi-Asazuma, Kazuo Kondo, Kaoruko Iida. Gallic Acid Inhibits Lipid Accumulation via AMPK Pathway and Suppresses Apoptosis and Macrophage-Mediated Inflammation in Hepatocytes. Nutrients. 2020. 12. 5. 1479-1479
松本萌, 北村奏乃, ジャネ・エルランガ, 原奈摘, 坂本友里, 馬橋英章, 飯田薫子. 筋芽細胞C2C12におけるDaidzeinのERRαを介した脂質酸化促進作用の検討. 日本栄養・食糧学会大会講演要旨集. 2020. 74回. 232-232
Kanano Kitamura, Jane Surya Erlangga, Sakuka Tsukamoto, Yuri Sakamoto, Hideaki Mabashi-Asazuma, Kaoruko Iida. Daidzein promotes the expression of oxidative phosphorylation- and fatty acid oxidation-related genes via an estrogen-related receptor α pathway to decrease lipid accumulation in muscle cells. The Journal of Nutritional Biochemistry. 2020. 77. 108315-108315

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MISC (7)：

Hideaki Mabashi-Asazuma, Donald L. Jarvis. Knocking-out fdl gene in a baculovirus host insect cell line using new CRISPR-Cas9 tools for lepidopteran insect cell lines. GLYCOBIOLOGY. 2016. 26. 12. 1452-1452
Hideaki Mabashi-Asazuma, Chu-Wei Kuo, Kay-Hooi Khoo, Donald L. Jarvis. Modifying an insect cell N-glycan processing pathway using CRISPR-Cas9 technology. GLYCOBIOLOGY. 2015. 25. 11. 1273-1273
Donald Jarvis, Christoph Geisler, Ann Toth, Hideaki Mabashi-Asazuma. Manipulating glycan processing in the baculovirus-insect cell system for diverse biomedical applications. GLYCOBIOLOGY. 2014. 24. 11. 1102-1102
Donald Jarvis, Christoph Geisler, Hideaki Mabashi-Asazuma, Ann Toth. Biomedical engineering: An approach that can be effectively used not only to improve, but also to probe insect protein glycosylation pathways. GLYCOBIOLOGY. 2012. 22. 11. 1580-1581
Hideaki Mabashi-Asazuma, Christoph Geisler, Donald L. Jarvis. Identifying bottlenecks in efforts to glycoengineer insect cells for humanized Nglycan processing. GLYCOBIOLOGY. 2012. 22. 11. 1596-1596

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Professional career (1)：

Work history (5)：

2022/04 - 現在 bitBiome, Inc. Research and Development Department Researcher
2017/06 - 2022/03 Ochanomizu University
2013/10 - 2017/05 GlycoBac, LLC Research Consultant
2010/01 - 2017/05 University of Wyoming Department of Molecular Biology Postdoctoral Researcher
2008/04 - 2009/12 The University of Tokyo Graduate School of Agricultural and Life Sciences Postdoctoral Researcher

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