DO THI HUONG
Updated:
Affiliation
Soil and Plant Multi-Dynamics Research Unit (Agriculture, forestry and fisheries)
Position
Researcher
Final Education
Graduate School of Life Science, Hokkaido University
Degree(s)
Research Keywords
Plant molecular biology, Environmental stresses, Abiotic stresses, Plant Adaptation, Plant Nutrition
Research Area
Plant signaling biology, Environmental stresses and Plant Adaptation, Plant Nutrition , Cell biology
External Link
Academic Affiliations
- The Japanese Society of Plant Physiologists (JSPP)
- The Japanese Society of Soil Science and Plant Nutrition (JSSSP)
- The Botanical Society of Japan (BSJ)
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Peer-Reviewed Papers
- AP2/ERF transcription factors regulate salt-induced chloroplast division in the moss Physcomitrella patens. Thi Huong Do, Prapaporn Pongthai, Menaka Ariyarathne, Ooi-Kock Teh & Tomomichi Fujita. Journal of Plant Research. Vol 133, page 537-548, 2020
- First contact with greater gravity: Moss plants adapted via enhanced photosynthesis mediated by AP2/ERF transcription factors. Yuko T. Hanba*†‡, Thi Huong Do†, Kaori Takemura, Sakihito Kitajima, Alisa Vyacheslavova,Miyu Takata, Marcel Pascal Beier, Maki Yokoi, Akihisa Shinozawa, Ayuko Maeda,Yutaro Yasui, Naoya Sakaguchi, Ryuji Kameishi, Rina Watanabe, Souma Okugawa, Ryota Ozaki, Seika Hirai, Hiroyuki Kamachi, Atsushi Kume, Ichirou Karahara, Yoichi Sakata, Yusuk Onoda, Tomomichi Fujita*‡. Science Advances. Vol 11, Isssue 29, 2025. †Equal contribution.
Awards
- Do, T.H., Pongthai, P., Yoshioka, Y., Teh, O.K., Takano, H., Fujita, T. (2019). AP2/ERF transcription factors regulate salt-induced chloroplast division in Physcomitrella patens. Cold Spring Harbor Asia Conference on Plant Cell and Development Biology, Gyeongju, South Korea.
- Do, T.H., Pongthai, P., Yoshioka, Y., Teh, O.K., Takano, H., Fujita, T. (2020). AP2/ERF transcription factors regulate salt-induced chloroplast division in Physcomitrella patens. The 61st Annual Meeting of the Japanese Society of Plant Physiologists, Osaka, Japan.
- Do, T.H., Takano, H., Fujita, T. (2025). PpARC6 mediates FtsZ-ring remodeling at the division site in Physcomitrium patens. The 67th Annual Meeting of the Japanese Society of Plant Physiologists, Tokyo, Japan.
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