定例セミナー(木曜日 9:45-)
2023年度
| 鳥羽 重孝 | Journal | |
| Comprehensive modeling of mat density effect on duckweed (Lemna minor) growth under controlled eutrophication Monette F.et al., Water Res., 2006 | ||
| Intrinsic growth rate: A new approach to evaluate the effects of temperature, photoperiod and phosphorus–nitrogen concentrations on duckweed growth under controlled eutrophication Lasfar S.et al., Water Res., 2007 | ||
| Maximizing duckweed biomass production for food security at low light intensities: Experimental results and an enhanced predictive model Femeena PV.et al., Env. Challenges, 2023 | ||
| 堀川 湧、津田 祐伍 | 日本植物生理学会発表練習 | |
| 堀川 湧 | Journal | |
| The key clock component ZEITLUPE (ZTL) negatively regulates ABA signaling by degradation of CHLH in Arabidopsis Yu Y.et al., Front. Plant Sci., 2022 | ||
| 上野 稜平 | Journal | |
| Glucose-6-Phosphate Dehydrogenases: The Hidden Players of Plant Physiology Jiang Z. et al., Int. J. Mol. Sci. , 2022 | ||
| 相磯 豪志 | 修士論文発表練習 | |
| 伊藤 照悟 | Journal | |
| A transcriptional program underlying the circannual rhythms of gonadal development in medaka Nakayama T.et al., PNAS, 2023 | ||
| 小山 時隆 | Journal | |
| Evolutionary processes from the perspective of flowering time diversity Gaudinier A and Blackman BK., New Phytologist, 2020 | ||
| 奥村 悠樹 | Progress | |
| 津田 祐伍、鳥羽 重孝 | Progress | |
| 堀川 湧 | Progress | |
| 相磯 豪志 | Progress | |
| 羅 迪 | Journal | |
| OsTOC1 plays dual roles in the regulation of plant circadian clock by functioning as a direct transcription activator or repressor Li J. et al., Cell Rep, 2023 | ||
| 伊藤 照悟 | Journal | |
| Clock-regulated coactivators selectively control gene expression in response to different temperature stress conditions in Arabidopsis Kidokoro S. et al., PNAS, 2023 | ||
| 上野 稜平 | Journal | |
| Inhibition of RNA degradation integrates the metabolic signals induced by osmotic stress into the Arabidopsis circadian systems Prasetyaningrum P. et al., J Exp Bot., 2023 | ||
| 津田 祐伍、鳥羽 重孝 | Journal | |
| Isolation of Aquatic Plant Growth-Promoting Bacteria for the Floating Plant Duckweed (Lemna minor) Makino A.et al., Microorganisms, 2022 | ||
| Widespread inter-individual gene expression variability in Arabidopsis thaliana Cortijo S.et al., Mol Syst Biol., 2019 | ||
| 奥村 悠樹 | Journal | |
| Flowering and Seed Production across the Lemnaceae Fourounjian P.et al., BMC Biol., 2021 | ||
| 小山 時隆、上野 稜平 | Research vision、時間生物学会発表練習 | |
| 羅 迪 | Progress | |
| 堀川 湧 | Journal | |
| A molecular link between autophagy and circadian rhythm in plants Chen W.et al., J Integr Plant Biol, 2022 | ||
| 相磯 豪志 | Journal | |
| Circadian redox rhythm gates immune-induced cell death distinctly from the genetic clock Karapetyan S.et al., BioRxiv, 2023 | ||
| 上野 稜平 | Journal | |
| Twilight length alters growth, flowering time, and clock function in Arabidopsis via LHY/CCA1 Metha D.et al., BioRxiv, 2023 | ||
| 伊藤 照悟 | Progress | |
| 小山 時隆 | ICAR 2023報告 | |
| 奥村 悠樹、津田 祐伍 | Progress(卒論テーマ) | |
| 井上 賢登、鳥羽 重孝 | Progress(卒論テーマ) | |
| 堀川 湧 | Progress | |
| 相磯 豪志 | Progress | |
| 上野 稜平 | Progress | |
| 伊藤 照悟 | Journal | |
| The amino acid residue E96 of Ghd8 is crucial for the formation of the flowering repression complex Ghd7-Ghd8-OsHAP5C in rice Li S.et al., J Integr Plant Biol., 2023 | ||
| 小山 時隆 | Progress・係決め・安全講習 | |