定例セミナー(木曜日 9:45-)
2021年度
| 22/02/03 | 上野 稜平(オンライン) | M論 発表練習 |
| 22/01/27 | 中村 駿志(オンライン) | D論 発表練習 |
| 22/01/20 | 磯田 珠奈子(オンライン) | Journal |
| Duckweed roots are dispensable and are on a trajectory toward vestigiality Wells DM.et al., biorxiv, 2022 |
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| 22/01/13 | 伊藤 照悟(オンライン) | Journal |
| Functional domain studies uncover novel roles for the ZTL Kelch repeat domain in clock function Feke A.et al., PLoS One, 2021 |
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| 22/01/06 | 小山 時隆(オンライン) | Perspective |
| Long-distance plant signaling pathways in response to multiple stressors: the gap in knowledge Huber AE. and Bauerle TL, J. Exp. Bot., 2016 |
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| Multiscale integration of environmental stimuli in plant tropism produces complex behaviors Moulton DE.et al., PNAS., 2020 |
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| 多感覚統合の時空間特性 佐藤好幸, 研究報告音楽情報科学, 2017 |
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| 21/12/09 | 上野 稜平(オンライン) | Journal |
| Arabidopsis thaliana PRR7 Provides Circadian Input to the CCA1 Promoter in Shoots but not Roots Nimmo HG. and Laird J., Front. Plant Sci. , 2021 |
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| 21/12/01 | 中村 駿志(オンライン) | Progress |
| 21/11/25 | 磯田 珠奈子(オンライン) | Journal |
| Stress-induced factor involved in flower formation of Lemna is an alpha-ketol derivative of linolenic acid Yokoyama M.et al., Plant Cell Physiol., 2000 |
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| Flower-Inducing Activity of Water Extract of Lemna Takimoto A.et al., Plant Cell Physiol., 1989 |
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| Involvement of Norepinephrine in the Production of a Flower-Inducing Substance in the Water Extract of Lemna Takimoto A.et al., Plant Cell Physiol., 1991 |
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| Stress-induced factors involved in flower formation in Lemna Takimoto A.et al., Plant Cell Physiol., 1994 |
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| 21/11/18 | 伊藤 照悟(オンライン) | Journal |
| Bacterial Infection Disrupts Clock Gene Expression to Attenuate Immune Responses de Leone MJ.et al., Curr. Biol., 2020 |
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| 21/11/11 | 渡邊 絵美理(オンライン) | Progress |
| 21/11/04 | 小山 時隆(オンライン) | Journal |
| Widespread inter-individual gene expression variability in Arabidopsis thaliana Cortijo S.et al., Mol Syst Biol., 2019 |
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| 21/10/21 | 上野 稜平(オンライン) | Progress |
| 21/10/14 | 中村 駿志(オンライン) | Progress |
| 21/10/07 | 磯田 珠奈子(オンライン) | Progress |
| 21/09/30 | 伊藤 照悟(オンライン) | Journal |
| A metabolic daylength measurement system mediates winter photoperiodism in plants Liu W.et al., Dev. Cell, 2021 |
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| 21/09/16 | 小山 時隆(オンライン) | Journal |
| A circadian clock in a nonphotosynthetic prokaryote Eelderink-Chen Z.et al., Sci Adv., 2021 |
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| 21/09/09 | 北山 七海(オンライン) | Journal |
| Regulation of shoot branching in arabidopsis by trehalose 6-phosphate Fichtner F.et al., New Phytol., 2021 |
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| 21/07/15 | 上野 稜平(オンライン) | Journal |
| The sugar-responsive circadian clock regulator bZIP63 modulates plant growth Viana AJC.et al., New Phytol., 2021 |
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| 21/07/08 | 中村 駿志(オンライン) | Journal |
| Brassinosteroids Regulate Circadian Oscillation via the BES1/TPL-CCA1/LHY Module in Arabidopsis thaliana Lee HG.et al., iScience, 2020 |
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| 21/07/01 | 磯田 珠奈子(オンライン) | Journal |
| The plant cuticle regulates apoplastic transport of salicylic acid during systemic acquired resistance Lim GH.et al., Sci. Adv.., 2020 |
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| 21/06/24 | 伊藤 照悟(オンライン) | Journal |
| SDC mediates DNA methylation-controlled clock pace by interacting with ZTL in Arabidopsis Tian W.et al., Nucleic Acids Res., 2021 |
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| 21/06/17 | 小山 時隆(オンライン) | Conference reports (CSHL Symposium on Quantitative Biology) |
| 21/06/10 | 北山 七海(オンライン) | Journal |
| Indigenous Bacteria, an Excellent Reservoir of Functional Plant Growth Promoters for Enhancing Duckweed Biomass Yield on Site Khairina Y.et al., Chemosphere, 2021 |
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| 21/05/27 | 羅 秋嫻(オンライン) | Journal |
| Magnesium maintains the length of the circadian period in Arabidopsis de Melo JRF.et al., Plant physiol., 2021 |
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| 21/05/20 | 上野 稜平(オンライン) | Journal |
| A genome-wide microRNA screen identifies the microRNA-183/96/182 cluster as a modulator of circadian rhythms Zhou L.et al., PNAS, 2021 |
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| 21/05/06 | 中村 駿志(オンライン) | Progress |
| 21/04/22 | 磯田 珠奈子(オンライン) | Progress |
| 20/04/15 | 伊藤 照悟(オンライン) | Progress |
| 21/04/08 | 小山 時隆 | 係決め・安全講習 |