定例セミナー(木曜日 9:45-)
2017年度
18/3/8 | 今中 和樹 | 卒研発表 | |
18/2/15 | 磯田 珠奈子 | (発表練習) | |
中村 駿志 | (発表練習) | ||
18/2/8 | 小川 晃 | Journal | Adjustment of the Arabidopsis circadian oscillator by sugar signalling dictates the regulation of starch metabolism. Seki M. et al., Sci. Rep., 2017 |
中澤 詩風 | Journal | The REVEILLE Clock Genes Inhibit Growth of Juvenile and Adult Plants by Control of Cell Size Gray JA. et al., Plant physiol, 2017 |
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18/2/1 | 上野 賢也 | (修論発表練習) | |
小寺 雅司 | 卒研発表 | ||
18/1/25 | 岡田 全朗 | Journal | Photoreceptor effects on plant biomass, resource allocation, and metabolic state. Yang D. et al., PNAS, 2016 |
18/1/11 | 伊藤 照悟 | Journal | SPL3/4/5 Integrate Developmental Aging and Photoperiodic Signals into the FT-FD Module in Arabidopsis Flowering. Jung JH et al., Mol. plant, 2016 Control of chrysanthemum flowering through integration with an aging pathway. Wei Q. et al., Nat. com., 2017 |
17/12/21 | 小山 時隆 | Journal | Coordination of robust single cell rhythms in the Arabidopsis circadian clock via spatial waves of gene expression. Gould PD. et al., bioRxiv, 2017 |
17/12/14 | 今中 和樹 | Journal | Switching of metabolic programs in response to light availability is an essential function of the cyanobacterial circadian output pathway. Puszynska AM. et al., eLife, 2017 |
17/12/7 | 中村 駿志 | Progress | |
17/11/30 | 磯田 珠奈子 | Progress | |
17/11/16 | 中澤 詩風 | Progress | |
17/11/2 | 小川 晃 | Progress | |
17/10/26 | 上野 賢也 | Progress | |
17/10/19 | 岡田 全朗 | Progress | |
17/10/5 | 伊藤 照悟 | Journal | CYCLING DOF FACTOR 1 represses transcription through the TOPLESS co-repressor to control photoperiodic flowering in Arabidopsis. Goralogia GS. et al., Plant J., 2017 |
17/9/28 | 北山 七海 | Progress | |
小山 時隆 | Progress | ||
17/9/21 | 今中 和樹 | Progress | |
中澤 詩風 | Journal | Age-associated circadian period changes in Arabidopsis leaves Kim H. et al., J Exp. Bot., 2016 |
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17/9/7 | 中村 駿志 | Journal | Daily magnesium fluxes regulate cellular timekeeping and energy balance. Feeney K. et al., Nature, 2016 |
17/7/27 | 小川 晃 | Journal | Photosynthetic entrainment of the Arabidopsis circadian clock. Haydon MJ. et al., Nature, 2013 |
磯田 珠奈子 | Journal | GIGANTEA is a co-chaperone which facilitates maturation of ZEITLUPE in the Arabidopsis circadian clock Cha JY. et al., Nat. Com., 2017 |
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17/7/20 | 上野 賢也 | Journal | Stochastic properties of the plant circadian clock. Guerriero ML. et al., J R Soc Interface., 2011 |
17/7/13 | 伊藤 照悟 | Journal | Flower induction, microscope-aided cross-pollination, and seed production in the duckweed Lemna gibba with discovery of a male-sterile clone. Fu L. et al., Sci Rep., 2017 |
岡田 全朗 | Journal | Natural diversity in daily rhythms of gene expression contributes to phenotypic variation. Montaigu A. et al., PNAS, 2015 |
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17/7/6 | 小山 時隆 | Journal | Circadian clock adjustment to plant iron status depends on chloroplast and phytochrome function. Salome PA. et al., Cell, 2016 |
17/6/29 | 北山 七海 | Journal | Microbiota Diurnal Rhythmicity Programs Host Transcriptome Oscillations. Thaiss CA. et al., EMBO J, 2013 |
17/6/22 | 小沢 幸太郎 | Journal | KaiC intersubunit communication facilitates robustness of circadian rhythms in cyanobacteria. Kitayama Y. et al., Nat. Com., 2013 |
17/6/15 | 今中 和樹 | Journal | KaiB functions as an attenuator of KaiC phosphorylation in the cyanobacterial circadian clock system. Kitayama Y. et al., EMBO J, 2003 |
17/6/8 | 中澤 詩風 | Progress | |
17/6/1 | 中村 駿志 | Progress | |
17/5/18 | 磯田 珠奈子 | Progress | |
小川 晃 | Progress | ||
17/5/11 | 上野 賢也 | Progress | |
17/4/27 | 岡田 全朗 | Progress | |
17/4/20 | 伊藤 照悟 | Progress | |
中村 駿志 | 研究紹介 | ||
17/4/13 | 小山 時隆 | 安全講習 +係決め |
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小川 晃 | 研究紹介 | ||