Visualization of how light changes affect ion movement in rice plants using a real-time radioisotope imaging system

Sugita Ryohei; Kobayashi Natsuko I.; Hirose Atsushi; Iwata Ren; Suzuki Hisashi; Tanoi Keitaro; Nakanishi Tomoko M.

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Visualization of how light changes affect ion movement in rice plants using a real-time radioisotope imaging system

机译：使用实时放射性同位素成像系统，可视化光变化如何影响水稻植物中的离子运动

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We developed a real-time radioisotope imaging system (RRIS) technique that can nondestructively visualize the element absorption and transport process in plants, using not only positron emitters but also commercially available radioisotopes. In this study, we applied RRIS to analyze light effects on ion movement in rice plants. As tracers, Mg-28, P-32, and Ca-45 were used. During the first 5 h, dark/light cycle of 3/7 min were set up; the RRIS needs dark conditions during capturing. When the light was ceased 5 h after supplying each tracer, P-32 transport from root to shoot decreased immediately. In contrast, Mg-28 and Ca-45 transport did not change with light conditions. These results suggest that the P transport is dependent on water flow, whereas Mg and Ca transport are independent of water flow.

机译：我们开发了一种实时放射性同位素成像系统（RRIS）技术，可以不仅可以使用植物中的元素吸收和运输过程，不仅使用正电子发射器，而且可以使用商业上可获得的放射性同位素。在这项研究中，我们应用RRI分析水稻植物离子运动的光效应。作为示踪剂，使用Mg-28，p-32和Ca-45。在前5小时，设置3/7分钟的黑暗/光循环; rris在捕获过程中需要黑暗的条件。在供应每个示踪剂之后灯停止5小时，从根部到射击的P-32输送立即降低。相比之下，Mg-28和Ca-45输送不随着光条件而变化。这些结果表明，P传输取决于水流，而Mg和Ca传输与水流无关。

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来源
《Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry 》 |2017年第3期| 共7页
作者
Sugita Ryohei; Kobayashi Natsuko I.; Hirose Atsushi; Iwata Ren; Suzuki Hisashi; Tanoi Keitaro; Nakanishi Tomoko M.;
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作者单位

Univ Tokyo Grad Sch Agr &

Life Sci Bunkyo Ku 1-1-1 Yayoi Tokyo 1138657 Japan;

Univ Tokyo Grad Sch Agr &

Life Sci Bunkyo Ku 1-1-1 Yayoi Tokyo 1138657 Japan;

Univ Tokyo Grad Sch Agr &

Life Sci Bunkyo Ku 1-1-1 Yayoi Tokyo 1138657 Japan;

Tohoku Univ Cyclotron &

Radioisotope Ctr CYRIC Aoba Ku 6-3 Aoba Sendai Miyagi 9808578 Japan;

Natl Inst Radiol Sci Inage Ku 4-9-1 Anagawa Chiba Chiba 2638555 Japan;

Univ Tokyo Grad Sch Agr &

Life Sci Bunkyo Ku 1-1-1 Yayoi Tokyo 1138657 Japan;

Univ Tokyo Grad Sch Agr &

Life Sci Bunkyo Ku 1-1-1 Yayoi Tokyo 1138657 Japan;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学 ;
关键词
Mineral elements; Transport; Transpiration; Live imaging; Real-time radioisotope imaging system;

机译：矿物元素;运输;蒸腾;实时成像;实时放射性同位素成像系统;

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专利

1. Visualization of how light changes affect ion movement in rice plants using a real-time radioisotope imaging system [J] . Sugita Ryohei, Kobayashi Natsuko I., Hirose Atsushi, Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry . 2017 ,第3期

机译：使用实时放射性同位素成像系统，可视化光变化如何影响水稻植物中的离子运动
2. Development of a ~(14)C detectable real-time radioisotope imaging system for plants under intermittent light environment [J] . Hirose A., Yamawaki M., Kanno S., Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry . 2013 ,第1期

机译：间歇光环境下植物〜（14）C可检测的实时放射性同位素成像系统的开发
3. Visualization of Uptake of Mineral Elements and the Dynamics of Photosynthates in Arabidopsis by a Newly Developed Real-Time Radioisotope Imaging System (RRIS) [J] . Sugita Ryohei, Kobayashi Natsuko I., Hirose Atsushi, Plant and cell physiology . 2016 ,第4期

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4. Visualization of laser-induced fluorescence of plants influenced by environmental stress with a microfluorescence imaging system and a fluorescence imaging lidar system [C] . Yasunori Saito, Shinshu Univ., Nagano, Advances in Laser Remote Sensing for Terrestrial and Oceanographic Applications . 1997

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6. Visualization of Uptake of Mineral Elements and the Dynamics of Photosynthates in Arabidopsis by a Newly Developed Real-Time Radioisotope Imaging System (RRIS) [O] . Ryohei Sugita, Natsuko I. Kobayashi, Atsushi Hirose, -1

机译：通过新开发的实时放射性同位素成像系统（RRIS）可视化拟南芥中矿质元素的吸收和光合产物的动力学
7. What you can see by developing real-time radioisotope imaging system for plants: from water to element and CO2 gas imaging [O] . Tomoko M. Nakanishi 2018

机译：通过开发用于植物的实时放射性同位素成像系统，您可以看到的内容：从水到元件和CO2气体成像
8. Real-Time Visualization of Natural Gas Leakage Plumes by an Infrared LaserImaging System. Phase 1. Topical Report, September 1988-May 1990 [R] . McRae, T. G., Gelderd, J. B. 1990

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Visualization of how light changes affect ion movement in rice plants using a real-time radioisotope imaging system

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