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Coauthors
Tetsuro Mimura Department of Biology, Kobe University, Graduate School of Science, Japan
2 protocols

Miwa Ohnishi Department of Biology, Kobe University, Graduate School of Science, Japan
2 protocols

Yuko Kurita Faculty of Agriculture, Ryukoku University, Japan
2 protocols

Satomi Kanno
  • Department of Biology, Kobe University, Graduate School of Science, Japan
Contributions
  • 2 Author merit

Education

Ph.D. in Agriculture, Graduate School of Agricultural and Life Sciences, the University of Tokyo, 2010

Current position

Research Fellow of the Japan Society for the Promotion of Science

Publications

  1. Hirose, A., Yamawaki, M., Kanno, S., Igarashi, S., Sugita, R., Ohmae, Y., Tanoi, K. and Nakanishi, T. (2013). Development of a 14C detectable real-time radioisotope imaging system for plants under intermittent light environment. Journal of Radioanalytical and Nuclear Chemistry 296(1): 417-422.
  2. Kanno, S., Yamawaki, M., Ishibashi, H., Kobayashi, N. I., Hirose, A., Tanoi, K., Nussaume, L. and Nakanishi, T. M. (2012). Development of real-time radioisotope imaging systems for plant nutrient uptake studies. Philos Trans R Soc Lond B Biol Sci 367(1595): 1501-15082
  3. Kobayashi, N., Tanoi, K., Kanno, S., and Nakanishi, T. M. (2012). Analysis of the Iron Movement in the Root Tip Part Using Real-Time Imaging System. RADIOISOTOPES 61, pp. 121-128.
  4. Nussaume, L., Kanno, S., Javot, H., Marin, E., Pochon, N., Ayadi, A., Nakanishi, T. M. and Thibaud, M. C. (2011). Phosphate Import in Plants: Focus on the PHT1 Transporters. Front Plant Sci 2: 83.
  5. Yamawaki, M., Hirose, A., Kanno, S., Ishibashi, H., Noda, A., Tanoi, K. and Nakanishi, T. M. (2010). Evaluation of 109 Cd detection performance of a real-time RI imaging system for plant research.
  6. Kanno, S., Tanoi, K. and Nakanishi, T. M. (2009). Real-Time Imaging of 32P Translocation in Soybean Plants. RADIOISOTOPES vol.58, No.11, pp.743-747.
  7. Nakanishi, T. M., Yamawaki, M., Kanno, S., Nihei, N., Masuda, S. and Tanoi, K. (2009). Real-time imaging of ion uptake from root to above-ground part of the plant using conventional beta-ray emitters. JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY 282, pp. 265 - 269.
  8. Yamawaki, M.*, Kanno, S.*, Ishibashi, H., Noda, A., Hirose, A., Tanoi, K. and Nakanishi, T. (2009). The development of real-time RI imaging system for plant under light environment. Journal of radioanalytical and nuclear chemistry 282(1): 275-279.(*Co-first author)
  9. Rai, H., Kanno, S., Hayashi, Y., Nihei, N. and Nakanishi, T. M. (2008). Development of a fluorescent microscope combined with a real-time autoradiography system.
  10. Rai, H., Kanno, S., Hayashi, Y., Ohya, T., Nihei, N. and Nakanishi, T. M. (2008). Development of a real-time autoradiography system to analyze the movement of the compounds labeled with β-ray emitting nuclide in a living plant.
2 Protocols published
Autoradiography of Pi Distribution in Barley Seedlings
Authors:  Satomi Kanno, Yuko Kurita, Miwa Ohnishi and Tetsuro Mimura, date: 07/05/2014, view: 2958, Q&A: 0
Phosphorus-32 and Phosphorus-33 are radioisotopes of phosphorus. These isotopes are used to trace ionic phosphorus and phosphorus compounds. This protocol is used to follow the movement of inorganic phosphate (PO43-) from a ...
Extraction of Ions from Leaf Sections
Authors:  Yuko Kurita, Satomi Kanno, Miwa Ohnishi and Tetsuro Mimura, date: 07/05/2014, view: 2476, Q&A: 0
The concentration of ions in plant cells and tissues is an important factor to determine their functions and conditions. Here, we describe the method to extract ions from leaf sections for measurements with an ion chromatogram. This method is ...