Takuya Kitaoka
Nagoya University
5 Papers
1 Citations
Takuya Kitaoka is an academic researcher from Nagoya University. The author has contributed to research in topics: Deepwater rice & Photosynthetic efficiency. The author has an hindex of 4, co-authored 5 publications.
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Papers
Ethylene-gibberellin signaling underlies adaptation of rice to periodic flooding
Takeshi Kuroha,Keisuke Nagai,Rico Gamuyao,Diane R. Wang,Tomoyuki Furuta,Masanari Nakamori,Takuya Kitaoka,Keita Adachi,Anzu Minami,Yoshinao Mori,Kiyoshi Mashiguchi,Yoshiya Seto,Shinjiro Yamaguchi,Mikiko Kojima,Hitoshi Sakakibara,Jianzhong Wu,Kaworu Ebana,Nobutaka Mitsuda,Masaru Ohme-Takagi,Masaru Ohme-Takagi,Shuichi Yanagisawa,Masanori Yamasaki,Ryusuke Yokoyama,Kazuhiko Nishitani,Toshihiro Mochizuki,Gen Tamiya,Susan R. McCouch,Motoyuki Ashikari +27 more
TL;DR: The gibberellin biosynthesis gene, SD1 (SEMIDWARF1), whose loss-of-function allele catapulted the rice Green Revolution, is identified as being responsible for submergence-induced internode elongation.
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Gibberellin biosynthesis and signal transduction is essential for internode elongation in deepwater rice.
Madoka Ayano,Takahiro Kani,Mikiko Kojima,Hitoshi Sakakibara,Takuya Kitaoka,Takeshi Kuroha,Rosalyn B. Angeles-Shim,Hidemi Kitano,Keisuke Nagai,Motoyuki Ashikari +9 more
TL;DR: Using both physiological and genetic approach, this paper shows that the plant hormone, gibberellin (GA) regulates internode elongation in deepwater rice.
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QTL analysis of internode elongation in response to gibberellin in deepwater rice
Keisuke Nagai,Yuma Kondo,Takuya Kitaoka,Tomonori Noda,Takeshi Kuroha,Rosalyn B. Angeles-Shim,Hideshi Yasui,Atsushi Yoshimura,Motoyuki Ashikari +8 more
TL;DR: It is concluded that deepwater rice could induce internode elongation in response to GA by factors in these regions, and identified the chromosomal regions that regulate GA responsiveness indeepwater rice.
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SPECIAL ISSUE: Plant Responses to Low-Oxygen Environments
Keisuke Nagai,Yuma Kondo,Takuya Kitaoka,Tomonori Noda,Takeshi Kuroha,Rosalyn B. Angeles-Shim,Hideshi Yasui,Atsushi Yoshimura,Motoyuki Ashikari +8 more
- 01 Jan 2014
TL;DR: An overview of the articles is provided, with attempts to summarize how recent research results are being used to produce varieties of crop plants with greater flooding tolerance, notably in rice, and the large gains that could be made by combining SF with tolerance to transient complete submergence ( SUB1 type).
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Overexpression of BUNDLE SHEATH DEFECTIVE 2 improves the efficiency of photosynthesis and growth in Arabidopsis.
Florian A. Busch,Jun Tominaga,Masato Muroya,Norihiko Shirakami,Shunichi Takahashi,Wataru Yamori,Takuya Kitaoka,Sara E. Milward,Kohji Nishimura,Erika Matsunami,Yosuke Toda,Chikako Higuchi,Atsuko Muranaka,Tsuneaki Takami,Shunsuke Watanabe,Toshinori Kinoshita,Wataru Sakamoto,Atsushi Sakamoto,Hiroshi Shimada +18 more
TL;DR: The results demonstrated that the overexpression of BSD2 improves photosynthetic efficiency in Arabidopsis and it is concluded that it is involved in mediating RuBisCO activation.