2003 - 2006 Molecular and physiological basis of Rubisco turnover and its relation to nitrogen nutrition
2002 - 2004 コムギ老化葉におけるRubiscoの膜小胞を介した葉緑体化への排出と分解
2000 - 2001 Molecular basis for decline of leaf function during senescence: Analysis of major determinants causing decline of the amount of Rubisco
2000 - 2001 コムギ葉における活性酸素を介した葉緑体タンパク質の分解とその分子機構
1999 - Molecular Mechanisms of Degradation of chloroplast proteins during leaf senescence
1999 - 1999 窒素転流と光合成機能に関わるRubisco分解の分子機構
1997 - 1999 Physiological and biochemical studies on leaf development and senescence : Degradation of Rubisco mediated by reactive oxygen species
1998 - 1998 コムギ葉緑体におけるRubisco分解の分子機構
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Papers (60):
Masanori Izumi, Sakuya Nakamura, Kohei Otomo, Hiroyuki Ishida, Jun Hidema, Tomomi Nemoto, Shinya Hagihara. Autophagosome development and chloroplast segmentation occur synchronously for piecemeal degradation of chloroplasts. 2023
Dong-Kyung Yoon, Mao Suganami, Keiki Ishiyama, Takaaki Kagawa, Marin Tanaka, Rina Nagao, Daisuke Takagi, Hiroyuki Ishida, Yuji Suzuki, Tadahiko Mae, et al. The gs3 allele from a large-grain rice cultivar, Akita 63, increases yield and improves nitrogen-use efficiency. Plant Direct. 2022. 6. 7
Marin Tanaka, Mamoru Keira, Dong-Kyung Yoon, Tadahiko Mae, Hiroyuki Ishida, Amane Makino, Keiki Ishiyama. Photosynthetic Enhancement, Lifespan Extension, and Leaf Area Enlargement in Flag Leaves Increased the Yield of Transgenic Rice Plants Overproducing Rubisco Under Sufficient N Fertilization. Rice (New York, N.Y.). 2022. 15. 1. 10-10
Mao Suganami, So Konno, Ryo Maruhashi, Daisuke Takagi, Youshi Tazoe, Shinya Wada, Hiroshi Yamamoto, Toshiharu Shikanai, Hiroyuki Ishida, Yuji Suzuki, et al. Flavodiiron protein rescues defects in electron transport around PSI due to overproduction of Rubisco activase in rice. Journal of experimental botany. 2022. 73. 8. 2589-2600
Hiroyuki Ishida, Yu Okashita, Hiromi Ishida, Makoto Hayashi, Masanori Izumi, Amane Makino, Nazmul H Bhuiyan, Klaas J Van Wijk. GFS9 affects piecemeal autophagy of plastids in young seedlings of Arabidopsis thaliana. Plant and Cell Physiology. 2021
Autophagy and nutrient recycling in plants
(Finnish-Japanese symposium 2016 2016)
Autophagy provides substrates to amino acid catabolic pathways as an adaptive response to sugar starvation in Arabidopsis
(The 17th International Congress on Photosynthesis Research 2016)
Autophagy of chloroplasts as an adaptive response to sugar starvation in Arabidopsis
(International Conference on Arabidopsis 2016)
Chloroplast autophagy as an adaptive response to sugar starvation in Arabidopsis
(Gordon Research conference ‘Mitochondria and Chloroplasts' 2016)