| The role of glycine betaine in the protection of plants from stress: clues from transgenic plants A Sakamoto, N Murata Plant, Cell & Environment 25 (2), 163-171, 2002 | 729 | 2002 |
| Ionic and osmotic effects of NaCl-induced inactivation of photosystems I and II in Synechococcus sp. SI Allakhverdiev, A Sakamoto, Y Nishiyama, M Inaba, N Murata Plant Physiology 123 (3), 1047-1056, 2000 | 644 | 2000 |
| Genetic engineering of glycinebetaine synthesis in plants: current status and implications for enhancement of stress tolerance A Sakamoto, N Murata Journal of Experimental Botany 51 (342), 81-88, 2000 | 429 | 2000 |
| Metabolic engineering of rice leading to biosynthesis of glycinebetaine and tolerance to salt and cold A Sakamoto, Alia, N Murata Plant Moleular Biology 38 (6), 1011-1019, 1998 | 417 | 1998 |
| Transgenics of an elite indica rice variety Pusa Basmati 1 harbouring the codA gene are highly tolerant to salt stress A Mohanty, H Kathuria, A Ferjani, A Sakamoto, P Mohanty, N Murata, ... Theoretical and Applied Genetics 106 (1), 51-57, 2002 | 244 | 2002 |
| Genetic engineering of glycinebetaine synthesis in tomato protects seeds, plants, and flowers from chilling damage EJ Park, Z Jeknić, A Sakamoto, J DeNoma, R Yuwansiri, N Murata, ... The Plant Journal 40 (4), 474-487, 2004 | 243 | 2004 |
| Enhancement of the tolerance of Arabidopsis to high temperatures by genetic engineering of the synthesis of glycinebetaine H Hayashi, A Sakamoto, N Murata The Plant Journal 16 (2), 155-161, 1998 | 210 | 1998 |
| Arabidopsis glutathione‐dependent formaldehyde dehydrogenase is an S‐nitrosoglutathione reductase A Sakamoto, M Ueda, H Morikawa FEBS letters 515 (1-3), 20-24, 2002 | 194 | 2002 |
| Inactivation of photosystems I and II in response to osmotic stress in Synechococcus. Contribution of water channels SI Allakhverdiev, A Sakamoto, Y Nishiyama, N Murata Plant Physiology 122 (4), 1201-1208, 2000 | 170 | 2000 |
| The use of bacterial choline oxidase, a glycinebetaine-synthesizing enzyme, to create stress-resistant transgenic plants A Sakamoto, N Murata Plant Physiology 125 (1), 180-188, 2001 | 162 | 2001 |
| Paraquat tolerance of transgenic Nicotiana tabacum with enhanced activities of glutathione reductase and superoxide dismutase M Aono, H Saji, A Sakamoto, K Tanaka, N Kondo, K Tanaka Plant and Cell Physiology 36 (8), 1687-1691, 1995 | 158 | 1995 |
| Transformation of Arabidopsis with the codA gene for choline oxidase enhances freezing tolerance of plants A Sakamoto, R Valverde, THH Chen, N Murata The Plant Journal 22 (5), 449-453, 2000 | 151 | 2000 |
| Enhanced tolerance to light stress of transgenic Arabidopsis plants that express the codA gene for a bacterial choline oxidase Y Kondo, A Sakamoto, H Nonaka, H Hayashi, PP Saradhi, THH Chen, ... Plant Molecular Biology 40 (2), 279-288, 1999 | 127 | 1999 |
| Three cDNA sequences coding for glutamine synthetase polypeptides in Oryza sativa L. A Sakamoto, M Ogawa, T Masumura, S Daisuke, G Takeba, K Tanaka, ... Plant Molecular Biology 13 (5), 611-614, 1989 | 101 | 1989 |
| Three distinct Arabidopsis hemoglobins exhibit peroxidase-like activity and differentially mediate nitrite-dependent protein nitration A Sakamoto, S Sakurao, K Fukunaga, T Matsubara, M Ueda-Hashimoto, ... FEBS Letters 572 (1), 27-32, 2004 | 90 | 2004 |
| Functional Expression in Escherichia coli of Low-Affinity and High-Affinity Na+ (Li+)/H+ Antiporters of Synechocystis M Inaba, A Sakamoto, N Murata Journal of Bacteriology 183 (4), 1376-1384, 2001 | 87 | 2001 |
| Enhanced germination under high-salt conditions of seeds of transgenic Arabidopsis with a bacterial gene (codA) for choline oxidase H Hayashi, A Sakamoto, H Nonaka, THH Chen, N Murata Journal of Plant Research 111 (2), 357-362, 1998 | 87 | 1998 |
| Structure and differential response to abscisic acid of two promoters for the cytosolic copper/zinc‐superoxide dismutase genes, SodCcl and SodCc2, in rice protoplasts A Sakamoto, T Okumura, H Kaminaka, K Sumi, K Tanaka FEBS Letters 358 (1), 62-66, 1995 | 87 | 1995 |
| Transformation of Japanese persimmon (Diospyros kaki Thunb.) with a bacterial gene for choline oxidase M Gao, A Sakamoto, K Miura, N Murata, A Sugiura, R Tao Molecular Breeding 6 (5), 501-510, 2000 | 78 | 2000 |
| The purine metabolite allantoin enhances abiotic stress tolerance through synergistic activation of abscisic acid metabolism S Watanabe, M Matsumoto, Y Hakomori, H Takagi, H Shimada, ... Plant, Cell & Environment 37 (4), 1022-1036, 2014 | 72 | 2014 |
