Shigeto Morita1,2, Yuki Yamashita3, Masayoshi Fujiki3, Rie Todaka3, Yuri Nishikawa3, Ayaka Hosoki3,4, Chisato Yabe3, Jun'ichi Nakamura3, Kazuyoshi Kawamura3, I Nengah Suwastika5,6,7, Masa H Sato5, Takehiro Masumura3,8, Yasunari Ogihara9, Kunisuke Tanaka3, Shigeru Satoh3,8,10. 1. Laboratory of Genetic Engineering, Graduate School of Life and Environmental Sciences, Kyoto Prefectural University, Sakyo, Kyoto, 606-8522, Japan. s_morita@kpu.ac.jp. 2. Biotechnology Research Department, Kyoto Prefectural Agriculture, Forestry and Fisheries Technology Center, Seika, Soraku, Kyoto, 619-0244, Japan. s_morita@kpu.ac.jp. 3. Laboratory of Genetic Engineering, Graduate School of Life and Environmental Sciences, Kyoto Prefectural University, Sakyo, Kyoto, 606-8522, Japan. 4. Radiation Effect Accumulation and Prevention Project, Fukushima Project Headquarters, National Institute of Radiological Sciences, Anagawa, Inage, Chiba, 263-8555, Japan. 5. Laboratory of Plant Molecular Biology, Graduate School of Life and Environmental Sciences, Kyoto Prefectural University, Sakyo, Kyoto, 606-8522, Japan. 6. Graduate School of Biostudies, Kyoto University, Kyoto, Sakyo, 606-8501, Japan. 7. Agricultural Faculty, Tadulako University, Palu, 94118, Indonesia. 8. Biotechnology Research Department, Kyoto Prefectural Agriculture, Forestry and Fisheries Technology Center, Seika, Soraku, Kyoto, 619-0244, Japan. 9. Kihara Institute for Biological Research, Yokohama City University, Totsuka, Yokohama, 244-0813, Japan. 10. Faculty of Agriculture, Ryukoku University, Seta, Otsu, 520-2194, Japan.
Abstract
MAIN CONCLUSION: A rice glutaredoxin isoform (OsGrxC2;2) with antioxidant capacity is expressed abundantly in seed tissues and is localized to storage vacuoles in aleurone layers in developing and mature seeds. Seed tissues undergo drastic water loss at the late stage of seed development, and thus need to tolerate oxidative injuries associated with desiccation. We previously found a rice glutaredoxin isoform, OsGrxC2;2, as a gene expressed abundantly in developing seeds. Since glutaredoxin is involved in antioxidant defense, in the present study we investigated the subcellular localization and expression profile of OsGrxC2;2 and whether OsGrxC2;2 has a role in the defense against reactive oxygen species. Western blotting and immunohistochemistry revealed that the OsGrxC2;2 protein accumulated at a high level in the embryo and aleurone layers of developing and mature seeds. The OsGrxC2;2 in developing seeds was particularly localized to aleurone grains, which are storage organelles derived from vacuoles. Overexpression of OsGrxC2;2 resulted in an enhanced tolerance to menadione in yeast and methyl viologen in green leaves of transgenic rice plants. These results suggest that OsGrxC2;2 participates in the defense against oxidative stress in developing and mature seeds.
MAIN CONCLUSION: A rice glutaredoxin isoform (OsGrxC2;2) with antioxidant capacity is expressed abundantly in seed tissues and is localized to storage vacuoles in aleurone layers in developing and mature seeds. Seed tissues undergo drastic water loss at the late stage of seed development, and thus need to tolerate oxidative injuries associated with desiccation. We previously found a rice glutaredoxin isoform, OsGrxC2;2, as a gene expressed abundantly in developing seeds. Since glutaredoxin is involved in antioxidant defense, in the present study we investigated the subcellular localization and expression profile of OsGrxC2;2 and whether OsGrxC2;2 has a role in the defense against reactive oxygen species. Western blotting and immunohistochemistry revealed that the OsGrxC2;2 protein accumulated at a high level in the embryo and aleurone layers of developing and mature seeds. The OsGrxC2;2 in developing seeds was particularly localized to aleurone grains, which are storage organelles derived from vacuoles. Overexpression of OsGrxC2;2 resulted in an enhanced tolerance to menadione in yeast and methyl viologen in green leaves of transgenic rice plants. These results suggest that OsGrxC2;2 participates in the defense against oxidative stress in developing and mature seeds.
Authors: Kyun Oh Lee; Jung Ro Lee; Ji Young Yoo; Ho Hee Jang; Jeong Chan Moon; Bae Gyo Jung; Yong Hun Chi; Soo Kwon Park; Seung Sik Lee; Chae Oh Lim; Dae-Jin Yun; Moo Je Cho; Sang Yeol Lee Journal: Biochem Biophys Res Commun Date: 2002-09-06 Impact factor: 3.575