A Recombinant Rice 16.9-kDa Heat Shock Protein Can Provide Thermoprotection in Vitro : ENVIRONMENTAL AND STRESS RESPONSES : GENE STRUCTURE AND EXPRESSION
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概要
- 論文の詳細を見る
It is difficult to obtain large amounts of purified low-molecular-mass heat shock proteins (LMM HSPs), which are unique to plants, for biochemical and physiological studies. Therefore, an attempt was made to produce such a HSP by applying recombinant DNA technology. We fused the cDNA for a rice class I 16.9-kDa HSP, pTSl, to the gene for glutathione S-transferase (GST) of Schistosoma japonicum and we obtained large amounts of the fusion protein from transformed Escherichia coli cells. In addition, we found that the 16.9-kDa HSP obtained by cleavage of the recombinant protein could also form a protein complex of 〜310 kDa under non-denaturing conditions as can the small, native, class I HSPs from heat-shocked rice seedlings. An assay in vitro to examine the thermoprotection of rice soluble proteins from heat denaturation revealed the strong stabilizing effect of the recombinant HSP.
- 日本植物生理学会の論文
著者
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Chang Pi-fang
Department Of Botany National Taiwan University
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Yeh Ching-Hui
Department of Botany, National Taiwan University
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Yeh Kai-Wun
Department of Botany, National Taiwan University
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Wu Shu-Hsing
Department of Botany, National Taiwan University
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Chen Yih-Ming
Department of Botany, National Taiwan University
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Lin Chu-Yung
Department of Botany, National Taiwan University
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Chen Y‐m
Department Of Botany National Taiwan University
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Wo Shu-hsing
Department Of Botany National Taiwan University
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Yeh Ching-hui
Department Of Botany National Taiwan University
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Yeh Kai-wun
Department Of Botany National Taiwan University
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Lin Chu-yung
Department Of Botany National Taiwan University
関連論文
- A Recombinant Rice 16.9-kDa Heat Shock Protein Can Provide Thermoprotection in Vitro : ENVIRONMENTAL AND STRESS RESPONSES : GENE STRUCTURE AND EXPRESSION
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