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於水稻中持續表現植物硫鐵蛋白可增強水稻光合作用碳固定效率 = Const...

國立高雄大學生物科技研究所

於水稻中持續表現植物硫鐵蛋白可增強水稻光合作用碳固定效率 = Constitutive Expression of a Plant Ferredoxin-like Protein (pflp) in Transgenic Rice Enhances Capacity of Photosynthetic Carbon Assimilation

紀錄類型:	書目-語言資料,印刷品 : 單行本
並列題名:	Constitutive Expression of a Plant Ferredoxin-like Protein (pflp) in Transgenic Rice Enhances Capacity of Photosynthetic Carbon Assimilation
作者:	鄭執甫,
其他團體作者:	國立高雄大學
出版地:	[高雄市]
出版者:	撰者;
出版年:	民99[2010]
面頁冊數:	39面圖，表 : 30公分;
標題:	植物硫鐵蛋白
標題:	crop yield
電子資源:	http://handle.ncl.edu.tw/11296/ndltd/33376552680721629847
摘要註:	光合作用主要是植物吸收光能後將二氧化碳固定成各種醣類，例如: 作為能量利用的葡萄糖與果糖，作為運輸用的蔗糖與儲存用的澱粉。第一型硫鐵蛋白廣泛分布在植物綠色組織中，其主要在電子傳遞鏈中扮演傳遞電子的角色。從甜椒萃取之植物硫鐵蛋白(Plant Ferredoxin-Like Protein，PFLP)經蛋白質序列比對後發現，其序列與阿拉伯芥、蕃茄、水稻及菠菜之第一型硫鐵蛋白有高度同源性。先前研究發現pflp轉殖植物在病原菌感染後可大幅產生過氧化物(Reactive oxygen species, ROS)，進而誘導過敏反應產生。由於PFLP屬於光合作用第一型硫鐵蛋白，此暗示過表現植物硫鐵蛋白於轉殖植物中可能經由加強光合作用與糖類代謝來增加抵抗病原菌的能力。為了探討上述機制的可能性，花椰菜鑲嵌病毒35S啟動子(CaMV 35S promoter)被用來大量表現PFLP蛋白於水稻中，並且分析轉殖水稻的光合作用效率。經由反轉錄聚合酶鏈式反應及西方墨點法確認pflp轉基因以成功表現並累積PFLP蛋白於轉殖水稻中。實驗結果顯示轉殖水稻具有較高的電子傳遞能力與氣體交換速率。在醣類含量方面，轉殖水稻均具有高含量的果糖，葡萄糖，蔗糖與澱粉。而轉殖水稻中醣類合成相關基因轉錄活性大多高於野生型水稻2至4倍。上述結果證實轉殖水稻含有較高之醣類累積是導因於其具有較高電子傳遞效率、較高氣體交換速率與較強醣類合成相關基因表現。在產量分析方面，轉殖水稻無論是在單株實粒重、單株分穗數或種子內澱粉含量均高於野生種水稻。此外，以病原菌接種植株後，偵測氣體交換速率變化，發現轉殖株在此期間可維持氣體交換速率；而野生型之氣體交換速率則明顯的下降。綜合上述結果，本篇論文指出於水稻中持續表現pflp可增強光合作用碳固定效率，並進而提升水稻產量。 Photosynthesis is the major metabolic pathway that converts carbon dioxide (CO2) into organic compounds, such as fructose, glucose, sucrose, and starch in plant. Ferredoxin-I (Fd-I) protein, known as an electron carrier in photosynthesis, generally exists in green tissue. The protein sequence of the plant ferredoxin – like protein (PFLP), isolated from sweet peppers, shows high homology to the Fd-I sequence of Arabidopsis thaliana, Lycopersicon esculentum, Oryza sativa and Spinacia oleracea. Previous studies reported that constitutive expression of pflp in transgenic plants exhibit host resistance to virulent bacterial pathogens. The disease resistance of transgenic plants result from the induction of reactive oxygen species (ROS) generation. It is possible that PFLP could enhance photosynthetic efficiency. In order to assess this possibility, pflp transgenic rice was generated and studied their capacity of photosynthetic carbon assimilation. In this report, two transgenic lines of rice (pflp-1 and pflp-2) showed that the pflp transgenic rice exhibit highly photosynthesis efficiency. As comparing the photosynthetic gas exchange rate, the pflp-1 and the pflp-2, respectively, exhibited 1.3- and 1.2-fold higher than the wild type (WT). The capacity of photosynthetic electron transport of two transgenic lines are significantly higher than WT. Additionally, the fructose, glucose, sucrose and starch contents in the pflp-1 and pflp-2 transgenic lines were higher than those of the WT. The transcript activity of carbohydrate metabolism related genes in transgenic lines were higher than those that of WT. In crop yield, on grain weight per plant the pflp-1 and the pflp-2 showed 1.7- and 1.3-fold higher than WT. As for the number of panicles per plant, the pflp-1 and the pflp-2 are increased 1.4- and 1.5-fold higher than the WT. In addition, we demonstrated that the transgenic rice maintain normal photosynthetic gas exchange rate on the period of pathogen infected. Taken altogether; we demonstrate that constitutive expression of pflp in transgenic rice could enhance capacity of photosynthetic carbon assimilation and increase crop yield.

於水稻中持續表現植物硫鐵蛋白可增強水稻光合作用碳固定效率 = Constitutive Expression of a Plant Ferredoxin-like Protein (pflp) in Transgenic Rice Enhances Capacity of Photosynthetic Carbon Assimilation
鄭, 執甫

於水稻中持續表現植物硫鐵蛋白可增強水稻光合作用碳固定效率 = Constitutive Expression of a Plant Ferredoxin-like Protein (pflp) in Transgenic Rice Enhances Capacity of Photosynthetic Carbon Assimilation / 鄭執甫撰 - [高雄市] : 撰者, 民99[2010]. - 39面 ; 圖，表 ; 30公分.
參考書目：面.
植物硫鐵蛋白crop yield

於水稻中持續表現植物硫鐵蛋白可增強水稻光合作用碳固定效率 = Constitutive Expression of a Plant Ferredoxin-like Protein (pflp) in Transgenic Rice Enhances Capacity of Photosynthetic Carbon Assimilation
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330 $a 光合作用主要是植物吸收光能後將二氧化碳固定成各種醣類，例如: 作為能量利用的葡萄糖與果糖，作為運輸用的蔗糖與儲存用的澱粉。第一型硫鐵蛋白廣泛分布在植物綠色組織中，其主要在電子傳遞鏈中扮演傳遞電子的角色。從甜椒萃取之植物硫鐵蛋白(Plant Ferredoxin-Like Protein，PFLP)經蛋白質序列比對後發現，其序列與阿拉伯芥、蕃茄、水稻及菠菜之第一型硫鐵蛋白有高度同源性。先前研究發現pflp轉殖植物在病原菌感染後可大幅產生過氧化物(Reactive oxygen species, ROS)，進而誘導過敏反應產生。由於PFLP屬於光合作用第一型硫鐵蛋白，此暗示過表現植物硫鐵蛋白於轉殖植物中可能經由加強光合作用與糖類代謝來增加抵抗病原菌的能力。為了探討上述機制的可能性，花椰菜鑲嵌病毒35S啟動子(CaMV 35S promoter)被用來大量表現PFLP蛋白於水稻中，並且分析轉殖水稻的光合作用效率。經由反轉錄聚合酶鏈式反應及西方墨點法確認pflp轉基因以成功表現並累積PFLP蛋白於轉殖水稻中。實驗結果顯示轉殖水稻具有較高的電子傳遞能力與氣體交換速率。在醣類含量方面，轉殖水稻均具有高含量的果糖，葡萄糖，蔗糖與澱粉。而轉殖水稻中醣類合成相關基因轉錄活性大多高於野生型水稻2至4倍。上述結果證實轉殖水稻含有較高之醣類累積是導因於其具有較高電子傳遞效率、較高氣體交換速率與較強醣類合成相關基因表現。在產量分析方面，轉殖水稻無論是在單株實粒重、單株分穗數或種子內澱粉含量均高於野生種水稻。此外，以病原菌接種植株後，偵測氣體交換速率變化，發現轉殖株在此期間可維持氣體交換速率；而野生型之氣體交換速率則明顯的下降。綜合上述結果，本篇論文指出於水稻中持續表現pflp可增強光合作用碳固定效率，並進而提升水稻產量。 Photosynthesis is the major metabolic pathway that converts carbon dioxide (CO2) into organic compounds, such as fructose, glucose, sucrose, and starch in plant. Ferredoxin-I (Fd-I) protein, known as an electron carrier in photosynthesis, generally exists in green tissue. The protein sequence of the plant ferredoxin – like protein (PFLP), isolated from sweet peppers, shows high homology to the Fd-I sequence of Arabidopsis thaliana, Lycopersicon esculentum, Oryza sativa and Spinacia oleracea. Previous studies reported that constitutive expression of pflp in transgenic plants exhibit host resistance to virulent bacterial pathogens. The disease resistance of transgenic plants result from the induction of reactive oxygen species (ROS) generation. It is possible that PFLP could enhance photosynthetic efficiency. In order to assess this possibility, pflp transgenic rice was generated and studied their capacity of photosynthetic carbon assimilation. In this report, two transgenic lines of rice (pflp-1 and pflp-2) showed that the pflp transgenic rice exhibit highly photosynthesis efficiency. As comparing the photosynthetic gas exchange rate, the pflp-1 and the pflp-2, respectively, exhibited 1.3- and 1.2-fold higher than the wild type (WT). The capacity of photosynthetic electron transport of two transgenic lines are significantly higher than WT. Additionally, the fructose, glucose, sucrose and starch contents in the pflp-1 and pflp-2 transgenic lines were higher than those of the WT. The transcript activity of carbohydrate metabolism related genes in transgenic lines were higher than those that of WT. In crop yield, on grain weight per plant the pflp-1 and the pflp-2 showed 1.7- and 1.3-fold higher than WT. As for the number of panicles per plant, the pflp-1 and the pflp-2 are increased 1.4- and 1.5-fold higher than the WT. In addition, we demonstrated that the transgenic rice maintain normal photosynthetic gas exchange rate on the period of pathogen infected. Taken altogether; we demonstrate that constitutive expression of pflp in transgenic rice could enhance capacity of photosynthetic carbon assimilation and increase crop yield.
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