https://scholars.lib.ntu.edu.tw/handle/123456789/95909
標題: | 探討菸草鑲嵌病毒p126蛋白在RNA靜默機制中所扮演的角色 Molecular dissection of the TMV-encoded p126 protein in suppression of virus-induced gene silencing |
作者: | 王麗雅 Wang, Li-Ya |
關鍵字: | 基因靜默;煙草鑲嵌病毒;抑制子;p126;PTGS;siRNA;suppressor;TMV | 公開日期: | 2007 | 摘要: | 轉錄後基因靜默(post-transcriptional gene silencing,PTGS),亦即RNA干擾現象 (RNAi),會導致目標基因的mRNA被分解,是為一種調節基因表現的機制。近幾年來有許多研究顯示,此現象不但廣泛地存在於生物界,更為真核生物用以抵禦病毒侵染的一套固有防禦機制。然而,病毒也演化出另一種反防禦策略,亦即利用抑制子 (suppressor),去干擾內生的基因靜默訊息傳遞路徑,以達到成功感染目的。本研究以煙草鑲嵌病毒 (TMV) 為模式,探討TMV p126蛋白如何參與對抗PTGS。首先以GFP煙草轉植株 (Nicotiana benthamiana, line 16c) 建立篩選平台,藉由農桿菌接種法 (agroinfiltration) 送入外來GFP,啟動PTGS機制導致16c中GFP mRNA量降低。我們首先觀察到當煙草株遭受TMV感染,或單獨表現p126蛋白時,GFP不僅可恆常表現,甚至有被助長表現之情況。進一步將p126蛋白依據其不同的功能性區塊 (domain) 進行擷取,共分為methyltransferase (MET)、non-conserved region (nonI)、non-conserved region II (nonII) 和helicase (HEL) 四個區塊。當個別表現MET、nonII和HEL於16c時,皆顯示其有抑制PTGS之功能。為了進一步釐清其參與機制,我們利用點突變破壞MET及HEL之酵素活性區,但結果顯示其酵素功能似乎不參與在抑制PTGS之機制中。令人驚訝的是,當我們替換nonII三個會影響病徵之胺基酸後,便失去抑制PTGS之功能。另外,我們也建立p126煙草轉殖株,期望找出病毒致病性與PTGS抑制功能兩者之間的相關連結,但若要明確了解整個機制則仍有待持續的研究與探討。 Post-transcriptional gene silencing (PTGS) is a conservative phenomenon across kingdoms. In plants, it has been demonstrated that PTGS functions as an intrinsic defense mechanism during viral infection. On the other hand, viruses have evolved counter-defense strategies by encoded suppressors to circumvent PTGS. In previous studies, Tobacco mosaic virus (TMV) encoded p126 protein has been exhibited as a suppressor of PTGS although its mechanism remains unknown. In this current study, we found that there are multiple suppressor domains/motifs within the p126 protein, including methyltransferase, helicase and non-conserved region II, implicating that these domains/motifs could function synergistically against PTGS. Nevertheless, these suppressor domains might exhibit differential consequences on local and/or systemic gene silencing. Moreover, the enzymatic activities of methyltransferase and helicase are dispensable in the suppression pathways. Interestingly, several amino acids within the non-conserved region II pivotal for pathological consequence seem to intimately correlate with extend of the ability of gene silencing suppression. Together, these results suggest that a role of gene silencing suppression of TMV determinates its susceptibility on host plants. Furthermore, the MAPK signal cascade(s) was involved in the functioning of the p126-mediated gene silencing in tobacco. Our findings will therefore help elucidate the function and evolution of different virus suppressor and lead to new crop protection strategies. |
URI: | http://ntur.lib.ntu.edu.tw//handle/246246/58081 | 其他識別: | en-US |
顯示於: | 植物病理與微生物學系 |
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ntu-96-R94633005-1.pdf | 23.53 kB | Adobe PDF | 檢視/開啟 |
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