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一个类似内源性基因的转基因对DNA甲基化和系统性沉默具有抗性。

An endogene-resembling transgene is resistant to DNA methylation and systemic silencing.

作者信息

Dadami Elena, Dalakouras Athanasios, Zwiebel Michele, Krczal Gabi, Wassenegger Michael

机构信息

RLP AgroScience GmbH; AlPlanta-Institute for Plant Research; Neustadt, Germany; These authors contributed equally to this work.

RLP AgroScience GmbH; AlPlanta-Institute for Plant Research; Neustadt, Germany.

出版信息

RNA Biol. 2014;11(7):934-41. doi: 10.4161/rna.29623. Epub 2014 Jul 23.

DOI:10.4161/rna.29623
PMID:25180820
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4179966/
Abstract

In plants, endogenes are less prone to RNA silencing than transgenes. While both can be efficiently targeted by small RNAs for post-transcriptional gene silencing (PTGS), generally only transgene PTGS is accompanied by transitivity, RNA-directed DNA methylation (RdDM) and systemic silencing. In order to investigate whether a transgene could mimick an endogene and thus be less susceptible to RNA silencing, we generated an intron-containing, endogene-resembling GREEN FLUORESCENT PROTEIN (GFP) transgene (GFP(endo)). Upon agroinfiltration of a hairpin GFP (hpF) construct, transgenic Nicotiana benthamiana plants harboring GFP(endo) (Nb-GFP(endo)) were susceptible to local PTGS. Yet, in the local area, PTGS was not accompanied by RdDM of the GFP(endo) coding region. Importantly, hpF-agroinfiltrated Nb-GFP(endo) plants were resistant to systemic silencing. For reasons of comparison, transgenic N. benthamiana plants (Nb-GFP(cDNA)) carrying a GFP cDNA transgene (GFP(cDNA)) were included in the analysis. HpF-agroinfiltrated Nb-GFP(cDNA) plants exhibited local PTGS and RdDM. In addition, systemic silencing was established in Nb-GFP(cDNA) plants. In agreement with previous reports using grafted scions, in systemically silenced tissue, siRNAs mapping to the 3' of GFP were predominantly detectable by Northern blot analysis. Yet, in contrast to other reports, in systemically silenced leaves, PTGS was also accompanied by dense RdDM comprising the entire GFP(cDNA) coding region. Overall, our analysis indicated that cDNA transgenes are prone to systemic PTGS and RdDM, while endogene-resembling ones are resistant to RNA silencing.

摘要

在植物中,内源基因比转基因更不易受到RNA沉默的影响。虽然两者都能被小RNA有效靶向,用于转录后基因沉默(PTGS),但通常只有转基因PTGS会伴随有传递性、RNA指导的DNA甲基化(RdDM)和系统性沉默。为了研究转基因是否可以模仿内源基因,从而更不易受到RNA沉默的影响,我们构建了一个含内含子、类似内源基因的绿色荧光蛋白(GFP)转基因(GFP(endo))。在用发夹结构GFP(hpF)构建体进行农杆菌浸润后,携带GFP(endo)的转基因本氏烟草植株(Nb-GFP(endo))易发生局部PTGS。然而,在局部区域,PTGS并未伴随GFP(endo)编码区的RdDM。重要的是,经hpF农杆菌浸润的Nb-GFP(endo)植株对系统性沉默具有抗性。为了进行比较,分析中纳入了携带GFP cDNA转基因(GFP(cDNA))的转基因本氏烟草植株(Nb-GFP(cDNA))。经hpF农杆菌浸润的Nb-GFP(cDNA)植株表现出局部PTGS和RdDM。此外,Nb-GFP(cDNA)植株中建立了系统性沉默。与之前使用嫁接接穗的报道一致,在系统性沉默的组织中,通过Northern印迹分析主要可检测到定位在GFP 3'端的小干扰RNA(siRNAs)。然而,与其他报道不同的是,在系统性沉默的叶片中,PTGS还伴随着包含整个GFP(cDNA)编码区的密集RdDM。总体而言,我们的分析表明,cDNA转基因易发生系统性PTGS和RdDM,而类似内源基因的转基因对RNA沉默具有抗性。

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