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开花位点T信使核糖核酸内的一个顺式元件决定其移动性,并促进异源病毒核糖核酸的运输。

A cis element within flowering locus T mRNA determines its mobility and facilitates trafficking of heterologous viral RNA.

作者信息

Li Chunyang, Zhang Ke, Zeng Xianwu, Jackson Stephen, Zhou Yu, Hong Yiguo

机构信息

Warwick HRI, University of Warwick, Wellesbourne, Warwick CV35 9EF, United Kingdom.

出版信息

J Virol. 2009 Apr;83(8):3540-8. doi: 10.1128/JVI.02346-08. Epub 2009 Feb 4.

DOI:10.1128/JVI.02346-08
PMID:19193810
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2663265/
Abstract

The Arabidopsis flowering locus T (FT) gene encodes the mobile florigen essential for floral induction. While movement of the FT protein has been shown to occur within plants, systemic spread of FT mRNA remains to be unequivocally demonstrated. Utilizing novel RNA mobility assay vectors based on two distinct movement-defective viruses, Potato virus X and Turnip crinkle virus, and an agroinfiltration assay, we demonstrate that nontranslatable FT mRNA, independent of the FT protein, moves throughout Nicotiana benthamiana and mutant Arabidopsis plants and promotes systemic trafficking of viral and green fluorescence protein RNAs. Viral ectopic expression of FT induced flowering in the short-day N. tabacum Maryland Mammoth tobacco under long-day conditions. Recombinant Potato virus X bearing FT RNA spread and established systemic infection more quickly than the parental virus. The cis-acting element essential for RNA movement was mapped to the nucleotides 1 to 102 of the FT mRNA coding sequence. These data demonstrate that a plant self-mobile RNA molecule can mediate long-distance trafficking of heterologous RNAs and raise the possibility that FT RNA, along with the FT protein, may be involved in the spread of the floral stimulus throughout the plant.

摘要

拟南芥开花位点T(FT)基因编码对花诱导至关重要的可移动成花素。虽然FT蛋白已被证明在植物体内会移动,但FT mRNA的系统性传播仍有待明确证实。利用基于两种不同的运动缺陷病毒——马铃薯X病毒和芜菁皱缩病毒构建的新型RNA移动检测载体以及农杆菌浸润检测,我们证明了不可翻译的FT mRNA,独立于FT蛋白,在本氏烟草和突变拟南芥植株中移动,并促进病毒RNA和绿色荧光蛋白RNA的系统性运输。在长日照条件下,FT的病毒异位表达诱导了短日照烟草品种马里兰猛犸烟草开花。携带FT RNA的重组马铃薯X病毒比亲本病毒传播更快,并能更快建立系统性感染。RNA移动所必需的顺式作用元件被定位到FT mRNA编码序列的第1至102个核苷酸。这些数据表明,一种植物自身可移动的RNA分子能够介导异源RNA的长距离运输,并增加了FT RNA与FT蛋白一起可能参与花刺激在植物体内传播的可能性。

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