植物中siRNA生物合成的双触发机制。
A two-hit trigger for siRNA biogenesis in plants.
作者信息
Axtell Michael J, Jan Calvin, Rajagopalan Ramya, Bartel David P
机构信息
Howard Hughes Medical Institute, Department of Biology, Massachusetts Institute of Technology, Cambridge, MA, USA.
出版信息
Cell. 2006 Nov 3;127(3):565-77. doi: 10.1016/j.cell.2006.09.032.
In Arabidopsis, microRNA-directed cleavage can define one end of RNAs that then generate phased siRNAs. However, most miRNA-targeted RNAs do not spawn siRNAs, suggesting the existence of additional determinants within those that do. We find that in moss, phased siRNAs arise from regions flanked by dual miR390 cleavage sites. AtTAS3, an siRNA locus important for development and conserved among higher plants, also has dual miR390 complementary sites. Both sites bind miR390 in vitro and are functionally required in Arabidopsis, but cleavage is undetectable at the 5' site--demonstrating that noncleavable sites can be functional in plants. Phased siRNAs also emanate from the bounded regions of every Arabidopsis gene with two known microRNA/siRNA complementary sites, but only rarely from genes with single sites. Therefore, two "hits,"--often, but not always, two cleavage events--constitute a conserved trigger for siRNA biogenesis, a finding with implications for recognition and silencing of aberrant RNA.
在拟南芥中,微小RNA介导的切割可以确定RNA的一端,进而产生阶段性的小干扰RNA。然而,大多数微小RNA靶向的RNA并不会产生小干扰RNA,这表明在那些能产生小干扰RNA的RNA中存在其他决定因素。我们发现,在苔藓中,阶段性小干扰RNA产生于由两个miR390切割位点侧翼的区域。AtTAS3是一个对发育很重要且在高等植物中保守的小干扰RNA位点,它也有两个miR390互补位点。这两个位点在体外都能结合miR390,并且在拟南芥中是功能必需的,但在5'位点检测不到切割——这表明不可切割的位点在植物中也可以发挥功能。阶段性小干扰RNA也来自拟南芥中每个具有两个已知微小RNA/小干扰RNA互补位点的基因的边界区域,但很少来自只有单个位点的基因。因此,两次“命中”——通常但不总是两次切割事件——构成了小干扰RNA生物合成的保守触发因素,这一发现对异常RNA的识别和沉默具有重要意义。
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