a Kimmel Center for Biology and Medicine at the Skirball Institute, New York University School of Medicine , New York , NY , USA.
b Department of Microbiology , New York University School of Medicine , New York , NY , USA.
RNA Biol. 2018;15(6):703-706. doi: 10.1080/15476286.2018.1460995. Epub 2018 May 29.
Deprotection of the 5' end appears to be a universal mechanism for triggering the degradation of mRNA in bacteria and eukaryotes. In Escherichia coli, for example, converting the 5' triphosphate of primary transcripts to a monophosphate accelerates cleavage at internal sites by the endonuclease RNase E. Previous studies have shown that the RNA pyrophosphohydrolase RppH catalyzes this transformation in vitro and generates monophosphorylated decay intermediates in vivo. Recently, we reported that purified E. coli RppH unexpectedly reacts faster with diphosphorylated than with triphosphorylated substrates. By using a novel assay, it was also determined that diphosphorylated mRNA decay intermediates are abundant in wild-type E. coli and that their fractional level increases to almost 100% for representative mRNAs in mutant cells lacking RppH. These findings indicate that the conversion of triphosphorylated to monophosphorylated RNA in E. coli is a stepwise process involving sequential phosphate removal and the transient formation of a diphosphorylated intermediate. The latter RNA phosphorylation state, which was previously unknown in bacteria, now appears to define the preferred biological substrates of E. coli RppH. The enzyme responsible for generating it remains to be identified.
脱保护作用似乎是触发细菌和真核生物中 mRNA 降解的普遍机制。例如,在大肠杆菌中,将初级转录物的 5' 三磷酸转化为一磷酸会加速内切核酸酶 RNase E 在内部位点的切割。先前的研究表明,RNA 焦磷酸水解酶 RppH 在体外催化这种转化,并在体内产生单磷酸化的衰变中间产物。最近,我们报道说,纯化的大肠杆菌 RppH 出人意料地与二磷酸化底物的反应速度比与三磷酸化底物的反应速度更快。通过使用一种新的测定方法,还确定在野生型大肠杆菌中富含二磷酸化的 mRNA 衰变中间产物,并且在缺乏 RppH 的突变细胞中,其分数水平增加到代表 mRNA 的近 100%。这些发现表明,大肠杆菌中三磷酸化到单磷酸化 RNA 的转化是一个逐步的过程,涉及顺序去除磷酸和瞬态形成二磷酸化中间产物。这种以前在细菌中未知的 RNA 磷酸化状态,现在似乎定义了大肠杆菌 RppH 的首选生物底物。产生它的酶仍有待确定。
