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对人核糖体RNA中2'-O-甲基化的分析揭示了部分修饰位点的一个子集,并为核糖体的异质性提供了证据。

Profiling of 2'-O-Me in human rRNA reveals a subset of fractionally modified positions and provides evidence for ribosome heterogeneity.

作者信息

Krogh Nicolai, Jansson Martin D, Häfner Sophia J, Tehler Disa, Birkedal Ulf, Christensen-Dalsgaard Mikkel, Lund Anders H, Nielsen Henrik

机构信息

Department of Cellular and Molecular Medicine, University of Copenhagen, DK-2200N, Denmark.

Biotech Research and Innovation Centre, University of Copenhagen, DK-2200N, Denmark.

出版信息

Nucleic Acids Res. 2016 Sep 19;44(16):7884-95. doi: 10.1093/nar/gkw482. Epub 2016 Jun 1.

DOI:10.1093/nar/gkw482
PMID:27257078
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5027482/
Abstract

Ribose methylation is one of the two most abundant modifications in human ribosomal RNA and is believed to be important for ribosome biogenesis, mRNA selectivity and translational fidelity. We have applied RiboMeth-seq to rRNA from HeLa cells for ribosome-wide, quantitative mapping of 2'-O-Me sites and obtained a comprehensive set of 106 sites, including two novel sites, and with plausible box C/D guide RNAs assigned to all but three sites. We find approximately two-thirds of the sites to be fully methylated and the remainder to be fractionally modified in support of ribosome heterogeneity at the level of RNA modifications. A comparison to HCT116 cells reveals similar 2'-O-Me profiles with distinct differences at several sites. This study constitutes the first comprehensive mapping of 2'-O-Me sites in human rRNA using a high throughput sequencing approach. It establishes the existence of a core of constitutively methylated positions and a subset of variable, potentially regulatory positions, and paves the way for experimental analyses of the role of variations in rRNA methylation under different physiological or pathological settings.

摘要

核糖甲基化是人类核糖体RNA中两种最丰富的修饰之一,被认为对核糖体生物合成、mRNA选择性和翻译保真度很重要。我们将RiboMeth-seq应用于来自HeLa细胞的rRNA,以进行全核糖体范围的2'-O-甲基化位点的定量定位,并获得了一组全面的106个位点,包括两个新位点,除三个位点外,所有位点都分配了合理的C/D框引导RNA。我们发现大约三分之二的位点被完全甲基化,其余位点被部分修饰,这支持了RNA修饰水平上的核糖体异质性。与HCT116细胞的比较显示出相似的2'-O-甲基化图谱,但在几个位点存在明显差异。这项研究是首次使用高通量测序方法对人类rRNA中的2'-O-甲基化位点进行全面定位。它确定了组成型甲基化位置核心和可变的、潜在调控位置子集的存在,并为在不同生理或病理条件下rRNA甲基化变化作用的实验分析铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2240/5027482/686d00c58fca/gkw482fig1.jpg

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