非洲爪蟾中rRNA位点特异性核糖甲基化对小核仁RNA的需求。

A small nucleolar RNA requirement for site-specific ribose methylation of rRNA in Xenopus.

作者信息

Tycowski K T, Smith C M, Shu M D, Steitz J A

机构信息

Department of Molecular Biophysics and Biochemistry, Howard Hughes Medical Institute, Yale University School of Medicine, New Haven, CT 06536, USA.

出版信息

Proc Natl Acad Sci U S A. 1996 Dec 10;93(25):14480-5. doi: 10.1073/pnas.93.25.14480.

DOI:10.1073/pnas.93.25.14480

PMID:8962077

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC26158/

Abstract

Vertebrate cells contain a large number of small nucleolar RNA (snoRNA) species, the vast majority of which bind fibrillarin. Most of the fibrillarin-associated snoRNAs can form 10- to 21-nt duplexes with rRNA and are thought to guide 2'-O-methylation of selected nucleotides in rRNA. These include mammalian UHG (U22 host gene)-encoded U25-U31 snoRNAs. We have characterized two novel human snoRNA species, U62 and U63, which similarly exhibit 15- (with one interruption) and 12-nt complementarities and are therefore predicted to direct 2'-O-methylation of A590 in 18S and A4531 in 28S rRNA, respectively. To establish the function of antisense snoRNAs in vertebrates, we exploited the Xenopus oocyte system. Cloning of the Xenopus U25-U31 snoRNA genes indicated that they are encoded within multiple homologs of mammalian UHG. Depletion of U25 from the Xenopus oocyte abolished 2'-O-methylation of G1448 in 18S rRNA; methylation could be restored by injecting either the Xenopus or human U25 transcript into U25-depleted oocytes. Comparison of Xenopus and human U25 sequences revealed that only boxes C, D, and D', as well as the 18S rRNA complement, were invariant, suggesting that they may be the only elements required for U25 snoRNA stability and function.

摘要

脊椎动物细胞含有大量的小核仁RNA（snoRNA）种类，其中绝大多数与纤维蛋白原结合。大多数与纤维蛋白原相关的snoRNA可以与rRNA形成10至21个核苷酸的双链体，并被认为可指导rRNA中特定核苷酸的2'-O-甲基化。这些包括哺乳动物UHG（U22宿主基因）编码的U25-U31 snoRNA。我们鉴定了两种新型人类snoRNA种类，U62和U63，它们同样分别表现出15个核苷酸（有一处中断）和12个核苷酸的互补性，因此预计分别指导18S rRNA中A590和28S rRNA中A4531的2'-O-甲基化。为了确定反义snoRNA在脊椎动物中的功能，我们利用了非洲爪蟾卵母细胞系统。非洲爪蟾U25-U31 snoRNA基因的克隆表明它们是在哺乳动物UHG的多个同源物中编码的。从非洲爪蟾卵母细胞中去除U25消除了18S rRNA中G1448的2'-O-甲基化；通过将非洲爪蟾或人类U25转录本注射到U25缺失的卵母细胞中可以恢复甲基化。非洲爪蟾和人类U25序列比较显示，只有C、D和D'框以及18S rRNA互补序列是不变的，这表明它们可能是U25 snoRNA稳定性和功能所需的唯一元件。

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