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锥虫封端酶呈现出一种新颖的双结构域结构。

Trypanosome capping enzymes display a novel two-domain structure.

作者信息

Silva E, Ullu E, Kobayashi R, Tschudi C

机构信息

Departments of Internal Medicine, Yale University School of Medicine, New Haven, Connecticut 06520-8022, USA.

出版信息

Mol Cell Biol. 1998 Aug;18(8):4612-9. doi: 10.1128/MCB.18.8.4612.

DOI:10.1128/MCB.18.8.4612
PMID:9671471
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC109047/
Abstract

The ubiquitous m7G cap of eukaryotic mRNAs and of precursors to the spliceosomal small nuclear RNAs (snRNAs) is the result of an essential RNA modification acquired during transcript elongation. In trypanosomes, the m7G cap is restricted to the spliced leader (SL) RNA and the precursors of U2, U3, and U4 snRNAs. mRNA capping in these organisms occurs posttranscriptionally by trans splicing, which transfers the capped SL sequence to the 5' ends of all mRNAs. The SL cap is the most elaborate cap structure known in nature and has been shown to consist of an m7G residue followed by four methylated nucleotides. Using Crithidia fasciculata, we have characterized and purified the guanylyltransferase (capping enzyme), which transfers GMP from GTP to the diphosphate end of RNA. The corresponding gene codes for a protein of 697 amino acids, with the carboxy-terminal half of the C. fasciculata guanylyltransferase containing the six signature motifs previously identified in yeast capping enzymes. The amino-terminal half contains a domain that displays no resemblance to any other domain associated with capping enzymes. Intriguingly, this region harbors a consensus sequence for a phosphate-binding loop which is found in ATP- and GTP-binding proteins. This two-domain structure is also present in the Trypanosoma brucei capping enzyme, which shows 44% overall identity with the C. fasciculata capping enzyme. Thus, this structure appears to be common to all trypanosomatid protozoa and defines a novel class of capping enzymes.

摘要

真核生物信使核糖核酸(mRNA)以及剪接体小核核糖核酸(snRNA)前体普遍存在的7-甲基鸟苷(m7G)帽结构,是转录延伸过程中获得的一种重要RNA修饰的结果。在锥虫中,m7G帽仅限于剪接前导(SL)RNA以及U2、U3和U4 snRNA的前体。这些生物体中的mRNA加帽是在转录后通过反式剪接发生的,反式剪接将带帽的SL序列转移到所有mRNA的5'末端。SL帽是自然界中已知最复杂的帽结构,已被证明由一个m7G残基后跟四个甲基化核苷酸组成。利用 fasciculata 克氏锥虫,我们已经鉴定并纯化了鸟苷酸转移酶(加帽酶),该酶将鸟苷一磷酸(GMP)从三磷酸鸟苷(GTP)转移到RNA的二磷酸末端。相应的基因编码一个697个氨基酸的蛋白质,克氏锥虫鸟苷酸转移酶的羧基末端一半包含先前在酵母加帽酶中鉴定出的六个特征基序。氨基末端一半包含一个与任何其他与加帽酶相关的结构域都没有相似之处 的结构域。有趣的是,该区域含有一个在ATP和GTP结合蛋白中发现的磷酸结合环的共有序列。这种双结构域结构也存在于布氏锥虫加帽酶中,它与克氏锥虫加帽酶的总体一致性为44%。因此,这种结构似乎是所有锥虫原生动物共有的,并且定义了一类新型的加帽酶。

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