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限制开关II区域的构象灵活性会在Obg GTP酶Nog1中产生显性抑制表型。

Restricting conformational flexibility of the switch II region creates a dominant-inhibitory phenotype in Obg GTPase Nog1.

作者信息

Lapik Yevgeniya R, Misra Julia M, Lau Lester F, Pestov Dimitri G

机构信息

Department of Biochemistry and Molecular Genetics, University of Illinois at Chicago College of Medicine, Chicago, Illinois 60607, USA

出版信息

Mol Cell Biol. 2007 Nov;27(21):7735-44. doi: 10.1128/MCB.01161-07. Epub 2007 Sep 4.

DOI:10.1128/MCB.01161-07
PMID:17785438
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2169037/
Abstract

Nog1 is a conserved eukaryotic GTPase of the Obg family involved in the biogenesis of 60S ribosomal subunits. Here we report the unique dominant-inhibitory properties of a point mutation in the switch II region of mouse Nog1; this mutation is predicted to restrict conformational mobility of the GTP-binding domain. We show that although the mutation does not significantly affect GTP binding, ectopic expression of the mutant in mouse cells disrupts productive assembly of pre-60S subunits and arrests cell proliferation. The mutant impairs processing of multiple pre-rRNA intermediates, resulting in the degradation of the newly synthesized 5.8S/28S rRNA precursors. Sedimentation analysis of nucleolar preribosomes indicates that defective Nog1 function inhibits the conversion of 32S pre-rRNA-containing complexes to a smaller form, resulting in a drastic accumulation of enlarged pre-60S particles in the nucleolus. These results suggest that conformational changes in the switch II element of Nog1 have a critical importance for the dissociation of preribosome-bound factors during intranucleolar maturation and thereby strongly influence the overall efficiency of the assembly process.

摘要

Nog1是一种保守的真核生物Obg家族GTP酶,参与60S核糖体亚基的生物合成。在此,我们报道了小鼠Nog1开关II区域点突变的独特显性抑制特性;该突变预计会限制GTP结合结构域的构象流动性。我们发现,尽管该突变对GTP结合没有显著影响,但突变体在小鼠细胞中的异位表达会破坏前60S亚基的有效组装并阻止细胞增殖。该突变体损害多种前体rRNA中间体的加工,导致新合成的5.8S/28S rRNA前体降解。核仁前核糖体的沉降分析表明,有缺陷的Nog1功能会抑制含32S前体rRNA的复合物向较小形式的转化,导致核仁中扩大的前60S颗粒大量积累。这些结果表明,Nog1开关II元件中的构象变化对于核仁内成熟过程中前核糖体结合因子的解离至关重要,从而强烈影响组装过程的整体效率。

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