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转运RNA中的功能缺陷会导致核糖体RNA前体的积累。

Functional defects in transfer RNAs lead to the accumulation of ribosomal RNA precursors.

作者信息

Slagter-Jäger Jacoba G, Puzis Leopold, Gutgsell Nancy S, Belfort Marlene, Jain Chaitanya

机构信息

Wadsworth Center, New York State Department of Health, Albany, NY 12208, USA.

出版信息

RNA. 2007 Apr;13(4):597-605. doi: 10.1261/rna.319407. Epub 2007 Feb 9.

DOI:10.1261/rna.319407
PMID:17293391
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1831865/
Abstract

Normal expression and function of transfer RNA (tRNA) are of paramount importance for translation. In this study, we show that tRNA defects are also associated with increased levels of immature ribosomal RNA (rRNA). This association was first shown in detail for a mutant strain that underproduces tRNA(Arg2) in which unprocessed 16S and 23S rRNA levels were increased several-fold. Ribosome profiles indicated that unprocessed 23S rRNA in the mutant strain accumulates in ribosomal fractions that sediment with altered mobility. Underproduction of tRNA(Arg2) also resulted in growth defects under standard laboratory growth conditions. Interestingly, the growth and rRNA processing defects were attenuated when cells were grown in minimal medium or at low temperatures, indicating that the requirement for tRNA(Arg2) may be reduced under conditions of slower growth. Other tRNA defects were also studied, including a defect in RNase P, an enzyme involved in tRNA processing; a mutation in tRNA(Trp) that results in its degradation at elevated temperatures; and the titration of the tRNA that recognizes rare AGA codons. In all cases, the levels of unprocessed 16S and 23S rRNA were enhanced. Thus, a range of tRNA defects can indirectly influence translation via effects on the biogenesis of the translation apparatus.

摘要

转运RNA(tRNA)的正常表达和功能对于翻译至关重要。在本研究中,我们表明tRNA缺陷也与未成熟核糖体RNA(rRNA)水平的升高有关。这种关联首先在一个tRNA(Arg2)产量不足的突变菌株中得到详细证明,该菌株中未加工的16S和23S rRNA水平增加了几倍。核糖体图谱表明,突变菌株中未加工的23S rRNA积累在核糖体组分中,其沉降迁移率发生改变。tRNA(Arg2)产量不足还导致在标准实验室生长条件下出现生长缺陷。有趣的是,当细胞在基本培养基中生长或在低温下生长时,生长和rRNA加工缺陷会减弱,这表明在生长较慢的条件下对tRNA(Arg2)的需求可能会降低。还研究了其他tRNA缺陷,包括参与tRNA加工的酶核糖核酸酶P的缺陷;tRNA(Trp)中的一个突变,该突变导致其在高温下降解;以及识别稀有AGA密码子的tRNA的滴定。在所有情况下,未加工的16S和23S rRNA水平均升高。因此,一系列tRNA缺陷可通过影响翻译装置的生物发生间接影响翻译。

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