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DsrA 和 RprA 小非编码 RNA 的正调控机制:碱基配对增加翻译并保护 rpoS mRNA 不被降解。

Mechanism of positive regulation by DsrA and RprA small noncoding RNAs: pairing increases translation and protects rpoS mRNA from degradation.

机构信息

Laboratory of Molecular Biology, Bldg. 37, Room 5132, National Institutes of Health, Bethesda, MD 20892-4255, USA.

出版信息

J Bacteriol. 2010 Nov;192(21):5559-71. doi: 10.1128/JB.00464-10. Epub 2010 Aug 27.

DOI:10.1128/JB.00464-10
PMID:20802038
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2953674/
Abstract

Small noncoding RNAs (sRNAs) regulate gene expression in Escherichia coli by base pairing with mRNAs and modulating translation and mRNA stability. The sRNAs DsrA and RprA stimulate the translation of the stress response transcription factor RpoS by base pairing with the 5' untranslated region of the rpoS mRNA. In the present study, we found that the rpoS mRNA was unstable in the absence of DsrA and RprA and that expression of these sRNAs increased both the accumulation and the half-life of the rpoS mRNA. Mutations in dsrA, rprA, or rpoS that disrupt the predicted pairing sequences and reduce translation of RpoS also destabilize the rpoS mRNA. We found that the rpoS mRNA accumulates in an RNase E mutant strain in the absence of sRNA expression and, therefore, is degraded by an RNase E-mediated mechanism. DsrA expression is required, however, for maximal translation even when rpoS mRNA is abundant. This suggests that DsrA protects rpoS mRNA from degradation by RNase E and that DsrA has a further activity in stimulating RpoS protein synthesis. rpoS mRNA is subject to degradation by an additional pathway, mediated by RNase III, which, in contrast to the RNase E-mediated pathway, occurs in the presence and absence of DsrA or RprA. rpoS mRNA and RpoS protein levels are increased in an RNase III mutant strain with or without the sRNAs, suggesting that the role of RNase III in this context is to reduce the translation of RpoS even when the sRNAs are acting to stimulate translation.

摘要

小非编码 RNA(sRNAs)通过与 mRNAs 碱基配对并调节翻译和 mRNA 稳定性来调节大肠杆菌中的基因表达。sRNAs DsrA 和 RprA 通过与 rpoS mRNA 的 5'非翻译区碱基配对来刺激应激反应转录因子 RpoS 的翻译。在本研究中,我们发现 rpoS mRNA 在缺乏 DsrA 和 RprA 的情况下不稳定,并且这些 sRNAs 的表达增加了 rpoS mRNA 的积累和半衰期。破坏预测配对序列并降低 RpoS 翻译的 dsrA、rprA 或 rpoS 突变也使 rpoS mRNA 不稳定。我们发现 rpoS mRNA 在缺乏 sRNA 表达的 RNase E 突变株中积累,因此,通过 RNase E 介导的机制降解。然而,即使 rpoS mRNA 丰富,DsrA 的表达也是翻译的最大需要。这表明 DsrA 保护 rpoS mRNA 免受 RNase E 的降解,并且 DsrA 在刺激 RpoS 蛋白合成方面具有进一步的活性。rpoS mRNA 还受到 RNase III 介导的降解途径的影响,与 RNase E 介导的途径相反,该途径在存在或不存在 DsrA 或 RprA 的情况下发生。rpoS mRNA 和 RpoS 蛋白水平在具有或不具有 sRNAs 的 RNase III 突变株中增加,表明在这种情况下,RNase III 的作用是降低 RpoS 的翻译,即使 sRNAs 正在发挥刺激翻译的作用。

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