细菌小 RNA 调控因子:多功能角色和快速进化的变异。
Bacterial small RNA regulators: versatile roles and rapidly evolving variations.
机构信息
Laboratory of Molecular Biology, National Cancer Institute, Bethesda, Maryland 20892, USA.
出版信息
Cold Spring Harb Perspect Biol. 2011 Dec 1;3(12):a003798. doi: 10.1101/cshperspect.a003798.
Abstract
Small RNA regulators (sRNAs) have been identified in a wide range of bacteria and found to play critical regulatory roles in many processes. The major families of sRNAs include true antisense RNAs, synthesized from the strand complementary to the mRNA they regulate, sRNAs that also act by pairing but have limited complementarity with their targets, and sRNAs that regulate proteins by binding to and affecting protein activity. The sRNAs with limited complementarity are akin to eukaryotic microRNAs in their ability to modulate the activity and stability of multiple mRNAs. In many bacterial species, the RNA chaperone Hfq is required to promote pairing between these sRNAs and their target mRNAs. Understanding the evolution of regulatory sRNAs remains a challenge; sRNA genes show evidence of duplication and horizontal transfer but also could be evolved from tRNAs, mRNAs or random transcription.
摘要
小 RNA 调控因子 (sRNAs) 在广泛的细菌中被发现,并在许多过程中发挥关键的调控作用。sRNAs 的主要家族包括真正的反义 RNA,它们是由与其调控的 mRNA 互补的链合成的,还有一些 sRNAs 通过配对起作用,但与它们的靶标仅有有限的互补性,以及通过结合并影响蛋白质活性来调节蛋白质的 sRNAs。这些具有有限互补性的 sRNAs 在调节多个 mRNA 的活性和稳定性方面类似于真核生物中的 microRNAs。在许多细菌物种中,RNA 伴侣 Hfq 需要促进这些 sRNAs 与其靶标 mRNA 之间的配对。了解调控 sRNAs 的进化仍然是一个挑战;sRNA 基因显示出复制和水平转移的证据,但也可能是从 tRNA、mRNA 或随机转录进化而来的。
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