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microRNA production in Arabidopsis

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FRONTIERS IN PLANT SCIENCE
卷 14, 期 -, 页码 -

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FRONTIERS MEDIA SA
DOI: 10.3389/fpls.2023.1096772

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miRNA biogenesis; DCL; AGO; microprocessors; Arabidopsis

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In plants, microRNAs (miRNAs) play a role in repressing target gene expression at the post-transcriptional level. They are transcribed by DNA-dependent RNA polymerase II and processed into 21 to 22 nucleotide long sequences. Recent studies have highlighted the interconnectedness and dynamic regulation of miRNA biogenesis. This article summarizes the current understanding of miRNA biogenesis, including gene transcription, pri-miRNA processing, AGO1 loading, nuclear export, as well as miRNA metabolism. It emphasizes the importance of linking different steps and subcellular regulation in plant miRNA biogenesis and function.
In plants, microRNAs (miRNAs) associate with ARGONAUTE (AGO) proteins and act as sequence-specific repressors of target gene expression, at the post-transcriptional level through target transcript cleavage and/or translational inhibition. MiRNAs are mainly transcribed by DNA-dependent RNA polymerase II (POL II) and processed by DICER LIKE1 (DCL1) complex into 21 similar to 22 nucleotide (nt) long. Although the main molecular framework of miRNA biogenesis and modes of action have been established, there are still new requirements continually emerging in the recent years. The studies on the involvement factors in miRNA biogenesis indicate that miRNA biogenesis is not accomplished separately step by step, but is closely linked and dynamically regulated with each other. In this article, we will summarize the current knowledge on miRNA biogenesis, including MIR gene transcription, primary miRNA (pri-miRNA) processing, miRNA AGO1 loading and nuclear export; and miRNA metabolism including methylation, uridylation and turnover. We will describe how miRNAs are produced and how the different steps are regulated. We hope to raise awareness that the linkage between different steps and the subcellular regulation are becoming important for the understanding of plant miRNA biogenesis and modes of action.

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