Edgardo G. Bresso scite author profile

The first step in microRNA (miRNA) biogenesis usually involves cleavage at the base of its fold-back precursor. Here, we describe a non-canonical processing mechanism for miRNAs miR319 and miR159 in Arabidopsis thaliana. We found that their biogenesis begins with the cleavage of the loop, instead of the usual cut at the base of the stemloop structure. DICER-LIKE 1 (DCL1) proceeds then with three additional cuts until the mature miRNA is released. We further show that the conserved upper stem of the miR319 precursor is essential to organize its biogenesis, whereas sequences below the miRNA/miRNA* region are dispensable. In addition, the bulges present in the fold-back structure reduce the accumulation of small RNAs other than the miRNA. The biogenesis of miR319 is conserved in the moss Physcomitrella patens, showing that this processing mechanism is ancient. These results provide new insights into the plasticity of small-RNA pathways.

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Repression of Cell Proliferation by miR319-Regulated TCP4

Schommer

et al. 2014

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Leaf development has been extensively studied on a genetic level. However, little is known about the interplay between the developmental regulators and the cell cycle machinery--a link that ultimately affects leaf form and size. miR319 is a conserved microRNA that regulates TCP transcription factors involved in multiple developmental pathways, including leaf development and senescence, organ curvature, and hormone biosynthesis and signaling. Here, we analyze the participation of TCP4 in the control of cell proliferation. A small increase in TCP4 activity has an immediate impact on leaf cell number, by significantly reducing cell proliferation. Plants with high TCP4 levels have a strong reduction in the expression of genes known to be active in G2-M phase of the cell cycle. Part of these effects is mediated by induction of miR396, which represses Growth-Regulating Factor (GRF) transcription factors. Detailed analysis revealed TCP4 to be a direct regulator of MIR396b. However, we found that TCP4 can control cell proliferation through additional pathways, and we identified a direct connection between TCP4 and ICK1/KRP1, a gene involved in the progression of the cell cycle. Our results show that TCP4 can activate different pathways that repress cell proliferation.

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Spatial Control of Gene Expression by miR319-Regulated TCP Transcription Factors in Leaf Development

et al. 2017

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The characteristic leaf shapes we see in all plants are in good part the outcome of the combined action of several transcription factor networks that translate into cell division activity during the early development of the organ. We show here that wild-type leaves have distinct transcriptomic profiles in center and marginal regions. Certain transcripts are enriched in margins, including those of -like ( and ) and members of the and gene families. We study in detail the contribution of microRNA319 (miR319)-regulated TCP transcription factors to the development of the center and marginal regions of Arabidopsis () leaves. We compare in molecular analyses the wild type, the mutant that has enlarged flat leaves, and the mutant with strongly crinkled leaves. The different leaf domains of the mutants show changed expression patterns for many photosynthesis-related genes, indicating delayed differentiation, especially in the marginal parts of the organ. At the same time, we found an up-regulation of cyclin genes and other genes that are known to participate in cell division, specifically in the marginal regions of Using GUS reporter constructs, we confirmed extended mitotic activity in the leaf, which persisted in small defined foci in the margins when the mitotic activity had already ceased in wild-type leaves. Our results describe the role of miR319-regulated TCP transcription factors in the coordination of activities in different leaf domains during organ development.

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Edgardo G. Bresso

A loop-to-base processing mechanism underlies the biogenesis of plant microRNAs miR319 and miR159

Repression of Cell Proliferation by miR319-Regulated TCP4

Spatial Control of Gene Expression by miR319-Regulated TCP Transcription Factors in Leaf Development

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