The Arabidopsis MOS4-Associated Complex Promotes MicroRNA Biogenesis and Precursor Messenger RNA Splicing

Jia, Tianran; Zhang, Bailong; You, Chenjiang; Zhang, Yong; Zeng, Liping; Li, Shengjun; Johnson, Kaeli C. M.; Yu, Bin; Li, Xin; Chen, Xuemei

doi:10.1105/tpc.17.00370

Cited by 90 publications

(119 citation statements)

References 86 publications

(146 reference statements)

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“…The Nuclear Cap‐Binding Complex, which affects many RNA‐related processes, including miRNA biogenesis, also responds to a wide variety of environmental conditions, processes recently reviewed by Daszkowska‐Golec (). The proteins of the MOS4‐associated complex (MAC) CDC5, PRL1 and MAC7, which interact with DCL1/SE, pri‐miRNAs and HYL1, respectively, are responsive to different stresses where they have important roles (Zhang et al ., , 2014a; Jia et al ., ). Interestingly, most of these cofactors only seem to affect subpopulations of miRNAs.…”

Section: Environmental Regulation Of the Mirna Biogenesis Machinerymentioning

confidence: 97%

“…Being able to interact with both Pol II and DCL1, the Elongator complex might facilitate the establishment of a processing complex during transcription (Fang et al ., 2015a). Similar functions have been attributed to components of the MOS4‐associated complex (Zhang et al ., , 2014a; Jia et al ., ; Li et al ., ), a general factor that associates with the spliceosome and is conserved in plants and animals (Koncz et al ., ). After these initial events of transcription and recruitment of factors to the nascent primary transcript, the miRNA processing machinery needs to cut the stem‐loop precursor to release the small RNA.…”

Section: Microrna Processing In Plantsmentioning

confidence: 99%

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Keep calm and carry on: miRNA biogenesis under stress

2019

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Summary MicroRNAs (miRNAs) are major post‐transcriptional regulators of gene expression. Their biogenesis relies on the cleavage of longer precursors by a nuclear localized processing machinery. The evolutionary preference of plant miRNAs to silence transcription factors turned these small molecules into key actors during growth and adaptive responses. Furthermore, during their life cycle plants are subject to changes in the environmental conditions surrounding them. In order to face these changes, plants display unique adaptive capacities based on an enormous developmental plasticity, where miRNAs play central roles. Many individual miRNAs have been shown to modulate the plant response to different environmental cues and stresses. In the last few years, increasing evidence has shown that not only individual genes encoding miRNAs but also the miRNA pathway as a whole is subject to regulation in response to external stimulus. In this review, we discuss the current knowledge about the miRNA pathway. We dissect the pathway to analyze the events leading to the generation of these small RNAs and emphasize the regulation of core components of the miRNA biogenesis machinery.

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Section: Environmental Regulation Of the Mirna Biogenesis Machinerymentioning

confidence: 97%

Section: Microrna Processing In Plantsmentioning

confidence: 99%

Keep calm and carry on: miRNA biogenesis under stress

2019

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“…A forkhead domain containing protein named Dawdle (DDL) is another RNA binding protein that affects miRNA accumulation by interacting with phosphorylated DCL1 and pri-miRNA, helping in the recruitment to miRNA processing complex (Yu et al, 2008;Machida and Adam Yuan, 2013). The NOT2 and MOS4-associated complex (MAC) complex members -CDC5 and PRL1 interact with components of miRNA biogenesis such as DCL1, SE, HYL1 and CBP20/80 Zhang et al, 2014Zhang et al, , 2013Jia et al, 2017). Since these components couple transcription and processing, probably these are involved in assembly of dicing bodies and recruiting pri-miRNAs to the site of primiRNA processing.…”

Section: Post-transcriptional Processing Of Pri-mirna Transcriptmentioning

confidence: 99%

Regulation of Plant miRNA Biogenesis

Anushree¹,

Shivaprasad

2017

Proceedings of the Indian National Science Academy

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Micro (mi)RNAs are small regulatory RNA molecules involved in post-transcriptional silencing of their target mRNAs. In plants, these miRNAs target mRNAs coding for transcription factors and key regulators, thus modulating plant development, defence, and metabolic processes. miRNAs mostly originate from MIR genes that are transcribed to long primary (pri)miRNA transcripts by Pol II. These pri-miRNA transcripts fold-back to give rise to specific stem-loop structures that are cleaved by Dicer-like (DCL) proteins to Pre-miRNA intermediates. Pre-miRNAs are precisely processed into mature miRNA/miRNA* duplex of 20-22-nt length by DCL1 with the help of few accessory proteins. It is not known why only one or rarely more than one miRNA results from these long dsRNA precursors. In this review, we discuss recent studies including our unpublished work on structural and sequence determinants of plant miRNAs that distinguish them from their precursor regions. These determinants play a major role in accurate and precise dicing of miRNAs from their precursors, thus contributing to abundance and stability of mature miRNAs.

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“…In splicing, MAC interacts with Pol II and facilitates splicing by interacting with the spliceosome. (Reprinted from Jia et al [2017] The Plant Cell, Vol. 29: 2316-2317, October 2017, www.plantcell.org 2017 confirmed that MAC7 interacts with CDC5 and (weakly) with PRL1, but MAC7 showed no interaction with HYL1 or DCL1.…”

mentioning

confidence: 99%

“…To explore miRNA biogenesis in Arabidopsis, Jia et al (2017) screened for mutants with decreased miRNA activity in plants containing a construct that produces an artificial miRNA targeting CHLORINA42; silencing of CHLORINA42 produces bleaching along the leaf veins and mutants with decreased silencing show less bleaching (de Felippes et al, 2011). They identified a mutation in MAC7 as one of the mutants that suppressed silencing.…”

mentioning

confidence: 99%

Making Connections: MAC Function in Splicing and MicroRNA Biogenesis

Mach

2017

Plant Cell

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The Arabidopsis MOS4-Associated Complex Promotes MicroRNA Biogenesis and Precursor Messenger RNA Splicing

Cited by 90 publications

References 86 publications

Keep calm and carry on: miRNA biogenesis under stress

Keep calm and carry on: miRNA biogenesis under stress

Regulation of Plant miRNA Biogenesis

Making Connections: MAC Function in Splicing and MicroRNA Biogenesis

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