Bonnie Bartel scite author profile

MicroRNAs (miRNAs) are small, endogenous RNAs that regulate gene expression in plants and animals. In plants, these approximately 21-nucleotide RNAs are processed from stem-loop regions of long primary transcripts by a Dicer-like enzyme and are loaded into silencing complexes, where they generally direct cleavage of complementary mRNAs. Although plant miRNAs have some conserved functions extending beyond development, the importance of miRNA-directed gene regulation during plant development is now particularly clear. Identified in plants less than four years ago, miRNAs are already known to play numerous crucial roles at each major stage of development-typically at the cores of gene regulatory networks, targeting genes that are themselves regulators, such as those encoding transcription factors and F-box proteins.

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Auxin: Regulation, Action, and Interaction

Woodward

2005

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Prediction of Plant MicroRNA Targets

Rhoades

Reinhart

Lim

et al. 2002

Cell

2,028

1,502

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We predict regulatory targets for 14 Arabidopsis microRNAs (miRNAs) by identifying mRNAs with near complementarity. Complementary sites within predicted targets are conserved in rice. Of the 49 predicted targets, 34 are members of transcription factor gene families involved in developmental patterning or cell differentiation. The near-perfect complementarity between plant miRNAs and their targets suggests that many plant miRNAs act similarly to small interfering RNAs and direct mRNA cleavage. The targeting of developmental transcription factors suggests that many plant miRNAs function during cellular differentiation to clear key regulatory transcripts from daughter cell lineages.

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MicroRNAs in plants

Reinhart¹,

Weinstein²,

Rhoades³

et al. 2002

Genes Dev.

1,854

1,416

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MicroRNAs (miRNAs) are an extensive class of ∼22-nucleotide noncoding RNAs thought to regulate gene expression in metazoans. We find that miRNAs are also present in plants, indicating that this class of noncoding RNA arose early in eukaryotic evolution. In this paper 16 Arabidopsis miRNAs are described, many of which have differential expression patterns in development. Eight are absolutely conserved in the rice genome. The plant miRNA loci potentially encode stem-loop precursors similar to those processed by Dicer (a ribonuclease III) in animals. Mutation of an Arabidopsis Dicer homolog, CARPEL FACTORY, prevents the accumulation of miRNAs, showing that similar mechanisms direct miRNA processing in plants and animals. The previously described roles of CARPEL FACTORY in the development of Arabidopsis embryos, leaves, and floral meristems suggest that the miRNAs could play regulatory roles in the development of plants as well as animals.

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Criteria for Annotation of Plant MicroRNAs

et al. 2008

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MicroRNAs (miRNAs) are ;21 nucleotide noncoding RNAs produced by Dicer-catalyzed excision from stem-loop precursors. Many plant miRNAs play critical roles in development, nutrient homeostasis, abiotic stress responses, and pathogen responses via interactions with specific target mRNAs. miRNAs are not the only Dicer-derived small RNAs produced by plants: A substantial amount of the total small RNA abundance and an overwhelming amount of small RNA sequence diversity is contributed by distinct classes of 21-to 24-nucleotide short interfering RNAs. This fact, coupled with the rapidly increasing rate of plant small RNA discovery, demands an increased rigor in miRNA annotations. Herein, we update the specific criteria required for the annotation of plant miRNAs, including experimental and computational data, as well as refinements to standard nomenclature.

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A uniform system for microRNA annotation

Ambros¹,

Bartel²,

Bartel³

et al. 2003

RNA

1,605

1,015

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MicroRNAs (miRNAs) are small noncoding RNA gene products about 22 nt long that are processed by Dicer from precursors with a characteristic hairpin secondary structure. Guidelines are presented for the identification and annotation of new miRNAs from diverse organisms, particularly so that miRNAs can be reliably distinguished from other RNAs such as small interfering RNAs. We describe specific criteria for the experimental verification of miRNAs, and conventions for naming miRNAs and miRNA genes. Finally, an online clearinghouse for miRNA gene name assignments is provided by the Rfam database of RNA families.

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Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

et al. 2021

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Bonnie Bartel

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

MicroRNAs AND THEIR REGULATORY ROLES IN PLANTS

Auxin: Regulation, Action, and Interaction

Prediction of Plant MicroRNA Targets

MicroRNAs in plants

Criteria for Annotation of Plant MicroRNAs

A uniform system for microRNA annotation

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

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Product

Resources

About

Bonnie Bartel

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

MicroRNAs AND THEIR REGULATORY ROLES IN PLANTS

Auxin: Regulation, Action, and Interaction

Prediction of Plant MicroRNA Targets

MicroRNAs in plants

Criteria for Annotation of Plant MicroRNAs

A uniform system for microRNA annotation

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹