Multiple RNA recognition patterns during microRNA biogenesis in plants.
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Bioinformatics Study of Structural Patterns in Plant MicroRNA PrecursorsRegulation of pri-miRNA processing by the hnRNP-like protein AtGRP7 in Arabidopsis.Homodimerization of HYL1 ensures the correct selection of cleavage sites in primary miRNA.The liverwort Pellia endiviifolia shares microtranscriptomic traits that are common to green algae and land plantsAsymmetric bulges and mismatches determine 20-nt microRNA formation in plants.Structural determinants of miR156a precursor processing in temperature-responsive flowering in ArabidopsisBase-pair opening dynamics of primary miR156a using NMR elucidates structural determinants important for its processing level and leaf number phenotype in Arabidopsis.New insights into pri-miRNA processing and accumulation in plants.Long noncoding miRNA gene represses wheat β-diketone waxes.microRNA/microRNA* complementarity is important for the regulation pattern of NFYA5 by miR169 under dehydration shock in Arabidopsis.STV1, a ribosomal protein, binds primary microRNA transcripts to promote their interaction with the processing complex in Arabidopsis.Posttranscriptional coordination of splicing and miRNA biogenesis in plants.Messages on small RNA duplexes in plants.Bioinformatics Analysis of Small RNA Transcriptomes: The Detailed Workflow.Global Analysis of Truncated RNA Ends Reveals New Insights into Ribosome Stalling in Plants.Citrus psorosis virus 24K protein interacts with citrus miRNA precursors, affects their processing and subsequent miRNA accumulation and target expression.Proximal disruption of base pairing of the second stem in the upper stem of pri-miR156a caused ambient temperature-sensitive flowering in Arabidopsis.Distinct transcriptional and processing regulations control miR167a level in tomato during stress.MicroRNA-like RNAs from the same miRNA precursors play a role in cassava chilling responses.Evolutionary Footprints Reveal Insights into Plant MicroRNA Biogenesis.Elongated Hypocotyl 5-Homolog (HYH) Negatively Regulates Expression of the Ambient Temperature-Responsive MicroRNA Gene MIR169.RNA-binding protein immunoprecipitation as a tool to investigate plant miRNA processing interference by regulatory proteins of diverse origin.Revisiting criteria for plant miRNA annotation in the era of big data.MAC3A and MAC3B, Two Core Subunits of the MOS4-Associated Complex, Positively Influence miRNA Biogenesis.New Era of Studying RNA Secondary Structure and Its Influence on Gene Regulation in Plants.Efficiency and precision of microRNA biogenesis modes in plantsAlternative processing of its precursor is related to miR319 decreasing in melon plants exposed to coldPlant microRNAs: Recent Advances and Future Challenges
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P2860
Multiple RNA recognition patterns during microRNA biogenesis in plants.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on 29 August 2013
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@en
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@nl
type
label
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@en
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@nl
prefLabel
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@en
Multiple RNA recognition patterns during microRNA biogenesis in plants.
@nl
P2860
P50
P356
P1433
P1476
Multiple RNA recognition patterns during microRNA biogenesis in plants
@en
P2093
Arnaldo L Schapire
Javier F Palatnik
P2860
P304
P356
10.1101/GR.153387.112
P577
2013-08-29T00:00:00Z