Abstract
BackgroundThe root systems play essential roles for plants to anchorage to the soil, and to exploit the mineral and water resources. The molecular mechanisms underlying root development have been extensively studied to improve root system architecture, especially for the crops. Several microRNA (miRNA) families have been demonstrated to be involved in plant root development. However, whether the other small RNA (sRNA) species, which occupy a dominant portion of the plant endogenous sRNA population, possess potential roles in root development remains unclear.ResultsIn this study, by using sRNA high-throughput sequencing data, we made a comparison of the sRNA accumulation levels between the rice root tips and the whole roots. The sRNAs highly accumulated in the root tips and in the whole roots were extracted respectively. After Argonaute 1 (AGO1) enrichment analysis, the sRNAs with great potential of performing target cleavages were included for target prediction and degradome sequencing data-based validation. As a result, lists of the targets regulated by the AGO1-enriched sRNAs were obtained for both the root tips and the whole roots. Further evidences were identified from microarray data of the target genes to support some of the sRNA—target interactions. Specifically, the expression patterns of certain target genes in the root tips and the whole roots were contrary to those of the regulating sRNAs. Besides, several targets were indicated to play important roles in root development based on literature mining.ConclusionsTaken together, the regulatory networks mediated by the sRNAs highly accumulated in the root tips or in the whole roots could advance our current understanding of the sRNA-involved molecular mechanisms underlying rice root development. And, the sRNA—target lists could serve as the basis for further functional investigations.
Highlights
The root systems play essential roles for plants to anchorage to the soil, and to exploit the mineral and water resources
We made a comparison of the small RNA (sRNA) accumulation levels between the two biological samples to identify the sRNAs highly accumulated in the root tips and in the whole roots respectively
Identification of the sRNAs highly accumulated in the root tips or in the whole roots of rice We took advantage of the public sRNA high-throughput sequencing (HTS) data of rice
Summary
The root systems play essential roles for plants to anchorage to the soil, and to exploit the mineral and water resources. Since the root system architecture greatly affects the efficiency of nutrient and water absorption, the molecular factors influencing root development have been extensively investigated in order to MicroRNAs (miRNAs), a small RNA (sRNA) species, were identified to be involved in various biological processes of plants during the past ten years [3,4]. MiR164-mediated regulation of NAM/ATAF/CUC 1 (NAC1) is involved in Arabidopsis lateral root development through downregulating auxin signals [8]. Both miR160 and miR167 play important roles in adventitious rooting in Arabidopsis [9]. Literature mining indicated that certain target genes played potential roles in root development These evidences indicate the reliability of the networks. Our results could advance the current understanding of the regulatory roles of the sRNAs, in addition to the miRNAs, in plant root growth and development
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