Abstract
Heterosis is an important biological phenomenon; however, the role of small RNA (sRNA) in heterosis of hybrid rice remains poorly described. Here, we performed sRNA profiling of F1 super-hybrid rice LYP9 and its parents using high-throughput sequencing technology, and identified 355 distinct mature microRNAs and trans-acting small interfering RNAs, 69 of which were differentially expressed sRNAs (DES) between the hybrid and the mid-parental value. Among these, 34 DES were predicted to target 176 transcripts, of which 112 encoded 94 transcription factors. Further analysis showed that 67.6% of DES expression levels were negatively correlated with their target mRNAs either in flag leaves or panicles. The target genes of DES were significantly enriched in some important biological processes, including the auxin signalling pathway, in which existed a regulatory network mediated by DES and their targets, closely associated with plant growth and development. Overall, 20.8% of DES and their target genes were significantly enriched in quantitative trait loci of small intervals related to important rice agronomic traits including growth vigour, grain yield, and plant architecture, suggesting that the interaction between sRNAs and their targets contributes to the heterotic phenotypes of hybrid rice. Our findings revealed that sRNAs might play important roles in hybrid vigour of super-hybrid rice by regulating their target genes, especially in controlling the auxin signalling pathway. The above finding provides a novel insight into the molecular mechanism of heterosis.
Highlights
Heterosis, or hybrid vigour, is the superior performance of hybrids in biomass, resistance, and fertility compared with their parents (Shull, 1908; Bruce, 1910)
Our findings revealed that small RNA (sRNA) might play important roles in hybrid vigour of super-hybrid rice by regulating their target genes, especially in controlling the auxin signalling pathway
The role of the interaction between miRNAs/ta-small interfering RNA (siRNA) and their targets in heterosis is still poorly described in hybrid rice
Summary
Hybrid vigour, is the superior performance of hybrids in biomass, resistance, and fertility compared with their parents (Shull, 1908; Bruce, 1910). Heterosis has been widely applied in the breeding of agricultural crops, and its underlying mechanism has been studied for over 100 years (Darwin, 1876). Hybrid rice is one of the most successful examples taking advantage of heterosis in crop breeding. Recent statistics showed that the planting area of hybrid rice accounts for more than 50% of the total rice area in China (Cheng et al, 2007), further indicating that hybrid rice plays an important role in international food security by increasing grain yield. There is an urgent need to explore the molecular mechanisms associated with heterosis, to provide a foundation for further utilization of heterosis. There are many databases and Abbreviations: AGO, Argonaute; ARF, auxin response factor; CHP, close to higher parent; CLP, close to lower parent; DES, differentially expressed sRNA; DG, differentially expressed gene; FDR, false discovery rate; GO, Gene Ontology; H2P, higher than two parents; L2P, lower than two parents; miRNA, microRNA; MPV, mid-parental value; NAT, natural antisense transcripts; nat-siRNA, natural antisense transcripts-generated siRNA; ncRNA, non-coding RNA; PIF, phytochrome interacting factor; qRT-PCR, quantitative reverse transcription-PCR; QTL, quantitative trait loci; ra-siRNA, repeat-associated siRNA; RPKM, reads per kilobase transcriptome per million mapped reads; RPM, reads per million mapped reads; rRNA, ribosomal RNA; snoRNA, small nucleolar RNA; snRNA, small nuclear RNA; siRNA, small interfering RNA; sRNA, small RNA; ta-siRNA, trans-acting siRNA; TF, transcription factor
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