Barley long non-coding RNAs (lncRNA) responsive to excess boron

Abstract

Long non-coding RNA (lncRNA) has a misleading name, since although they do not encode proteins, they may encode small peptides. Such transcripts are emerging as regulatory molecules. With the advent of next-generation sequencing technologies and novel bioinformatics tools, a tremendous amount of lncRNAs have been identified in several plant species. Recent reports demonstrated roles of plant lncRNAs such as development and environmental response. Here, we reported a genome-wide discovery of ~8000 barley lncRNAs and measured their expression pattern upon excessive boron (B) treatment. According to the tissue-based comparison, leaves have a greater number of B-responsive differentially expressed lncRNAs than the root. Functional annotation of the coding transcripts, which were co-expressed with lncRNAs, revealed that molecular function of the ion transport, establishment of localization, and response to stimulus significantly enriched only in the leaf. On the other hand, 32 barley endogenous target mimics (eTM) as lncRNAs, which potentially decoy the transcriptional suppression activity of 18 miRNAs, were obtained. Also, six lncRNAs, differentially expressed upon B-treatment, were selected and quantitatively analyzed in both B-sensitive and B-tolerant cultivars treated by excess B-level. Quantitative real-time polymerase chain reaction (qRT-PCR) analysis confirmed the B-responsive expressional changes obtained by RNA sequencing. Notably, some lncRNAs (i.e., TCONS_00045190 and TCONS_00056415) over-expressed only in B-tolerant cultivar upon excess B treatment. Presented data including identification, expression measurement, and functional characterization of barley lncRNAs suggest that B-stress response might also be regulated by lncRNA expression, via cooperative interaction of miRNA-eTM-coding target transcript modules.