Transcriptional profiling of long noncoding RNAs associated with flower color formation in Ipomoea nil.

Abstract

LncRNAs regulate flower color formation in Ipomoea nil via vacuolar pH, TCA cycle, and oxidative phosphorylation pathways. The significance of long noncoding RNA (lncRNA) in diverse biological processes is crucial in plant kingdoms. Although study on lncRNAs has been extensive in mammals and model plants, lncRNAs have not been identified in Ipomoea nil (I. nil). In this study, we employed whole transcriptome strand-specific RNA sequencing to identify 11,203 expressed lncRNA candidates, including 961 known lncRNA and 10,242 novel lncRNA in the I. nil genome. These lncRNAs in I. nil had fewer exons and were generally shorter in length compared to mRNA genes. Totally, 1141 different expression lncRNAs (DELs) were significantly identified between white and red flowers. The functional analysis indicated that lncRNA-targeted genes were enriched in the TCA cycle, photosynthesis, and oxidative phosphorylation-related pathway, which was also found in differentially expressed genes (DEGs) functional enrichments. LncRNAs can regulate transcriptional levels through cis- or trans-acting mechanisms. LncRNA cis-targeted genes were significantly enriched in potassium and lysosome. For trans-lncRNA, two energy metabolism pathways, TCA cycles and oxidative phosphorylation, were identified from positive association pairs of trans-lncRNA and mRNA. This research advances our understanding of lncRNAs and their role in flower color development, providing valuable insights for future selective breeding of I. nil.