Abstract
Liriodendron chinense is an economically and ecologically important deciduous tree species. Although the reference genome has been revealed, alternative polyadenylation (APA), transcription factors (TFs), long non-coding RNAs (lncRNAs), and co-expression networks of tissue-specific genes remain incompletely annotated. In this study, we used the bracts, petals, sepals, stamens, pistils, leaves, and shoot apex of L. chinense as materials for hybrid sequencing. On the one hand, we improved the annotation of the genome. We detected 13,139 novel genes, 7,527 lncRNAs, 1,791 TFs, and 6,721 genes with APA sites. On the other hand, we found that tissue-specific genes play a significant role in maintaining tissue characteristics. In total, 2,040 tissue-specific genes were identified, among which 9.2% of tissue-specific genes were affected by APA, and 1,809 tissue-specific genes were represented in seven specific co-expression modules. We also found that bract-specific hub genes were associated plant defense, leaf-specific hub genes were involved in energy metabolism. Moreover, we also found that a stamen-specific hub TF Lchi25777 may be involved in the determination of stamen identity, and a shoot-apex-specific hub TF Lchi05072 may participate in maintaining meristem characteristic. Our study provides a landscape of APA, lncRNAs, TFs, and tissue-specific gene co-expression networks in L. chinense that will improve genome annotation, strengthen our understanding of transcriptome complexity, and drive further research into the regulatory mechanisms of tissue-specific genes.
Highlights
Liriodendron chinense (L. chinense) is a deciduous tree species in the magnolia family (Magnoliaceae), which has desirable flowers and leaves with a unique shape
Our study revealed the effects of alternative polyadenylation (APA) on L. chinense, providing a landscape of long non-coding RNAs (lncRNAs) and transcription factors (TFs), and uncovering the co-expression networks of tissue-specific genes
The reads were polished with both iterative clustering for error correction (ICE), resulting in 227,276 polished consensus reads whose average length was 2,697 bp
Summary
Liriodendron chinense (L. chinense) is a deciduous tree species in the magnolia family (Magnoliaceae), which has desirable flowers and leaves with a unique shape. Changes in the UTR length may affect mRNA stability, translation efficiency, or subcellular localization because UTRs usually harbor the target sites of microRNAs (miRNAs), RNA binding proteins, and other functional non-coding RNAs, and changes in the UTR length may lead to the gain or loss of these target sites (Chen et al, 2017b; Mayya and Duchaine, 2019; Zhang et al, 2020). These changes eventually affect the physiological and biochemical processes of plants. APA is a crucial post-transcriptional regulatory mechanism, it has not been unveiled in L. chinense
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