Genome-wide identification and transcriptional profiling analysis of PIN/PILS auxin transporter gene families in Panax ginseng
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Objective: Plant hormones act as chemical messengers in the regulation of plant development and metabolism. The production of ginsenosides in Panax hybrid is promoted by auxins that are transported and accumulated by PIN-FORMED (PIN) and PIN-LIKES (PILS) auxin transporters. However, genome-wide studies of PIN/PILS of ginseng are still scarce. In current study, identification and transcriptional profiling of PIN/PILS gene families, as well as their potential relationship with ginsenoside biosynthesis in Panax ginseng were investigated. Methods: PIN/PILS genes in P. ginseng was identified via in silico genome-wide analysis, followed by phylogenetic relationships, gene structure, and protein profiles investigation. Moreover, previously reported RNA-sequence data from various tissues and roots after infection were utilized for PIN/PILS genes expression pattern analysis. The Pearson’s correlation analysis of specific PIN/PILS genes expression level and main ginsenoside contents were taken to reveal the potential relationship between auxin transports and ginsenoside biosynthesis in P. ginseng. Results: A genome-wide search of P. ginseng genome for homologous auxin transporter genes identified a total of 17 PIN and 11 PILS genes. Sequence alignment, putative motif organization, and sub-cellular localization indicated redundant and complementary biological functions of these PIN/PILS genes. Most PIN/PILS genes were differentially expressed in a tissue-specific manner, and showed significant correlations with ginsenoside content correspondingly. Eight auxin transporter genes, including both PIN and PILS subfamily members, were positively correlated with ginsenoside content (cor > 0.60; P-value < 0.05). The expression levels of eleven auxin transporter genes were increased dramatically in the early stage (0?0.5 DPI) after Cylindrocarpon destructans infection, accompanied with various overall expression patterns, implying the dynamic auxin transport in response to biotic stress. Conclusions: Based on the results, we speculate that the accumulation or depletion in temporal or spatial manner of auxin by PIN/PILS transporters involved in the regulation of HMGR activity and subsequent ginsenoside biosynthesis.
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This work was supported by grants from the National Science and Technology Major Project (No. 2018ZX09201-011, 2017ZX09301060-012), the Fundamental Research Funds for the Central Public Welfare Research Institutes (ZXKT17027, ZXKT19027), the National Nature Science Foundation of China (81803672) and the National Key Research and Development Program of China (2017YFC1702100). We sincerely thank He Su, Rui Bai and Xiao-yan Zhang for providing abundance of helpful on data generation and analysis.