Multi-algorithm cooperation comprehensive research of bZIP genes under nitrogen stress in Panax notoginseng

•The first report on the bZIP evolution of Panax notoginseng.•Collinearity analysis and duplication events of PnbZIP genes were investigated.•The cis-acting elements of PnbZIP gene promoters were predicted.•Expression patterns of PnbZIP genes were different in diverse plant tissues.•bZIP genes were...

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Bibliographic Details
Published in:Gene 2022-10, Vol.841, p.146768-146768, Article 146768
Main Authors: Mao, Yucheng, Chen, Xiang, Yan, Kaijing, Liang, Zongsuo, Xia, Pengguo
Format: Article
Language:English
Subjects:
bZIP genes
Genome
Nitrogen stress
Panax notoginseng
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Summary:•The first report on the bZIP evolution of Panax notoginseng.•Collinearity analysis and duplication events of PnbZIP genes were investigated.•The cis-acting elements of PnbZIP gene promoters were predicted.•Expression patterns of PnbZIP genes were different in diverse plant tissues.•bZIP genes were involved in responsse to NH4+ and NO3− stresses. Basic leucine zipper (bZIP) transcription factors play an irreplaceable position in the regulation of plant secondary metabolism, growth and development, and resistance to abiotic stress. Panax notoginseng is a traditional medicinal plant in China, but the systematic identification and the resistance of Panax notoginseng bZIP (PnbZIP) family under nitrogen stress have not been reported before, considering the excessive application of N fertilizers. In this study, we conducted a genome-wide identification of the PnbZIP family and analyzed its phylogeny, tissue selectivity, and abiotic resistence. 74 PnbZIPs were distributed on 12 chromosomes and 8 were not successfully located. Through phylogenetic analysis of Arabidopsis and Panax notoginseng, we divided them into 14 subgroups. In the same subgroup, bZIPs had similiar intron/exon structure and conserved motifs. In the analysis of chromosome structure, two PnbZIP genes were duplicated in tandem on chromosome 3. Intraspecific collinearity analysis showed that 28 PnbZIPs participated in segmental replication. Each PnbZIP promoter contained at least one stress response element or stress-related hormone response element. RNA-seq and qRT-PCR methods were used to analyze the expression patterns of the PnbZIP gene in different tissues (roots, flowers, and leaves) and under different nitrogen stresses. The results showed that the PnbZIP gene had the highest expression level in flowers and reflected tissue-specific expressions. Meanwhile, under the stress of ammonium nitrogen fertilizer and nitrate nitrogen fertilizer, PnbZIPs in roots were differently expressed. 10 PnbZIP stress-responsive genes were screened for significant expression, among which PnbZIP46 was significantly up-regulated, which could be a candidate gene for resistance to Nitrogen stress. This study laid the foundation for functional identification of PnbZIPs and improved the cultivation of Panax notoginseng.
ISSN:0378-1119
1879-0038
DOI:10.1016/j.gene.2022.146768