RESUMO
ObjectiveCYP71 gene family is one of the CYP71 clans belonging to cytochrome P450, which plays an important role in secondary metabolites, especially terpenoid biosynthesis. To understand the characteristics of CYP71 family of diploid Perilla frutescens and predict its function, this study identified and systematically analyzed the family by bioinformatics. MethodOn the basis of the whole genome of diploid P. frutescens PC99, the conserved domains of CYP71 family of diploid P. frutescens were screened, and the sequence characteristics, gene structure, chromosome location, phylogeny and cis-acting elements were analyzed by National Center for Biotechnology Information (NCBI), TBtools, MEME, Molecular Evolutionary Genetics Analysis (MEGA), Cytoscape and other tools. ResultA total of 68 CYP71 genes were identified from diploid P. frutescens, which were unevenly distributed on 34 chromosomes and belonged to two subfamilies. They encoded 481-530 amino acids and contained 10 conserved motifs, with the isoelectric point of 5.70-9.03 and the molecular weight of 54 217.07-60 031.79 Da. The enrichment analysis and functional annotation analysis revealed 11 enriched pathways and 114 categories, and the genes were mainly annotated in biological processes. There were many cis-acting elements in the promoter region of CYP71, mainly light-responsive and methyl jasmonate-responsive elements. Protein-protein interaction analysis indicated that CYP71 protein had multiple functions such as terpene cyclase activity. ConclusionThis study lays a foundation for the functional study of CYP71 family, and provides a reference for the biosynthesis of monoterpenes in P. frutescens and the directional cultivation of excellent varieties.
RESUMO
Objective: Trying to find the ways to enhance the expression of cyp71av1 gene encoding cytochrome P450 mono-oxygenase which is a key enzyme in artemisinin biosynthesis pathway accelerating the artemisinin synthesis, the promoter of cyp71av1 was isolated and characterized. Methods: 5′ untranslated regions of cyp71av1 were isolated from Artemisia annua with thermal asymmetric interlaced PCR. For functional characterization, the isolated fragments were fused with β-glucuronidase GUS reporter gene and introduced into Nicotiana tabacum by Agrobacterium-mediated transformation. The GUS expression regulated by 5′ untranslated regions of cyp71av1 in transgenic N. tabacum under the normal or stressed conditions were detected by histochemical staining and quantitative spectrophotometry assay. Results: Two DNA fragments upstream of cyp71av1 coding sequence, a long fragment and a truncated fragment, were isolated from A. annua and introduced into N. tabacum respectively. Histochemical staining showed that two isolated fragments confered stable GUS expression in transgenic plants, and no significant difference was found between the two fragments on the GUS activity. The quantitative results also showed that the GUS activity in transgenic tobacco plants treated by dehydration, low-temperature (4 °C), and ultraviolet irradiation were 1.4 to 2.7 folds higher than that in the controls. Conclusion: It suggests that the isolated fragments has promoter activity and may be responsive to adverse environmental stresses.