The chromosome-level genome assembly of Cananga odorata provides insights into its evolution and terpenoid biosynthesis
First Author: |
Zheng, Yan |
Abstract: |
center dot Cananga odorata is known as a natural perfume tree of the Annonaceae family in Magnoliales. However, its phylogenetic position and the molecular mechanisms involved in the biosynthesis of the floral volatile organic compounds (VOCs) remain unclear. center dot Here, by combining a variety of sequencing platforms, we present a telomere-to-telomere (T2T) genome of C. odorata with 735.83 Mb, which represents the highest integrity and assembly quality of genome in magnoliid plants reported to date. Phylogenetic analysis based on multiple datasets and approaches showed that C. odorata, as a member of magnoliids, is sister to eudicots, after their divergence from monocots. center dot Metabolomic of VOCs in the essential oil and flowers scent showed that sesquiterpenes, especially beta-caryophyllene, were the major compounds. Two CoTPS21 homologues derived from tandem duplication events were highly expressed during flower development and were identified as the key sesquiterpene synthases for the production of beta-caryophyllene. In addition, CoSPL3 and CoSPL9 were considered as potential transcription factors for activating the expression of CoTPS21 homologues. center dot Our results shed light on the molecular mechanisms underlying the biosynthesis of the unique floral fragrance in C. odorata and provide new insights into the phylogenetic position of magnoliids. |
Contact the author: |
Yang, YQ; Kong, XX; Yang, YP |
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8.3 |
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PubYear: |
2024 |
Volume: |
243 |
Publication Name: |
NEW PHYTOLOGIST |
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