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The Phoebe genome sheds light on the evolution of magnoliids

Shipin Chen, Weihong Sun, Yuan-Fang Xiong, Yu-Ting Jiang, Xuedie Liu, Xing‐Yu Liao, Diyang Zhang, Shu-Zhen Jiang, Yu Li, Bin Liu, Liang Ma, Xia Yu, Li He, Liu B, Jinlin Feng, Lizhen Feng, Yidong Wang, Shuangquan Zou, Si-Ren Lan, Zhong‐Jian Liu

2020Horticulture Research74 citationsDOIOpen Access PDF

Abstract

Abstract Lauraceae includes the genus Phoebe , and the family is linked to the evolution of magnoliids. We sequenced the genome of Phoebe bournei Nanmu. The assembled genome size was 989.19 Mb, with a contig N50 value of 2.05 Mb. A total of 28,198 protein-coding genes were annotated in P. bournei . Whole-genome duplication (WGD) analysis showed that Lauraceae has experienced two WGD events; the older WGD event occurred just before the divergence of Lauraceae and Magnoliales, and the more recent WGD was shared by all lineages of Lauraceae. The phylogenetic tree showed that magnoliids form a sister clade to monocots and eudicots. We also identified 63 MADS-box genes, including AGL12 -like genes that may be related to the regulation of P. bournei roots and FIN219 -like genes encoding GH3 proteins, which are involved in photomorphogenesis. SAUR50 -like genes involved in light signal-mediated pedicel or stem development were also identified. Four ATMYB46- and three PtrEPSP -homologous genes related to lignin biosynthesis were identified. These genes may be associated with the formation of straight trunks in P. bournei . Overall, the P. bournei reference genome provides insight into the origin, evolution, and diversification of Phoebe and other magnoliids.

Topics & Concepts

BiologyGenomeGeneGymnospermPhylogenetic treeCladeEvolutionary biologyLauraceaeGeneticsBotanyPlant Diversity and EvolutionGenomics and Phylogenetic StudiesPlant and Fungal Species Descriptions