iScience (Sep 2021)

The chromosome-scale genome of Magnolia officinalis provides insight into the evolutionary position of magnoliids

  • Yanpeng Yin,
  • Fu Peng,
  • Luojing Zhou,
  • Xianmei Yin,
  • Junren Chen,
  • Hongjin Zhong,
  • Feixia Hou,
  • Xiaofang Xie,
  • Li Wang,
  • Xiaodong Shi,
  • Bo Ren,
  • Jin Pei,
  • Cheng Peng,
  • Jihai Gao

Journal volume & issue
Vol. 24, no. 9
p. 102997

Abstract

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Summary: Magnolia officinalis, a representative tall aromatic tree of the Magnoliaceae family, is a medicinal plant that is widely used in diverse industries from medicine to cosmetics. We report a chromosome-scale draft genome of M. officinalis, in which ∼99.66% of the sequences were anchored onto 19 chromosomes with the scaffold N50 of 76.62 Mb. We found that a high proportion of repetitive sequences was a common feature of three Magnoliaceae with known genomic data. Magnoliids were a sister clade to eudicots-monocots, which provided more support for understanding the phylogenetic position among angiosperms. An ancient duplication event occurred in the genome of M. officinalis and was shared with Lauraceae. Based on RNA-seq analysis, we identified several key enzyme-coding gene families associated with the biosynthesis of lignans in the genome. The construction of the M. officinalis genome sequence will serve as a reference for further studies of Magnolia, as well as other Magnoliaceae.

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