The chromosome-level genomes of the herbal magnoliids Warburgia ugandensis and Saururus chinensis

Liuming Luo; Dongming Fang; Fang Wang; Qiongqiong Lin; Sunil Kumar Sahu; Yali Song; Jingmin Kang; Xuanmin Guang; Min Liu; Shixiao Luo; Gang Hao; Huan Liu; Xing Guo

doi:10.1038/s41597-024-03229-9

Scientific Data (May 2024)

The chromosome-level genomes of the herbal magnoliids Warburgia ugandensis and Saururus chinensis

Liuming Luo,
Dongming Fang,
Fang Wang,
Qiongqiong Lin,
Sunil Kumar Sahu,
Yali Song,
Jingmin Kang,
Xuanmin Guang,
Min Liu,
Shixiao Luo,
Gang Hao,
Huan Liu,
Xing Guo

Affiliations

Liuming Luo: College of Life Science, South China Agricultural University
Dongming Fang: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Fang Wang: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Qiongqiong Lin: College of Life Science, South China Agricultural University
Sunil Kumar Sahu: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Yali Song: BGI Research
Jingmin Kang: BGI Research
Xuanmin Guang: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Min Liu: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Shixiao Luo: Key Laboratory of Plant Resources Conservation and Sustainable Utilization, South China Botanical Garden, Chinese Academy of Sciences
Gang Hao: College of Life Science, South China Agricultural University
Huan Liu: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research
Xing Guo: State Key Laboratory of Agricultural Genomics, Key Laboratory of Genomics, Ministry of Agriculture, BGI Research

DOI: https://doi.org/10.1038/s41597-024-03229-9
Journal volume & issue: Vol. 11, no. 1
pp. 1 – 10

Abstract

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Warburgia ugandensis and Saururus chinensis are two of the most important medicinal plants in magnoliids and are widely utilized in traditional Kenya and Chinese medicine, respectively. The absence of higher-quality reference genomes has hindered research on the medicinal compound biosynthesis mechanisms of these plants. We report the chromosome-level genome assemblies of W. ugandensis and S. chinensis, and generated 1.13 Gb and 0.53 Gb genomes from 74 and 27 scaffolds, respectively, using BGI-DIPSEQ, Nanopore, and Hi-C sequencing. The scaffold N50 lengths were 82.97 Mb and 48.53 Mb, and the assemblies were anchored to 14 and 11 chromosomes of W. ugandensis and S. chinensis, respectively. In total, 24,739 and 20,561 genes were annotated, and 98.5% and 98% of the BUSCO genes were fully represented, respectively. The chromosome-level genomes of W. ugandensis and S. chinensis will be valuable resources for understanding the genetics of these medicinal plants, studying the evolution of magnoliids and angiosperms and conserving plant genetic resources.

Published in Scientific Data

ISSN: 2052-4463 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/sdata/

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