Scientific Data (Jul 2024)

Chromosome-level genome assembly of Hippophae rhamnoides variety

  • Xingyu Yang,
  • Shujie Luo,
  • Shihai Yang,
  • Ciren Duoji,
  • Qianwen Wang,
  • Zhiyu Chen,
  • Danni Yang,
  • Tianyu Yang,
  • Xi Wan,
  • Yunqiang Yang,
  • Tianmeng Liu,
  • Yongping Yang

DOI
https://doi.org/10.1038/s41597-024-03549-w
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 8

Abstract

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Abstract Fructus hippophae (Hippophae rhamnoides spp. mongolica×Hippophae rhamnoides sinensis), a hybrid variety of sea buckthorn that Hippophae rhamnoides spp. mongolica serves as the female parent and Hippophae rhamnoides sinensis serves as the male parent, is a traditional plant with great potentials of economic and medical values. Herein, we gained a chromosome-level genome of Fructus hippophae about 918.59 Mb, with the scaffolds N50 reaching 83.65 Mb. Then, we anchored 440 contigs with 97.17% of the total genome sequences onto 12 pseudochromosomes. Next, de-novo, homology and transcriptome assembly strategies were adopted for gene structure prediction. This predicted 36475 protein-coding genes, of which 36226 genes could be functionally annotated. Simultaneously, various strategies were used for quality assessment, both the complete BUSCO value (98.80%) and the mapping rate indicated the high assembly quality. Repetitive elements, which occupied 63.68% of the genome, and 1483600 bp of non-coding RNA were annotated. Here, we provide genomic information on female plants of a popular variety, which can provide data for pan-genomic construction of sea buckthorn and for the resolution of the mechanism of sex differentiation.