Chromosome-Level Genome Assembly and Population Genomic Analyses Reveal Geographic Variation and Population Genetic Structure of Prunus tenella

Qin, Yue; Zhao, Han; Han, Hongwei; Zhu, Gaopu; Wang, Zhaoshan; Li, Fangdong

doi:10.3390/ijms241411735

Cited by 2 publications

(1 citation statement)

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“…With the increasing recognition of high-quality genome sequences, the assisted assembly technology for chromosome-level genomes has emerged [14]. In recent years, chromosome-scale genomes have been reported in numerous plant species, which provide insights into their genetic basis and population genetic structure [15][16][17]. In this study, we sequenced the whole genome and transcriptome of C. subcordata with the BGISEQ (BGI-Shenzhen, Shenzheng, China) and OXFORD NANOPORE (Oxford Nanopore Technologies, Oxford, United Kingdom) sequencing platforms and assembled and annotated its whole genome.…”

Section: Introductionmentioning

confidence: 99%

Genome Assembly of Cordia subcordata, a Coastal Protection Species in Tropical Coral Islands

Chen,

Wang,

Jian

et al. 2023

IJMS

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Cordia subcordata trees or shrubs, belonging to the Boraginaceae family, have strong resistance and have adapted to their habitat on a tropical coral island in China, but the lack of genome information regarding its genetic background is unclear. In this study, the genome was assembled using both short/long whole genome sequencing reads and Hi–C reads. The assembled genome was 475.3 Mb, with 468.7 Mb (99.22%) of the sequences assembled into 16 chromosomes. Repeat sequences accounted for 54.41% of the assembled genome. A total of 26,615 genes were predicted, and 25,730 genes were functionally annotated using different annotation databases. Based on its genome and the other 17 species, phylogenetic analysis using 336 single-copy genes obtained from ortholog analysis showed that C. subcordata was a sister to Coffea eugenioides, and the divergence time was estimated to be 77 MYA between the two species. Gene family evolution analysis indicated that the significantly expanded gene families were functionally related to chemical defenses against diseases. These results can provide a reference to a deeper understanding of the genetic background of C. subcordata and can be helpful in exploring its adaptation mechanism on tropical coral islands in the future.

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