Genomes and demographic histories of the endangered Bretschneidera sinensis (Akaniaceae)

Han Zhang; Xin Du; Congcong Dong; Zeyu Zheng; Wenjie Mu; Mingjia Zhu; Yingbo Yang; Xiaojie Li; Hongyin Hu; Nawal Shrestha; Minjie Li; Yongzhi Yang

doi:10.1093/gigascience/giac050

Genomes and demographic histories of the endangered Bretschneidera sinensis (Akaniaceae)

Gigascience. 2022 Jun 14:11:giac050. doi: 10.1093/gigascience/giac050.

Authors

Han Zhang¹, Xin Du¹, Congcong Dong¹, Zeyu Zheng¹, Wenjie Mu¹, Mingjia Zhu¹, Yingbo Yang¹, Xiaojie Li², Hongyin Hu¹, Nawal Shrestha¹, Minjie Li¹, Yongzhi Yang¹

Affiliations

¹ State Key Laboratory of Grassland Agro-Ecosystem, College of Ecology & School of Life Sciences, Lanzhou University, Lanzhou 730000, China.
² Emeishan Biological Resources Experimental Station, Emei 511181, Sichuan, China.

Abstract

Background: Bretschneidera sinensis is an endangered relic tree species in the Akaniaceae family and is sporadically distributed in eastern Asia. As opposed to its current narrow and rare distribution, the fossil pollen of B. sinensis has been found to be frequent and widespread in the Northern Hemisphere during the Late Miocene. B. sinensis is also a typical mycorrhizal plant, and its annual seedlings exhibit high mortality rates in absence of mycorrhizal development. The chromosome-level high-quality genome of B. sinensis will help us to more deeply understand the survival and demographic histories of this relic species.

Results: A total of 25.39 Gb HiFi reads and 109.17 Gb Hi-C reads were used to construct the chromosome-level genome of B. sinensis, which is 1.21 Gb in length with the contig N50 of 64.13 Mb and chromosome N50 of 146.54 Mb. The identified transposable elements account for 55.21% of the genome. A total of 45,839 protein-coding genes were predicted in B. sinensis. A lineage-specific whole-genome duplication was detected, and 7,283 lineage-specific expanded gene families with functions related to the specialized endotrophic mycorrhizal adaptation were identified. The historical effective population size (Ne) of B. sinensis was found to oscillate greatly in response to Quaternary climatic changes. The Ne of B. sinensis has decreased rapidly in the recent past, making its extant Ne extremely lower. Our additional evolutionary genomic analyses suggested that the developed mycorrhizal adaption might have been repeatedly disrupted by environmental changes caused by Quaternary climatic oscillations. The environmental changes and an already decreased population size during the Holocene may have led to the current rarity of B. sinensis.

Conclusion: This is a detailed report of the genome sequences for the family Akaniaceae distributed in evergreen forests in eastern Asia. Such a high-quality genomic resource may provide critical clues for comparative genomics studies of this family in the future.

Keywords: Bretschneidera sinensis; demographic histories; endangered tree.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Chromosomes
Demography
Endangered Species
Genome*
Genomics
Magnoliopsida*
Phylogeny