The reference genome and transcriptome of the limestone langur, Trachypithecus leucocephalus, reveal expansion of genes related to alkali tolerance

Trachypithecus leucocephalus, the white-headed langur, is a critically endangered primate that is endemic to the karst mountains in the southern Guangxi province of China. Studying the genomic and transcriptomic mechanisms underlying its local adaptation could help explain its persistence within a h...

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Published in:BMC biology 2021-04, Vol.19 (1), p.67-67, Article 67
Main Authors: Que, Tengcheng, Wang, Huifeng, Yang, Weifei, Wu, Jianbao, Hou, Chenyang, Pei, Surui, Wu, Qunying, Li, Liu Ming, Wei, Shilu, Xie, Xing, Huang, Hongli, Chen, Panyu, Huang, Yiming, Wu, Aiqiong, He, Meihong, Nong, Dengpan, Wei, Xiao, Wu, Junyi, Nong, Ru, Huang, Ning, Zhou, Qingniao, Lin, Yaowang, Lu, Tingxi, Wei, Yongjie, Li, Shousheng, Yao, Jianglong, Zhong, Yanli, Qin, Huayong, Tan, Luohao, Li, Yingjiao, Li, Weidong, Liu, Tao, Liu, Sanyang, Yu, Yongyi, Qiu, Hong, Jiang, Yonghua, Li, Youcheng, Liu, Zhijin, Huang, Cheng Ming, Hu, Yanling
Format: Article
Language:English
Subjects:
Adaptation
Adaptation (Biology)
Alkali tolerance
Analysis
Annotations
Assembly
Calcium
Calcium absorption
Calcium signalling
Chromosomes
Ecological effects
Ecological niches
Endangered animals
Endangered species
Gene expression
Gene families
Genes
Genetic aspects
Genome assembly
Genomes
Genomics
Homeostasis
Identification and classification
Karst
Limestone
Limestone karsts
Metabolism
Mineral ion binding
Mountains
Observations
Presbytis
Protection and preservation
Proteins
Trachypithecus leucocephalus
Transcriptomes
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Summary:Trachypithecus leucocephalus, the white-headed langur, is a critically endangered primate that is endemic to the karst mountains in the southern Guangxi province of China. Studying the genomic and transcriptomic mechanisms underlying its local adaptation could help explain its persistence within a highly specialized ecological niche. In this study, we used PacBio sequencing and optical assembly and Hi-C analysis to create a high-quality de novo assembly of the T. leucocephalus genome. Annotation and functional enrichment revealed many genes involved in metabolism, transport, and homeostasis, and almost all of the positively selected genes were related to mineral ion binding. The transcriptomes of 12 tissues from three T. leucocephalus individuals showed that the great majority of genes involved in mineral absorption and calcium signaling were expressed, and their gene families were significantly expanded. For example, FTH1 primarily functions in iron storage and had 20 expanded copies. These results increase our understanding of the evolution of alkali tolerance and other traits necessary for the persistence of T. leucocephalus within an ecologically unique limestone karst environment.
ISSN:1741-7007
1741-7007
DOI:10.1186/s12915-021-00998-2