Population genome of the newly discovered Jinchuan yak to understand its adaptive evolution in extreme environments and generation mechanism of the multirib trait

Lan, Daoliang; Ji, Wenhui; Xiong, Xianrong; Liang, Qiqi; Wang, Yao; Mipam, TserangDonko; Zhong, Jincheng; Li, Jian

doi:10.1111/1749-4877.12484

Cited by 15 publications

(20 citation statements)

References 37 publications

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“…Yaks are an invaluable genetic resource in the Qinghai–Tibet Plateau and surrounding high-altitude regions. Several reports estimate that yaks were initially domesticated from wild yak populations approximately 7300 years ago [ 25 , 26 ]. Gannan yaks represent a local genetic resource unique to the Qinghai–Tibet Plateau.…”

Section: Discussionmentioning

confidence: 99%

Whole-Genome Resequencing Highlights the Unique Characteristics of Kecai Yaks

Kang

Guo

Wang

et al. 2022

Animals

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Kecai yaks are regarded as an important genetic resource in China owing to their high fecundity and flavorful meat. However, the genetic characteristics of Kecai yaks have not been effectively characterized to date, and the relationship between Kecai yaks and other yak breeds remains to be fully characterized. In this paper, the resequencing of the Kecai yak genome is performed leading to the identification of 11,491,383 high-quality single nucleotide polymorphisms (SNPs). Through principal component, phylogenetic, and population genetic structure analyses based on these SNPs, Kecai yaks were confirmed to represent an independent population of yaks within China. In this study, marker and functional enrichment analysis of genes related to positive selection in Kecai yak was carried out, and the results show that such selection in Kecai yaks is associated with the adaptation to alpine environments and the deposition of muscle fat. Overall, these results offer a theoretical foundation for the future utilization of Kecai yak genetic resources.

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Section: Discussionmentioning

confidence: 99%

Whole-Genome Resequencing Highlights the Unique Characteristics of Kecai Yaks

Kang

Guo

Wang

et al. 2022

Animals

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“…A more serious fact is that global average temperature will rise by 1.4–5.8°C by the end of the century, with increases likely (or very likely under a very high greenhouse gas emissions scenario) to reach 1.5°C of global warming between 2021 and 2040 (Masson‐Delmotte et al., 2021). It is especially urgent to explore the ecological mechanism of moose dispersal when we consider the diverse and powerful effects of climate on dispersal and the rapid and widespread changes observed as a result of climate change (Lan et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

Global warming responses of gut microbiota in moose (Alces alces) populations with different dispersal patterns

et al. 2022

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While dispersal is the basis of inter‐population connectivity, it is difficult to directly observe. New molecular techniques provide ways of studying the intensity and direction of dispersal among populations through quantifying gene flow. When herbivores disperse their gut microbes travel with the host, and gut microbiota is known to play an important role in host health. However, the current understanding of the driving mechanism between moose dispersal patterns and gut microbial structure is vague. Therefore, when we observe the effects of climate warming on gene flow, it is important to understand the ecological mechanisms that affect the gut microbiota. We applied integrative methods from molecular biology, nutritional ecology and microbiomics to quantify dispersal patterns of moose populations in northeast China and explore the ecological mechanisms driving gut microbe–host associations. We found that moose populations in northeast China are undergoing two dispersal patterns while retreating in a northwesterly direction. Dispersing and isolated moose populations differed in their gut microbial composition and frequency of functional types that relate to digestion and diet composition. We also found that the environmental variables related to the moose gut microbial communities also changed with different dispersal patterns. The gut microbiota of isolated moose populations was only related to ambient temperature, whereas the microbiota in dispersing moose populations was related to longitude and diet protein content. We expect that the differences in the taxonomic and functional structure of gut microbiota relating to digestion are adaptive. Consequently, this study highlights that special attention should be placed on the management of isolated moose populations, and ecological corridors or translocation of moose individuals may be needed to allow persistence in the face of global warming; doing this will likely improve the adaptability of gut microbiota.

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“…In particular, creatures in extreme environments have undergone adaptive evolution in phenotype, physiology, and behavior, and the study of its adaptive mechanism has always been a hot topic in field of evolutionary biology. Numerous studies have explored in depth the mechanisms of adaptation in different species at the genomic, metagenomic, and transcriptome levels, such as sheep (Ji et al, 2016 ), yak (Lan et al, 2021 ), goat (Martchenko et al, 2020 ; Zhang et al, 2021 ), and dog (Gou et al, 2014 ; Miao et al, 2017 ; Wu et al, 2016 ).…”

Section: Introductionmentioning

confidence: 99%

Transcriptome analysis provides new insights into cold adaptation of corsac fox (Vulpes Corsac)

Yang

Sun

Xia

et al. 2022

Ecology and Evolution

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Vulpesare widely distributed throughout the world and have undergone drastic physiological and phenotypic changes in response to their environment. However, little is known about the underlying genetic causes of these traits, especially Vulpes corsac. In this study, RNA‐Seq was used to obtain a comprehensive dataset for multiple pooled tissues of corsac fox, and selection analysis of orthologous genes was performed to identify the genes that may be influenced by the low‐temperature environment. More than 6.32 Gb clean reads were obtained and assembled into a total of 173,353 unigenes with an average length of 557 bp for corsac fox. Selective pressure analysis showed that 16 positively selected genes (PSGs) were identified in corsac fox, red fox, and arctic fox. Enrichment analysis of PSGs showed that the LRP11 gene was enriched in several pathways related to the low‐temperature response and might play a key role in response to environmental stimuli of foxes. In addition, several positively selected genes were related to DNA damage repair (ELP2 and CHAF1A), innate immunity (ARRDC4 and S100A12), and the respiratory chain (NDUFA5), and these positively selected genes might play a role in adaptation to harsh wild fox environments. The results of common orthologous gene analysis showed that gene flow or convergent evolution might be an important factor in promoting regional differentiation of foxes. Our study provides a valuable transcriptomic resource for the evolutionary history of the corsac fox and the adaptations to the extreme environments.

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Population genome of the newly discovered Jinchuan yak to understand its adaptive evolution in extreme environments and generation mechanism of the multirib trait

Cited by 15 publications

References 37 publications

Whole-Genome Resequencing Highlights the Unique Characteristics of Kecai Yaks

Whole-Genome Resequencing Highlights the Unique Characteristics of Kecai Yaks

Global warming responses of gut microbiota in moose (Alces alces) populations with different dispersal patterns

Transcriptome analysis provides new insights into cold adaptation of corsac fox (Vulpes Corsac)

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