Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator

Li Hu; Juan Long; Yi Lin; Zhongru Gu; Han Su; Xuemin Dong; Zhenzhen Lin; Qian Xiao; Nyambayar Batbayar; Batbayar Bold; Lucia Deutschová; Sergey Ganusevich; Vasiliy Sokolov; Aleksandr Sokolov; Hardip R. Patel; Paul D. Waters; Jennifer Ann Marshall Graves; Andrew Dixon; Shengkai Pan; Xiangjiang Zhan

doi:10.1038/s41467-022-34138-3

Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator

Li Hu, Juan Long, Yi Lin, Zhongru Gu, Han Su, Xuemin Dong, Zhenzhen Lin, Qian Xiao, Nyambayar Batbayar, Batbayar Bold, Lucia Deutschová, Sergey Ganusevich, Vasiliy Sokolov, Aleksandr Sokolov, Hardip R. Patel, Paul D. Waters, Jennifer Ann Marshall Graves, Andrew Dixon, Shengkai Pan^*, Xiangjiang Zhan^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

The Qinghai-Tibet Plateau (QTP), possesses a climate as cold as that of the Arctic, and also presents uniquely low oxygen concentrations and intense ultraviolet (UV) radiation. QTP animals have adapted to these extreme conditions, but whether they obtained genetic variations from the Arctic during cold adaptation, and how genomic mutations in non-coding regions regulate gene expression under hypoxia and intense UV environment, remain largely unknown. Here, we assemble a high-quality saker falcon genome and resequence populations across Eurasia. We identify female-biased hybridization with Arctic gyrfalcons in the last glacial maximum, that endowed eastern sakers with alleles conveying larger body size and changes in fat metabolism, predisposing their QTP cold adaptation. We discover that QTP hypoxia and UV adaptations mainly involve independent changes in non-coding genomic variants. Our study highlights key roles of gene flow from Arctic relatives during QTP hypothermia adaptation, and cis-regulatory elements during hypoxic response and UV protection.

Original language	English
Article number	6413
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-34138-3
Publication status	Published - Dec 2022

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Hu, L., Long, J., Lin, Y., Gu, Z., Su, H., Dong, X., Lin, Z., Xiao, Q., Batbayar, N., Bold, B., Deutschová, L., Ganusevich, S., Sokolov, V., Sokolov, A., Patel, H. R., Waters, P. D., Graves, J. A. M., Dixon, A., Pan, S., & Zhan, X. (2022). Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator. Nature Communications, 13(1), Article 6413. https://doi.org/10.1038/s41467-022-34138-3

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title = "Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator",

abstract = "The Qinghai-Tibet Plateau (QTP), possesses a climate as cold as that of the Arctic, and also presents uniquely low oxygen concentrations and intense ultraviolet (UV) radiation. QTP animals have adapted to these extreme conditions, but whether they obtained genetic variations from the Arctic during cold adaptation, and how genomic mutations in non-coding regions regulate gene expression under hypoxia and intense UV environment, remain largely unknown. Here, we assemble a high-quality saker falcon genome and resequence populations across Eurasia. We identify female-biased hybridization with Arctic gyrfalcons in the last glacial maximum, that endowed eastern sakers with alleles conveying larger body size and changes in fat metabolism, predisposing their QTP cold adaptation. We discover that QTP hypoxia and UV adaptations mainly involve independent changes in non-coding genomic variants. Our study highlights key roles of gene flow from Arctic relatives during QTP hypothermia adaptation, and cis-regulatory elements during hypoxic response and UV protection.",

author = "Li Hu and Juan Long and Yi Lin and Zhongru Gu and Han Su and Xuemin Dong and Zhenzhen Lin and Qian Xiao and Nyambayar Batbayar and Batbayar Bold and Lucia Deutschov{\'a} and Sergey Ganusevich and Vasiliy Sokolov and Aleksandr Sokolov and Patel, {Hardip R.} and Waters, {Paul D.} and Graves, {Jennifer Ann Marshall} and Andrew Dixon and Shengkai Pan and Xiangjiang Zhan",

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year = "2022",

month = dec,

doi = "10.1038/s41467-022-34138-3",

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Hu, L, Long, J, Lin, Y, Gu, Z, Su, H, Dong, X, Lin, Z, Xiao, Q, Batbayar, N, Bold, B, Deutschová, L, Ganusevich, S, Sokolov, V, Sokolov, A, Patel, HR, Waters, PD, Graves, JAM, Dixon, A, Pan, S & Zhan, X 2022, 'Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator', Nature Communications, vol. 13, no. 1, 6413. https://doi.org/10.1038/s41467-022-34138-3

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T1 - Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator

AU - Hu, Li

AU - Long, Juan

AU - Lin, Yi

AU - Gu, Zhongru

AU - Su, Han

AU - Dong, Xuemin

AU - Lin, Zhenzhen

AU - Xiao, Qian

AU - Batbayar, Nyambayar

AU - Bold, Batbayar

AU - Deutschová, Lucia

AU - Ganusevich, Sergey

AU - Sokolov, Vasiliy

AU - Sokolov, Aleksandr

AU - Patel, Hardip R.

AU - Waters, Paul D.

AU - Graves, Jennifer Ann Marshall

AU - Dixon, Andrew

AU - Pan, Shengkai

AU - Zhan, Xiangjiang

PY - 2022/12

Y1 - 2022/12

N2 - The Qinghai-Tibet Plateau (QTP), possesses a climate as cold as that of the Arctic, and also presents uniquely low oxygen concentrations and intense ultraviolet (UV) radiation. QTP animals have adapted to these extreme conditions, but whether they obtained genetic variations from the Arctic during cold adaptation, and how genomic mutations in non-coding regions regulate gene expression under hypoxia and intense UV environment, remain largely unknown. Here, we assemble a high-quality saker falcon genome and resequence populations across Eurasia. We identify female-biased hybridization with Arctic gyrfalcons in the last glacial maximum, that endowed eastern sakers with alleles conveying larger body size and changes in fat metabolism, predisposing their QTP cold adaptation. We discover that QTP hypoxia and UV adaptations mainly involve independent changes in non-coding genomic variants. Our study highlights key roles of gene flow from Arctic relatives during QTP hypothermia adaptation, and cis-regulatory elements during hypoxic response and UV protection.

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ER -

Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator

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