A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe

The suite of adaptations associated with the extreme stature of the giraffe has long interested biologists and physiologists. By generating a high-quality chromosome-level giraffe genome and a comprehensive comparison with other ruminant genomes, we identified a robust catalog of giraffe-specific mu...

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Autores principales: Liu, Chang, Gao, Jianbo, Cui, Xinxin, Li, Zhipeng, Chen, Lei, Yuan, Yuan, Zhang, Yaolei, Mei, Liangwei, Zhao, Lan, Cai, Dan, Hu, Mingliang, Zhou, Botong, Li, Zihe, Qin, Tao, Si, Huazhe, Li, Guangyu, Lin, Zeshan, Xu, Yicheng, Zhu, Chenglong, Yin, Yuan, Zhang, Chenzhou, Xu, Wenjie, Li, Qingjie, Wang, Kun, Gilbert, M. Thomas P., Heller, Rasmus, Wang, Wen, Huang, Jinghui, Qiu, Qiang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2021
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7968835/
https://www.ncbi.nlm.nih.gov/pubmed/33731352
http://dx.doi.org/10.1126/sciadv.abe9459
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author Liu, Chang
Gao, Jianbo
Cui, Xinxin
Li, Zhipeng
Chen, Lei
Yuan, Yuan
Zhang, Yaolei
Mei, Liangwei
Zhao, Lan
Cai, Dan
Hu, Mingliang
Zhou, Botong
Li, Zihe
Qin, Tao
Si, Huazhe
Li, Guangyu
Lin, Zeshan
Xu, Yicheng
Zhu, Chenglong
Yin, Yuan
Zhang, Chenzhou
Xu, Wenjie
Li, Qingjie
Wang, Kun
Gilbert, M. Thomas P.
Heller, Rasmus
Wang, Wen
Huang, Jinghui
Qiu, Qiang
author_facet Liu, Chang
Gao, Jianbo
Cui, Xinxin
Li, Zhipeng
Chen, Lei
Yuan, Yuan
Zhang, Yaolei
Mei, Liangwei
Zhao, Lan
Cai, Dan
Hu, Mingliang
Zhou, Botong
Li, Zihe
Qin, Tao
Si, Huazhe
Li, Guangyu
Lin, Zeshan
Xu, Yicheng
Zhu, Chenglong
Yin, Yuan
Zhang, Chenzhou
Xu, Wenjie
Li, Qingjie
Wang, Kun
Gilbert, M. Thomas P.
Heller, Rasmus
Wang, Wen
Huang, Jinghui
Qiu, Qiang
author_sort Liu, Chang
collection PubMed
description The suite of adaptations associated with the extreme stature of the giraffe has long interested biologists and physiologists. By generating a high-quality chromosome-level giraffe genome and a comprehensive comparison with other ruminant genomes, we identified a robust catalog of giraffe-specific mutations. These are primarily related to cardiovascular, bone growth, vision, hearing, and circadian functions. Among them, the giraffe FGFRL1 gene is an outlier with seven unique amino acid substitutions not found in any other ruminant. Gene-edited mice with the giraffe-type FGFRL1 show exceptional hypertension resistance and higher bone mineral density, both of which are tightly connected with giraffe adaptations to high stature. Our results facilitate a deeper understanding of the molecular mechanism underpinning distinct giraffe traits, and may provide insights into the study of hypertension in humans.
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spelling pubmed-79688352021-03-31 A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe Liu, Chang Gao, Jianbo Cui, Xinxin Li, Zhipeng Chen, Lei Yuan, Yuan Zhang, Yaolei Mei, Liangwei Zhao, Lan Cai, Dan Hu, Mingliang Zhou, Botong Li, Zihe Qin, Tao Si, Huazhe Li, Guangyu Lin, Zeshan Xu, Yicheng Zhu, Chenglong Yin, Yuan Zhang, Chenzhou Xu, Wenjie Li, Qingjie Wang, Kun Gilbert, M. Thomas P. Heller, Rasmus Wang, Wen Huang, Jinghui Qiu, Qiang Sci Adv Research Articles The suite of adaptations associated with the extreme stature of the giraffe has long interested biologists and physiologists. By generating a high-quality chromosome-level giraffe genome and a comprehensive comparison with other ruminant genomes, we identified a robust catalog of giraffe-specific mutations. These are primarily related to cardiovascular, bone growth, vision, hearing, and circadian functions. Among them, the giraffe FGFRL1 gene is an outlier with seven unique amino acid substitutions not found in any other ruminant. Gene-edited mice with the giraffe-type FGFRL1 show exceptional hypertension resistance and higher bone mineral density, both of which are tightly connected with giraffe adaptations to high stature. Our results facilitate a deeper understanding of the molecular mechanism underpinning distinct giraffe traits, and may provide insights into the study of hypertension in humans. American Association for the Advancement of Science 2021-03-17 /pmc/articles/PMC7968835/ /pubmed/33731352 http://dx.doi.org/10.1126/sciadv.abe9459 Text en Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Research Articles
Liu, Chang
Gao, Jianbo
Cui, Xinxin
Li, Zhipeng
Chen, Lei
Yuan, Yuan
Zhang, Yaolei
Mei, Liangwei
Zhao, Lan
Cai, Dan
Hu, Mingliang
Zhou, Botong
Li, Zihe
Qin, Tao
Si, Huazhe
Li, Guangyu
Lin, Zeshan
Xu, Yicheng
Zhu, Chenglong
Yin, Yuan
Zhang, Chenzhou
Xu, Wenjie
Li, Qingjie
Wang, Kun
Gilbert, M. Thomas P.
Heller, Rasmus
Wang, Wen
Huang, Jinghui
Qiu, Qiang
A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title_full A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title_fullStr A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title_full_unstemmed A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title_short A towering genome: Experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
title_sort towering genome: experimentally validated adaptations to high blood pressure and extreme stature in the giraffe
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7968835/
https://www.ncbi.nlm.nih.gov/pubmed/33731352
http://dx.doi.org/10.1126/sciadv.abe9459
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