Convergent evolution of glutathione metabolism pathway genes in marine mammals

• Research Article •

Convergent evolution of glutathione metabolism pathway genes in marine mammals

Zhihong Jin¹, Jie Jiang³, Tinghui Li¹, Simin Chai^2*, Ran Tian^1*

¹ Jiangsu Key Laboratory for the Biodiversity Conservation and Sustainable Utilization in the Middle and Lower Reaches of the Yangtze River Basin, College of Life Sciences, Nanjing Normal University, Nanjing 210023, China

² Southern Marine Science and Engineering Guangdong Laboratory (Guangzhou), Guangzhou 511458, China

³ Department of Gastroenterology, Nanjing Drum Tower Hospital, The Affiliated Hospital of Nanjing University Medical School, Nanjing 210008, China

^* Authors for correspondence. Ran Tian. Email: tianrannjnu@163.com; Simin Chai. Email: chaisiminendeavor@163.com

Received:2025-04-08 Accepted:2025-09-08
Supported by:
This work was supported by the National Natural Science Foundation of China (grant 32270441 to R.T.), the Young Elite Scientists Sponsorship Program of the China Association for Science and Technology (grant 2023QNRC001 to R.T.), the Chinese Ministry of Science and Technology National Key Programme of Research and Development (grant 2022YFF1301601 to R.T.).

Abstract

Abstract: Oxidative stress, triggered by hypoxia during repetitive diving, represents a notable environmental adaptation of marine mammals. Glutathione (GSH) is a widely acknowledged antioxidant that protects crucial cellular elements from damage by reactive oxygen species (ROS). Nevertheless, the role of the glutathione metabolism pathway in shaping the adaptation to oxidative stress in marine mammals is not fully elucidated. In this study, we conducted evolutionary analyses on 37 genes related to GSH metabolism pathway in marine and terrestrial mammals. We found that in comparison with their terrestrial relatives, marine mammals showed convergently accelerated evolution on the core modules of GSH metabolism. Specifically, we identified a total of 16 genes with significant evolution signals unique to marine mammals, and several genes (e.g., accelerated evolution genes: RRM1 and SMS, positively selected genes: ANPEP and GCLC) were shared in marine mammal lineages. Eight genes were discovered to possess specific amino acid modifications that are common among all marine mammals. Functional assays of marine mammal GCLC showed a downregulation of HIF-1α and enhanced GSH levels under hypoxic conditions, suggesting heightened protection of marine mammals against oxidative stress induced by hypoxia. Our study identified key genes with significant evolutionary signals in marine mammals, providing genomic and functional support for convergent hypoxia adaptation mechanisms within this taxon.

Key words: adaptation, glutathione metabolism pathway, hypoxia, marine mammals, oxidative stress

Zhihong Jin, Jie Jiang, Tinghui Li, Simin Chai, Ran Tian. Convergent evolution of glutathione metabolism pathway genes in marine mammals[J]. J Syst Evol.

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Convergent evolution of glutathione metabolism pathway genes in marine mammals

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