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Bibliographic Details
Main Authors: Wei, Xinrong, Li, Xiao, Zhou, Wenji, Yan, Bo, Chen, Tao, Wu, Fangli, Luo, Yongju, Mu, Jingli, Zhang, Yu Ting, Chen, Hongxing, Xie, Lingtian
Format: Artículo científico
Language:en
Published: Environmental science & technology 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40279166/
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  • Why Western Mosquitofish () Is Tolerant to Se Contamination: Complex Mechanistic Explanations. Wei, Xinrong Li, Xiao Zhou, Wenji Yan, Bo Chen, Tao Wu, Fangli Luo, Yongju Mu, Jingli Zhang, Yu Ting Chen, Hongxing Xie, Lingtian Animals Cyprinodontiformes Zebrafish Selenium Water Pollutants, Chemical Selenomethionine The western mosquitofish ( (G. affinis)) is often the only fish that survives in various selenium-contaminated aquatic environments. However, mechanisms of its survival in such environments remain seldom explored. In this study, the acute toxicity of selenomethionine (Se-Met) in a variety of species (four oviparous and four ovoviviparous species) was evaluated, followed by the chronic effects of Se-Met on and on zebrafish ( (D. rerio)), focusing on Se accumulation in the gonads and offspring, reproductive biology, and offspring development. Our results showed that the LC-96h of Se-Met was the largest in among the eight fish, confirming its elevated resistance to Se. Meanwhile, the transcripts of genes related to selenoproteins and sulfoproteins showed opposite responses between and to Se-Met exposure, along with the altered levels of total selenoproteins in oviparous but not in ovoviviparous fish. The chronic exposures showed that Se levels in the gonads, effects on gonadal development and embryonic and early larval development, and Se efflux in the embryos and larvae were apparently different between and . Finally, differentially expressed genes (particularly antioxidant and inflammation) were mostly stimulated in but inhibited in . This study has demonstrated that the Se efflux capacity of the offspring and genes related to Se metabolism and antioxidant physiology can help partially explain the survival of in Se-contaminated ecosystems.