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Main Authors: Chen, Yue, Wang, Jun, Jin, Chun Xiu, Wu, Hao, He, Wei, Wu, Zi Xian, Wang, Zi Tong, Hong, Yi Zhou, Yang, Zi Hang, Yang, Song, Song, Fei Biao, Luo, Jian, Sun, Jun Long
Format: Artículo científico
Language:en
Published: Comparative biochemistry and physiology. Part D, Genomics & proteomics 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40184882/
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author Chen, Yue
Wang, Jun
Jin, Chun Xiu
Wu, Hao
He, Wei
Wu, Zi Xian
Wang, Zi Tong
Hong, Yi Zhou
Yang, Zi Hang
Yang, Song
Song, Fei Biao
Luo, Jian
Sun, Jun Long
author_facet Chen, Yue
Wang, Jun
Jin, Chun Xiu
Wu, Hao
He, Wei
Wu, Zi Xian
Wang, Zi Tong
Hong, Yi Zhou
Yang, Zi Hang
Yang, Song
Song, Fei Biao
Luo, Jian
Sun, Jun Long
Chen, Yue
Wang, Jun
Jin, Chun Xiu
Wu, Hao
He, Wei
Wu, Zi Xian
Wang, Zi Tong
Hong, Yi Zhou
Yang, Zi Hang
Yang, Song
Song, Fei Biao
Luo, Jian
Sun, Jun Long
collection PubMed - marine biology
contents Study on the potential impact of sustained high temperatures during non-breeding season on largemouth bass. Chen, Yue Wang, Jun Jin, Chun Xiu Wu, Hao He, Wei Wu, Zi Xian Wang, Zi Tong Hong, Yi Zhou Yang, Zi Hang Yang, Song Song, Fei Biao Luo, Jian Sun, Jun Long Animals Bass Male Female Hot Temperature Seasons Transcriptome Apoptosis Fish Proteins With the growing scale of largemouth bass breeding, the demand for seedlings is increasing. As global temperatures rise, it is crucial to study the effects of high temperature their regulatory mechanisms in largemouth bass. In this study, we simulated a high water temperature (28 °C) in the non-breeding season in aquaculture ponds for 28 days to examine the growth, reproduction, metabolism, apoptosis, and methylation markers in largemouth bass; transcriptome analysis was also performed. The results showed no significant difference in body weight between male and female largemouth bass. However, the high-temperature exposed females had reduced growth hormone (GH) and estradiol (E2) levels and elevated cortisol levels. They also showed upregulated expression of AR, cyp19a, igf, fshβ, and lhβ in ovarian tissue. Transcriptomic comparisons between temperature treatments revealed 963 differentially expressed genes in females and 700 in males. Both the ECM receptor interaction and PPAR signaling pathways were significantly enriched. High-temperature enhanced the lipid metabolism process through the PPAR signaling pathway. High temperatures increased oxidative stress in females, which corresponded with increases in SOD, CAT, and GSH-Px, likely to counteract the excess reactive oxygen species. Moreover, endoplasmic reticulum stress was activated, indicated by increases in IRE1 and ATF6, leading to the upregulation of apoptosis-related genes and ovarian cell apoptosis. At high temperature, 5-MC%, demethylase, and methyltransferase were not different in females, while 5-MC% and methyltransferase were higher and demethylase was lower in males. In summary, sustained high temperature affected ovarian development by altering the expression of hormone and gonad related genes and inducing endoplasmic reticulum stress leading to ovarian cell apoptosis. However, low demethylase activity and high genome-wide methylation in the test is suggested that high temperatures may affect testis development via methylation, potentially impacting offspring production.
format Artículo científico
id pubmed_40184882
institution PubMed
language en
publishDate 2025
publisher Comparative biochemistry and physiology. Part D, Genomics & proteomics
record_format pubmed
spellingShingle Study on the potential impact of sustained high temperatures during non-breeding season on largemouth bass.
Chen, Yue
Wang, Jun
Jin, Chun Xiu
Wu, Hao
He, Wei
Wu, Zi Xian
Wang, Zi Tong
Hong, Yi Zhou
Yang, Zi Hang
Yang, Song
Song, Fei Biao
Luo, Jian
Sun, Jun Long
Animals
Bass
Male
Female
Hot Temperature
Seasons
Transcriptome
Apoptosis
Fish Proteins
Study on the potential impact of sustained high temperatures during non-breeding season on largemouth bass. Chen, Yue Wang, Jun Jin, Chun Xiu Wu, Hao He, Wei Wu, Zi Xian Wang, Zi Tong Hong, Yi Zhou Yang, Zi Hang Yang, Song Song, Fei Biao Luo, Jian Sun, Jun Long Animals Bass Male Female Hot Temperature Seasons Transcriptome Apoptosis Fish Proteins With the growing scale of largemouth bass breeding, the demand for seedlings is increasing. As global temperatures rise, it is crucial to study the effects of high temperature their regulatory mechanisms in largemouth bass. In this study, we simulated a high water temperature (28 °C) in the non-breeding season in aquaculture ponds for 28 days to examine the growth, reproduction, metabolism, apoptosis, and methylation markers in largemouth bass; transcriptome analysis was also performed. The results showed no significant difference in body weight between male and female largemouth bass. However, the high-temperature exposed females had reduced growth hormone (GH) and estradiol (E2) levels and elevated cortisol levels. They also showed upregulated expression of AR, cyp19a, igf, fshβ, and lhβ in ovarian tissue. Transcriptomic comparisons between temperature treatments revealed 963 differentially expressed genes in females and 700 in males. Both the ECM receptor interaction and PPAR signaling pathways were significantly enriched. High-temperature enhanced the lipid metabolism process through the PPAR signaling pathway. High temperatures increased oxidative stress in females, which corresponded with increases in SOD, CAT, and GSH-Px, likely to counteract the excess reactive oxygen species. Moreover, endoplasmic reticulum stress was activated, indicated by increases in IRE1 and ATF6, leading to the upregulation of apoptosis-related genes and ovarian cell apoptosis. At high temperature, 5-MC%, demethylase, and methyltransferase were not different in females, while 5-MC% and methyltransferase were higher and demethylase was lower in males. In summary, sustained high temperature affected ovarian development by altering the expression of hormone and gonad related genes and inducing endoplasmic reticulum stress leading to ovarian cell apoptosis. However, low demethylase activity and high genome-wide methylation in the test is suggested that high temperatures may affect testis development via methylation, potentially impacting offspring production.
title Study on the potential impact of sustained high temperatures during non-breeding season on largemouth bass.
topic Animals
Bass
Male
Female
Hot Temperature
Seasons
Transcriptome
Apoptosis
Fish Proteins
url https://pubmed.ncbi.nlm.nih.gov/40184882/