A Well-Established Gut Microbiota Enhances the Efficiency of Nutrient Metabolism and Improves the Growth Performance of Trachinotus ovatus

A Well-Established Gut Microbiota Enhances the Efficiency of Nutrient Metabolism and Improves the Growth Performance of Trachinotus ovatus

The gut microbiota has become an essential component of the host organism and plays a crucial role in the host immune system, metabolism, and physiology. Nevertheless, our comprehension of how the fish gut microbiota contributes to enhancing nutrient utilization in the diet and improving host growth...

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Bibliographic Details
Published in:International journal of molecular sciences Vol. 25; no. 10; p. 5525
Main Authors: Kong, Miao, Zhao, Wendong, Wang, Cong, Qi, Jie, Liu, Jinxiang, Zhang, Quanqi
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 18-05-2024
Subjects:
Animals
antibiotic-treated
Antibiotics
Digestive system
Fishes - growth & development
Fishes - metabolism
Fishes - microbiology
Gastrointestinal Microbiome
Gene expression
growth
Growth hormones
gut microbiota
Intestines - microbiology
Lipids
Metabolism
Metabolites
Metabolome
Microbiota
multiomics analysis
Nutrients - metabolism
Probiotics
Proteins
Signal transduction
Trachinotus ovatus
Transcriptome
China
growth
Trachinotus ovatus
multiomics analysis
gut microbiota
antibiotic-treated
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Summary:The gut microbiota has become an essential component of the host organism and plays a crucial role in the host immune system, metabolism, and physiology. Nevertheless, our comprehension of how the fish gut microbiota contributes to enhancing nutrient utilization in the diet and improving host growth performance remains unclear. In this study, we employed a comprehensive analysis of the microbiome, metabolome, and transcriptome to analyze intestines of the normal control group and the antibiotic-treated model group of to investigate how the gut microbiota enhances fish growth performance and uncover the underlying mechanisms. First, we found that the growth performance of the control group was significantly higher than that of the antibiotic-treated model under the same feeding conditions. Subsequent multiomics analyses showed that the gut microbiota can improve its own composition by mediating the colonization of some probiotics represented by in the intestine, improving host metabolic efficiency with proteins and lipids, and also influencing the expression of genes in signaling pathways related to cell proliferation, which together contribute to the improved growth performance of . Our results demonstrated the important contribution of gut microbiota and its underlying molecular mechanisms on the growth performance of .
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ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms25105525