Multi-Organ Transcriptomic Analysis of Greater Amberjack (Seriola dumerili) with Different Growth Rates
Xiaoying Ru, Xiaojing Li, Yang Huang, Peipei Chen, Qiuxia Deng, Hang Li, Qibing Zhou, Haoyi Lin, Ruijuan Hao, Yongguan Liao, Jinhui Wu, Yanfei Zhao, Chunhua Zhu

TL;DR
This study explores how genes and biological pathways in the greater amberjack's organs relate to differences in growth rates, offering insights for breeding programs.
Contribution
The study identifies specific genes and pathways in three organs linked to growth, metabolism, and immunity in fast- and slow-growing greater amberjack.
Findings
Fast-growing amberjack showed up-regulated genes related to growth and lipid metabolism.
Slow-growing amberjack exhibited up-regulated genes involved in glycolysis and immune responses.
Differential gene expression suggests distinct energy allocation strategies between growth groups.
Abstract
The greater amberjack (Seriola dumerili) is a highly valued fish known for its tasty meat, nutritional richness, and rapid growth rate. However, the molecular mechanisms underlying its growth traits remain poorly understood. In this study, transcriptome sequencing was performed on the hypothalamus, pituitary, and liver tissues of 12-month-old greater amberjack with different growth rates. A number of genes and biological pathways that related to growth, cell proliferation, lipid and glucose metabolism, and immune responses were screened. These findings contributes to a deeper understanding of the growth control mechanism in greater amberjack and offers a scientific basis for efficient breeding and species improvement. In order to explore the main regulatory genes and related pathways of growth traits, transcriptome sequencing was performed on the hypothalamus, pituitary, and liver…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsAquaculture disease management and microbiota · Aquaculture Nutrition and Growth · TGF-β signaling in diseases
