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Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth
Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth
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Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth
Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth

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Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth
Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth
Journal Article

Change and Regulation of Nutritional Metabolism in Silver Pomfret During Compensatory Growth

2023
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Overview
Compensatory growth (CG) in fish is heavily influenced by nutrient metabolism. However, there are limited studies examining how nutrient metabolism is regulated during this process. For silver pomfret, an important commercial marine fish, it's crucial to establish effective starvation and re-feeding strategies to ensure good water quality and fast growth. To identify the complete compensatory growth model of silver pomfret, we conducted an experiment with a control group (normal feeding) and three starvation/re-feeding groups. We observed that the recovery of weight and condition factor in the 14-day starvation and 14-day re-feeding groups was significantly faster than other groups, indicating full compensatory growth. Thus, we selected this group for the next experiment. We performed untargeted metabolomics and transcriptome analysis of muscle tissue on Day 14, 21 and 28 (CG process), and examined the key regulatory genes of nutrient metabolism on Day 0, 7, 14, 21 and 28 (starvation and re-feeding process). Our data revealed that during starvation, silver pomfret first utilized carbohydrates and short-chain lipids, followed by proteins and long-chain lipids. After re-feeding, lipids accumulated first, resulting in rapid growth, followed by the recovery of protein content in muscle. During starvation, the expression of anabolic-related genes such as TER and CALR decreased, and catabolic-related genes such as TSC2 and MLYCD increased, promoting the AMPK pathway. During re-feeding, anabolic-related gene expression increased without AMPK inhibition. Our findings provide insights into the energy utilization strategies of fish and molecular regulation during compensatory growth in fish.