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首页> 外文期刊>Aquaculture Nutrition >Effects of dietary protein levels on growth performance, serum indexes, PI3K/AKT/mTOR/S6K signalling and intestinal microbiota of abalone Haliotis discus hannai
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Effects of dietary protein levels on growth performance, serum indexes, PI3K/AKT/mTOR/S6K signalling and intestinal microbiota of abalone Haliotis discus hannai

机译:膳食蛋白水平对生长性能,血清指标,PI3K / AKT / MTOR / S6K信号传导和肠道微生物的影响鲍鱼Haliotis Discus Hannai

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摘要

A 120-day feeding trial was conducted to assess the effect of dietary protein levels on growth performance, serum indexes, PI3 K/AKT/mTOR/S6 K signalling pathway and intestinal microbiota of abalone Haliotis discus hannai. Abalones (initial body weight: 15.88-16.54 g; initial shell length 41.70-42.40 mm) were fed nine isoenergetic (similar to 16.08 kJ/g) and isolipidic (similar to 42.0 g/kg) experimental diets with 93.5, 116.9, 151.1, 191.8, 230.3, 275.9, 320.3, 360.5 and 405.9 g/kg protein contents, respectively. Results showed that the optimal dietary protein level for H. discus hannai was determined as 259.4 g/kg through second-order polynomial regression analysis for weight gain rate (WGR). Serum TP and urea nitrogen levels were significantly increased when dietary protein levels were higher than 320.3 g/kg (p < .05). The highest gene expressions of phosphatidylinositol 3 kinase (PI3 K), target of rapamycin (mTOR) and ribosomal protein S6 kinase (S6 K) in muscle were found in the treatment with 275.9 g/kg of dietary protein. The excessive dietary protein level (405.9 g/kg) significantly decreased the gene expression of S6 K. Meanwhile, abalone fed with 275.9 g/kg of dietary protein exhibited the highest microbial diversity in intestine as measured by Chao richness and Shannon diversity index. In conclusion, dietary protein level reduced from 259.4 g/kg to 154.0 g/kg or increased from 259.4 to 323.0 g/kg, the WGR of abalone might be depressed with 5% likelihood. Over high (>360.5 g/kg) or low (<151.1 g/kg) dietary protein levels had negative effects on growth performance, serum indexes, PI3 K/AKT/mTOR/S6 K signalling and microbial diversity in intestine of abalone.
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  • 来源
    《Aquaculture Nutrition》 |2021年第4期|共12页
  • 作者单位

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Weihai JinPai Biol Technol Co Ltd Weihai Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

    Ocean Univ China Key Lab Mariculture Minist Agr &

    Rural Affairs Key Lab Aquaculture Nutr &

    Feeds Minist Educ Qingdao 266003 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 水生生物学;
  • 关键词

    abalone; growth; metabolism; microbiota; nutrition; protein;

    机译:鲍鱼;生长;新陈代谢;微生物群;营养;蛋白质;

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