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首页> 美国卫生研究院文献>Journal of Animal Science >PSIV-B-35 Late-Breaking: Integrating target metabolomic and global proteomic analyses reveals a selenium shift energy metabolism by regulating the redox state in skeletal muscle of pigs
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PSIV-B-35 Late-Breaking: Integrating target metabolomic and global proteomic analyses reveals a selenium shift energy metabolism by regulating the redox state in skeletal muscle of pigs

机译:PSIV-B-35延迟突破:整合目标代谢组和全局蛋白质组学分析通过调节猪的骨骼肌中的氧化还原状态来揭示硒变化能量代谢

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Selenium (Se) is involved in the synthesis of 25 mammal selenoproteins, most of which are oxidation enzymes. Energy metabolism is a major mechanism of power reduction needed to maintain the redox state. Whether energy metabolism in pig skeletal muscle is shifted by the Se-mediated redox state remains unclear. In this study, integrated target metabolomic and global proteomic analyses were used to study how skeletal muscle energy metabolism shifts in response to dietary Se. Twenty-four Yorkshire male pigs (12.50 ± 1.32 kg) were fed a basal diet (Se deficiency, Se-D, 0.007 mg Se/kg) or a basal diet supplemented with selenomethionine (Se adequate, Se-A, 0.3 mg Se/kg) for 16 weeks. Animals were then scarified and their longissimus dorsi were sampled for meat quality, Se content, redox state, selenotranscriptome, global proteomics, and energy-targeted metabolomic profile analysis. Longissimus dorsi water holding capacity in the Se-D group was significantly decreased (P < 0.001). Se content in the Se-D group (0.02 ± 0.003 mg Se/kg) was significantly lower (P < 0.001) than that in the Se-A group (0.48 ± 0.03 mg Se/kg). A total of 15 selenoprotein mRNA levels were significantly affected (P < 0.05), in which 13 were downregulated and two were upregulated in the Se-D group. Compared to those in the Se-A group, the glutathione peroxidase and thioredoxin reductase activity, as well as the total antioxidant capacity were significantly decreased (P < 0.05), while the MDA levels were significantly increased (P < 0.001) in the Se-D group. The metabolomic and proteomic analyses showed significantly increased (P < 0.05) levels of glucose-6-phosphate, phosphoenolpyruvate, pyruvic acid, lactic acid, phosphoglucomutase-1, glucose-6-phosphate isomerase, glyceraldehyde-3-phosphate dehydrogenase, and lactic dehydrogenase in the Se-D group compared to those in the Se-A group. These results indicated that Se can regulate glycolysis by modulating the redox state in skeletal muscle of pigs.
机译:硒(SE)参与合成25哺乳动物硒蛋白,其中大部分是氧化酶。能量新陈代谢是维持氧化还原状态所需的功率降低的主要机制。猪骨骼肌能量代谢是否被SE介导的氧化还原状态转移仍然不清楚。在该研究中,用于研究综合靶标和全局蛋白质组学分析研究骨骼肌能量代谢的转变如何应对膳食SE。二十四个约克夏雄性猪(12.50±1.32千克)喂养基础饮食(SE缺乏,SE-D,0.007 mg SE / kg)或补充硒甲基硫氨基的基础饮食(SE适用,SE-A,0.3mg SE / kg)16周。然后淹没动物,他们的长生物Dorsi被取样进行肉质,硒含量,氧化还原状态,Selenotcriptome,全球蛋白质组学和能量靶向代谢组分分析。 SE-D组中的Longissimus Dorsi水持能力显着降低(P <0.001)。 SE-D组中的SE含量(0.02±0.003 mg SE / kg)显着降低(P <0.001),而不是SE-A组(0.48±0.03mg / kg)。共有15个硒蛋白mRNA水平受到显着影响(p <0.05),其中13分,在SE-D组中上调两种。与Se-A组中的那些相比,谷胱甘肽过氧化物酶和硫氧化嗪还原酶活性以及总抗氧化能力显着降低(P <0.05),而MDA水平显着增加(P <0.001) D组。的代谢物组学和蛋白质组学分析表明显著增加(P <0.05)葡萄糖-6-磷酸,磷酸烯醇丙酮酸,丙酮酸,乳酸,磷酸变位酶-1,葡萄糖-6-磷酸异构酶,甘油醛-3-磷酸脱氢酶,和乳酸脱氢酶的水平在SE-D组中与SE-A组相比。这些结果表明,通过调节猪的骨骼肌中的氧化还原状态可以调节糖酵解。

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