Nano-Se Assimilation and Action in Poultry and Other Monogastric Animals: Is Gut Microbiota an Answer?

Peter F. Surai; Ivan I. Kochish; Oksana A. Velichko

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Nano-Se Assimilation and Action in Poultry and Other Monogastric Animals: Is Gut Microbiota an Answer?

机译：家禽和其他单胃动物中的纳米硒同化作用：肠道菌群是一个答案吗？

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Recently, a comprehensive review paper devoted to roles of nano-Se in livestock and fish nutrition has been published in the Nanoscale Research Letters. The authors described in great details an issue related to nano-Se production and its possible applications in animal industry and medicine. However, molecular mechanisms of nano-Se action were not described and the question of how nano-Se is converted into active selenoproteins is not resolved. It seems likely that the gut microbiota can convert nano-Se into selenite, H~(2)Se or Se-phosphate with the following synthesis of selenoproteins. This possibility needs to be further studied in detail, and advantages and disadvantages of nano-Se as a source of Se in animal/poultry/fish nutrition await critical evaluations.

机译：最近，有关纳米硒在牲畜和鱼类营养中的作用的综合综述论文已发表在《纳米规模研究快报》上。作者详细描述了与纳米硒生产及其在动物工业和医学中可能应用有关的问题。但是，没有描述纳米硒作用的分子机制，也没有解决如何将纳米硒转化为活性硒蛋白的问题。肠道菌群似乎可以通过以下硒蛋白的合成将纳米硒转化为亚硒酸盐，H〜（2）Se或硒磷酸盐。这种可能性有待进一步详细研究，纳米硒作为动物/家禽/鱼类营养中硒的来源的利弊有待严格评估。

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《Nanoscale Research Letters》 |2017年第1期|共7页
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Peter F. Surai; Ivan I. Kochish; Oksana A. Velichko;
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5. Molecular Analysis of Microbial Ecology in Poultry: Campylobacter, Salmonella and Gut Microbiota. [D] . Singh, Pallavi. 2010

机译：家禽微生物生态学的分子分析：弯曲杆菌，沙门氏菌和肠道菌群。
6. Nano-Se Assimilation and Action in Poultry and Other Monogastric Animals: Is Gut Microbiota an Answer? [O] . Peter F. Surai, Ivan I. Kochish, Oksana A. Velichko 2017

机译：家禽和其他单胃动物中的纳米硒同化作用：肠道菌群是一个答案吗？
7. Understanding the Mechanism of Action of Indigenous Target Probiotic Yeast: Linking the Manipulation of Gut Microbiota and Performance in Animals [O] . Shakira Ghazanfar 2021

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Nano-Se Assimilation and Action in Poultry and Other Monogastric Animals: Is Gut Microbiota an Answer?

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