Rihua Wang scite author profile

As selenium in the form of "Selenoprotein W (SelW)" is essential for the maintenance of normal liver function, the expression of SelW liver depends on the level of selenium supplied with the diet. Whereas this is well known to be the case in mammals, relatively little is known about the effect of dietary Se on the expression SelW in the livers of avian species. To investigate the effects of dietary Se levels on the SelW mRNA expression in the liver of bird, 1-day-old male chickens were fed either a commercial diet or a Se-supplemented diet containing 1.0, 2.0, 3.0, and 5.0 mg/kg sodium selenite (Na(2)SeO(3)) for 90 days. The livers were collected and examined for Se content and mRNA levels of SelW, Selenophosphate synthetase-1, and selenocysteine-synthase (SecS). The data indicate that, within a certain range, a Se-supplemented diet can increase the expression of SelW and the mRNA levels of SecS, and also, that the transcription of SelW is very sensitive to dietary Se.

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Dietary selenium influences pancreatic tissue levels of selenoprotein W in chickens

Wang

Sun

Zhang

et al. 2011

Journal of Inorganic Biochemistry

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Dietary selenium regulation of transcript abundance of selenoprotein N and selenoprotein W in chicken muscle tissues

Zhang

Huang

et al. 2011

Biometals

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Selenium (Se), selenoprotein N (SelN) and selenoprotein W (SelW) play a crucial role in muscle disorders. Se status highly regulates selenoprotein mRNA levels. However, few attempts have been performed on the effect of dietary Se supplementation on muscle SelN and SelW mRNA levels in birds. To investigate the effects of Se on the regulation of SelN and SelW mRNA levels in muscle tissues, one-day-old male chickens were fed either a commercial diet or a Se-supplemented diet containing 1.0, 2.0, 3.0 or 5.0 mg/kg sodium selenite for 90 days. Muscle tissues (breast, flight, thigh, shank and cardiac muscles) were collected and examined for Se content and mRNA levels of SelN and SelW. Moreover, Selenophosphate synthetase-1 (SPS-1) and selenocysteine-synthase (SecS) mRNA levels were analyzed. Significant increases in SelN mRNA levels were obtained in breast, thigh and shank muscles treated with Se, with maximal effects at 3.0 mg Se/kg diet, but 2.0 mg Se/kg diet resulted in peak levels of Sel N mRNA in flight muscles. Changes in SelW mRNA abundance in thigh and shank muscles increased in response to Se supply. After reaching a maximal level, higher Se supplementation led to a reduction in both SelN and SelW mRNAs. However, SelN and SelW mRNA levels displayed a different expression pattern in different skeletal and cardiac muscles. Thus, it suggested that skeletal and cardiac muscles SelN and SelW mRNA levels were highly regulated by Se supplementation and different muscle tissues showed differential sensitivity. Moreover, Se supplementation also regulated the levels of SPS1 and SecS mRNAs. The mRNA levels of SPS1 and SecS were enhanced in the Se supplemented groups. These data indicate that Se regulates the expression of SelN and SelW gene and affect the mRNA levels of SecS and SPS1.

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Ubiquitous Expression of Selenoprotein N Transcripts in Chicken Tissues and Early Developmental Expression Pattern in Skeletal Muscles

Zhang

et al. 2011

Biol Trace Elem Res

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Previous results revealed a ubiquitous expression pattern of selenoprotein N (SelN, SEPN1) in humans, zebrafish, and mouse, suggesting that it plays a potential role during the embryogenesis of these species. However, no information is known about the tissue distribution of SelN and mRNA expression analysis in the muscle tissues during development in birds. We analyzed the mRNA expression of SelN in 26 different tissues of 90-day-old chickens and the expression of SelN in the muscle tissues of 12-day-old chicken embryos and 15-month-old adult chickens by quantitative real-time PCR. The results showed that SelN transcripts were expressed widely in the chicken tissues. Moreover, the expression of SelN mRNA in skeletal muscles was present at a high level in whole embryos and at a lower level in postnatal stages. However, the expression of SelN mRNA in cardiac muscle showed a different expression pattern compared with skeletal muscles. Our data indicate that the expression of the SelN gene in chicken is ubiquitous, suggesting a role of SelN in the development of chick embryo skeletal muscles.

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Political Hegemony in Ancient China:

Wang¹

2013

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Rihua Wang

Dietary Selenium Affects Selenoprotein W Gene Expression in the Liver of Chicken

Dietary selenium influences pancreatic tissue levels of selenoprotein W in chickens

Dietary selenium regulation of transcript abundance of selenoprotein N and selenoprotein W in chicken muscle tissues

Ubiquitous Expression of Selenoprotein N Transcripts in Chicken Tissues and Early Developmental Expression Pattern in Skeletal Muscles

Political Hegemony in Ancient China:

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