Literature DB >> 16444006

Microarray analysis of selenium-depleted and selenium-supplemented mice.

L A Hooven1, J Butler, L W Ream, P D Whanger.   

Abstract

Nutritional selenium deficiency is associated with Keshan disease in humans and white muscle disease in ruminant livestock. In this study, mice were fed a selenium-deficient diet for three generations. Female mice from the third depleted generation of these mice were given water containing either no added selenium or 0.1 or 1.0 ppm selenium as sodium selenate; DNA microarrays were used to compare gene expression in the muscle from mice fed the selenium diets to that from mice remaining on the depleted diet. The most prominent expression increases were observed with Ptger2 (a prostaglandin E receptor), Tcrb-V13 (a T-cell receptor beta), Tcf-7 (a T-cell transcription factor), and Lck (lymphocyte protein tyrosine kinase), and the major consistent decrease was Vav2, an oncogene in mice consuming the selenium containing diets.

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Year:  2006        PMID: 16444006     DOI: 10.1385/BTER:109:2:173

Source DB:  PubMed          Journal:  Biol Trace Elem Res        ISSN: 0163-4984            Impact factor:   3.738


  9 in total

Review 1.  Selenium regulation of the selenoprotein and nonselenoprotein transcriptomes in rodents.

Authors:  Roger A Sunde; Anna M Raines
Journal:  Adv Nutr       Date:  2011-03-10       Impact factor: 8.701

2.  Selenium status highly regulates selenoprotein mRNA levels for only a subset of the selenoproteins in the selenoproteome.

Authors:  Roger A Sunde; Anna M Raines; Kimberly M Barnes; Jacqueline K Evenson
Journal:  Biosci Rep       Date:  2009-06-25       Impact factor: 3.840

3.  Differential expression of vitamin E and selenium-responsive genes by disease severity in chronic obstructive pulmonary disease.

Authors:  Anne H Agler; Ronald G Crystal; Jason G Mezey; Jennifer Fuller; Chuan Gao; Joyanna G Hansen; Patricia A Cassano
Journal:  COPD       Date:  2013-08       Impact factor: 2.409

4.  Selenoproteins mediate T cell immunity through an antioxidant mechanism.

Authors:  Rajeev K Shrimali; Robert D Irons; Bradley A Carlson; Yasuyo Sano; Vadim N Gladyshev; Jin Mo Park; Dolph L Hatfield
Journal:  J Biol Chem       Date:  2008-05-16       Impact factor: 5.157

5.  Transcript analysis of the selenoproteome indicates that dietary selenium requirements of rats based on selenium-regulated selenoprotein mRNA levels are uniformly less than those based on glutathione peroxidase activity.

Authors:  Kimberly M Barnes; Jacqueline K Evenson; Anna M Raines; Roger A Sunde
Journal:  J Nutr       Date:  2008-12-23       Impact factor: 4.798

6.  Selenium toxicity but not deficient or super-nutritional selenium status vastly alters the transcriptome in rodents.

Authors:  Anna M Raines; Roger A Sunde
Journal:  BMC Genomics       Date:  2011-01-12       Impact factor: 3.969

7.  Reduced dietary intake of micronutrients with antioxidant properties negatively impacts muscle health in aged mice.

Authors:  Miriam van Dijk; Francina J Dijk; Anita Hartog; Klaske van Norren; Sjors Verlaan; Ardy van Helvoort; Richard T Jaspers; Yvette Luiking
Journal:  J Cachexia Sarcopenia Muscle       Date:  2017-10-16       Impact factor: 12.910

8.  Selenophosphate synthetase 1 deficiency exacerbates osteoarthritis by dysregulating redox homeostasis.

Authors:  Donghyun Kang; Jeeyeon Lee; Jisu Jung; Bradley A Carlson; Moon Jong Chang; Chong Bum Chang; Seung-Baik Kang; Byung Cheon Lee; Vadim N Gladyshev; Dolph L Hatfield; Byeong Jae Lee; Jin-Hong Kim
Journal:  Nat Commun       Date:  2022-02-09       Impact factor: 14.919

9.  Toxic-selenium and low-selenium transcriptomes in Caenorhabditis elegans: toxic selenium up-regulates oxidoreductase and down-regulates cuticle-associated genes.

Authors:  Christopher J Boehler; Anna M Raines; Roger A Sunde
Journal:  PLoS One       Date:  2014-06-27       Impact factor: 3.240
  9 in total

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