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Epigenomics Volume 5, 2013 - Issue 6
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Editorial

Effect of Exercise on DNA Methylation and Metabolism in Human Adipose Tissue and Skeletal Muscle

Tina Rönna Epigenetics & Diabetes Unit, Lund University Diabetes Centre, Malmö, Sweden. [email protected]
&
Charlotte Lingb Epigenetics & Diabetes Unit, Lund University Diabetes Centre, Malmö, Sweden
Pages 603-605 | Published online: 28 Nov 2013
 
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Financial & competing interests disclosure

The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript. This includes employment, consultancies, honoraria, stock ownership or options, expert testimony, grants or patents received or pending, or royalties.

No writing assistance was utilized in the production of this manuscript.

References

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  • El-Osta A , BrasacchioD, YaoD et al. Transient high glucose causes persistent epigenetic changes and altered gene expression during subsequent normoglycemia. J. Exp. Med. 205 , 2409–2417 (2008).
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  • Dayeh TA , OlssonAH, VolkovP, AlmgrenP, RonnT, LingC. Identification of CpG-SNPs associated with Type 2 diabetes and differential DNA methylation in human pancreatic islets. Diabetologia56(5) , 1036–1046 (2013).
  • Drong AW , NicholsonG, HedmanAK et al. The presence of methylation quantitative trait loci indicates a direct genetic influence on the level of DNA methylation in adipose tissue. PLoS ONE 8 , e55923 (2013).
  • Gibbs JR , van der Brug MP, Hernandez DG et al. Abundant quantitative trait loci exist for DNA methylation and gene expression in human brain. PLoS Genet.6 , e1000952 (2010).
  • Ling C , PoulsenP, SimonssonS et al. Genetic and epigenetic factors are associated with expression of respiratory chain component NDUFB6 in human skeletal muscle. J. Clin. Invest. 117 , 3427–3435 (2007).
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