Matches in DBpedia 2016-04 for { <http://doi.org/10.1007/s40279-013-0114-1> ?p ?o }
Showing triples 1 to 16 of
16
with 100 triples per page.
- s40279-013-0114-1 author "Denham J, Marques FZ, O'Brien BJ, Charchar FJ".
- s40279-013-0114-1 date "Feb 2014".
- s40279-013-0114-1 date "February 2014".
- s40279-013-0114-1 doi "10.1007/s40279-013-0114-1".
- s40279-013-0114-1 isCitedBy Brain-derived_neurotrophic_factor.
- s40279-013-0114-1 isCitedBy Management_of_depression.
- s40279-013-0114-1 isCitedBy Neurobiological_effects_of_physical_exercise.
- s40279-013-0114-1 issue "2".
- s40279-013-0114-1 journal "Sports Med".
- s40279-013-0114-1 journal "Sports Medicine".
- s40279-013-0114-1 pages "189–209".
- s40279-013-0114-1 pmid "24163284".
- s40279-013-0114-1 quote "Aerobic physical exercise produces numerous health benefits in the brain. Regular engagement in physical exercise enhances cognitive functioning, increases brain neurotrophic proteins, such as brain-derived neurotrophic factor , and prevents cognitive diseases [76–78]. Recent findings highlight a role for aerobic exercise in modulating chromatin remodelers [21, 79–82]. ... These results were the first to demonstrate that acute and relatively short aerobic exercise modulates epigenetic modifications. The transient epigenetic modifications observed due to chronic running training have also been associated with improved learning and stress-coping strategies, epigenetic changes and increased c-Fos-positive neurons ... Nonetheless, these studies demonstrate the existence of epigenetic changes after acute and chronic exercise and show they are associated with improved cognitive function and elevated markers of neurotrophic factors and neuronal activity . ... The aerobic exercise training-induced changes to miRNA profile in the brain seem to be intensity-dependent [164]. These few studies provide a basis for further exploration into potential miRNAs involved in brain and neuronal development and recovery via aerobic exercise.".
- s40279-013-0114-1 title "Exercise: putting action into our epigenome".
- s40279-013-0114-1 vauthors "Denham J, Marques FZ, O'Brien BJ, Charchar FJ".
- s40279-013-0114-1 volume "44".