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[HTML][HTML] Epigenetic modification impacting brain functions: Effects of physical activity, micronutrients, caffeine, toxins, and addictive substances

R Mallick, AK Duttaroy - Neurochemistry International, 2023 - Elsevier
Abstract Changes in gene expression are involved in many brain functions. Epigenetic
processes modulate gene expression by histone modification and DNA methylation or RNA …
被引用次数:6 相关文章

Epigenetic modification impacting brain functions: Effects of physical activity, micronutrients, caffeine, toxins, and addictive substances

R Mallick, AK Duttaroy - Neurochemistry international - pubmed.ncbi.nlm.nih.gov
Changes in gene expression are involved in many brain functions. Epigenetic processes
modulate gene expression by histone modification and DNA methylation or RNA-mediated …

Epigenetic modification impacting brain functions: Effects of physical activity, micronutrients, caffeine, toxins, and addictive substances.

R Mallick, AK Duttaroy - Neurochemistry International, 2023 - europepmc.org
Changes in gene expression are involved in many brain functions. Epigenetic processes
modulate gene expression by histone modification and DNA methylation or RNA-mediated …
[PDF] researchgate.net

[PDF][PDF] Epigenetic modification impacting brain functions: Effects of physical activity, micronutrients, caffeine, toxins, and addictive substances.

R Mallick, AK Duttaroy, AK Duttaroy - researchgate.net
Changes in gene expression are involved in many brain functions. Epigenetic processes
modulate gene expression by histone modification and DNA methylation or RNA-mediated …

Epigenetic modification impacting brain functions: Effects of physical activity, micronutrients, caffeine, toxins, and addictive substances

R Mallick, AK Duttaroy - Neurochemistry International, 2023 - duo.uio.no
Changes in gene expression are involved in many brain functions. Epigenetic processes
modulate gene expression by histone modification and DNA methylation or RNA-mediated …