Koch et al. (2011) "Specific age-associated DNA methylation changes in human dermal fibroblasts." PLoS ONE 6(2):e16679 (PubMed) (79 entries)

Changes associated with this reference

Identifier Name Type Tissues Organism Gene Data Actions
DAA2419 dickkopf homolog 1 precursor increases with age Molecular dermis Human DKK1 16.2% Increase DNA Methylation
DAA2415 engrailed homolog 1 increases with age Molecular dermis Human EN1 18.8% Increase DNA Methylation
DAA2403 homeo box B1 decreases with age Molecular dermis Human HOXB1 15.6% Decrease DNA Methylation
DAA2452 homeo box B1 decreases with age Molecular mesenchymal stem cell Human HOXB1 49.3% Decrease DNA Methylation
DAA2458 hypothetical protein LOC146433 decreases with age Molecular mesenchymal stem cell Human IL34 27.7% Decrease DNA Methylation
DAA2409 interleukin 34 decreases with age Molecular dermis Human IL34 17.6% Decrease DNA Methylation
DAA2422 keratin 6A decreases with age Molecular dermis Human KRT6A 16.7% Decrease DNA Methylation
DAA2425 lecithin-cholesterol acyltransferase precursor decreases with age Molecular dermis Human LCAT 18.6% Decrease DNA Methylation
DAA2400 microfibrillar associated protein 5 decreases with age Molecular dermis Human MFAP5 15.0% Decrease DNA Methylation
DAA2449 microfibrillar associated protein 5 decreases with age Molecular mesenchymal stem cell Human MFAP5 46.4% Decrease DNA Methylation
DAA2453 hypothetical protein LOC126353 decreases with age Molecular mesenchymal stem cell Human MISP 24.8% Decrease DNA Methylation
DAA2404 hypothetical protein LOC126353 decreases with age Molecular dermis Human MISP 16.3% Decrease DNA Methylation
DAA2421 metastasis suppressor 1 decreases with age Molecular dermis Human MTSS1 16.5% Decrease DNA Methylation
DAA2385 nerve growth factor; beta polypeptide precursor increases with age Molecular dermis Human NGF 19.3% Increase DNA Methylation
DAA2434 nerve growth factor; beta polypeptide precursor decreases with age Molecular mesenchymal stem cell Human NGF 22.5% Decrease DNA Methylation
DAA2420 olfactory receptor; family 5; subfamily V; member 1 increases with age Molecular dermis Human OR5V1 15.3% Increase DNA Methylation
DAA2456 PDZ and LIM domain 2 isoform 3 increases with age Molecular mesenchymal stem cell Human PDLIM2 43.9% Increase DNA Methylation
DAA2407 PDZ and LIM domain 2 isoform 3 decreases with age Molecular dermis Human PDLIM2 17.3% Decrease DNA Methylation
DAA2416 pyridoxal (pyridoxine, vitamin B6) kinase increases with age Molecular dermis Human PDXK 17.2% Increase DNA Methylation
DAA2396 L-pipecolic acid oxidase increases with age Molecular dermis Human PIPOX 22.8% Increase DNA Methylation
DAA2445 L-pipecolic acid oxidase increases with age Molecular mesenchymal stem cell Human PIPOX 32.2% Increase DNA Methylation
DAA2398 protein kinase N1 isoform 2 increases with age Molecular dermis Human PKN1 17.6% Increase DNA Methylation
DAA2447 protein kinase N1 isoform 2 increases with age Molecular mesenchymal stem cell Human PKN1 27.7% Increase DNA Methylation
DAA2430 prostate transmembrane protein, androgen induced 1 decreases with age Molecular dermis Human PMEPA1 20.8% Decrease DNA Methylation
DAA2395 AMP-activated protein kinase; non-catalytic gamma-3 subunit decreases with age Molecular dermis Human PRKAG3 20.1% Decrease DNA Methylation