All changes for the tissue mesenchymal stem cell (37)

Identifier Name Type Tissues Organism Gene Data Actions
DAA2013 Number and differentiation potential of adipose tissue-derived stem cells declines with age Physiological mesenchymal stem cell Human
DAA2432 sperm associated antigen 7 decreases with age Molecular mesenchymal stem cell Human SPAG7 26.2% Decrease DNA Methylation
DAA2433 cyclin-dependent kinase inhibitor 2B isoform 2 decreases with age Molecular mesenchymal stem cell Human CDKN2B 16.7% Decrease DNA Methylation
DAA2434 nerve growth factor; beta polypeptide precursor decreases with age Molecular mesenchymal stem cell Human NGF 22.5% Decrease DNA Methylation
DAA2435 zinc finger protein 549 increases with age Molecular mesenchymal stem cell Human ZNF549 19.3% Increase DNA Methylation
DAA2436 selenium binding protein 1 decreases with age Molecular mesenchymal stem cell Human SELENBP1 20.8% Decrease DNA Methylation
DAA2437 dehydrogenase/reductase (SDR family) member 3 decreases with age Molecular mesenchymal stem cell Human DHRS3 18.6% Decrease DNA Methylation
DAA2438 syncoilin; intermediate filament 1 increases with age Molecular mesenchymal stem cell Human SYNC 21.4% Increase DNA Methylation
DAA2439 hypothetical protein LOC283598 increases with age Molecular mesenchymal stem cell Human C14orf177 42.5% Increase DNA Methylation
DAA2440 WNT1 inducible signaling pathway protein 2 precursor decreases with age Molecular mesenchymal stem cell Human WISP2 23.5% Decrease DNA Methylation
DAA2441 complement factor D preproprotein increases with age Molecular mesenchymal stem cell Human CFD 22.2% Increase DNA Methylation
DAA2442 ATP-binding cassette; sub-family A member 8 decreases with age Molecular mesenchymal stem cell Human ABCA8 25.0% Decrease DNA Methylation
DAA2443 AMP-activated protein kinase; non-catalytic gamma-3 subunit decreases with age Molecular mesenchymal stem cell Human PRKAG3 15.1% Decrease DNA Methylation
DAA2444 AMP-activated protein kinase; non-catalytic gamma-3 subunit decreases with age Molecular mesenchymal stem cell Human PRKAG3 20.1% Decrease DNA Methylation
DAA2445 L-pipecolic acid oxidase increases with age Molecular mesenchymal stem cell Human PIPOX 32.2% Increase DNA Methylation
DAA2446 protein kinase C binding protein 1 isoform a increases with age Molecular mesenchymal stem cell Human ZMYND8 19.9% Increase DNA Methylation
DAA2447 protein kinase N1 isoform 2 increases with age Molecular mesenchymal stem cell Human PKN1 27.7% Increase DNA Methylation
DAA2448 semaphorin 3B isoform 2 precursor increases with age Molecular mesenchymal stem cell Human SEMA3B 19.1% Increase DNA Methylation
DAA2449 microfibrillar associated protein 5 decreases with age Molecular mesenchymal stem cell Human MFAP5 46.4% Decrease DNA Methylation
DAA2450 casein kappa increases with age Molecular mesenchymal stem cell Human CSN3 16.3% Increase DNA Methylation
DAA2451 serine (or cysteine) proteinase inhibitor; clade A (alpha-1 antiproteinase; antitrypsin); member 12 increases with age Molecular mesenchymal stem cell Human SERPINA12 52.7% Increase DNA Methylation
DAA2452 homeo box B1 decreases with age Molecular mesenchymal stem cell Human HOXB1 49.3% Decrease DNA Methylation
DAA2453 hypothetical protein LOC126353 decreases with age Molecular mesenchymal stem cell Human MISP 24.8% Decrease DNA Methylation
DAA2454 chemokine (C-C motif) receptor 1 increases with age Molecular mesenchymal stem cell Human CCR1 31.2% Increase DNA Methylation
DAA2455 CD34 antigen isoform b decreases with age Molecular mesenchymal stem cell Human CD34 17.3% Decrease DNA Methylation