All changes for the tissue bone marrow (47)

Identifier Name Type Tissues Organism Gene Data Actions
DAA2460 gelsolin-like capping protein decreases with age Molecular mesenchymal stem cell Human CAPG 19.3% Decrease 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
DAA2458 hypothetical protein LOC146433 decreases with age Molecular mesenchymal stem cell Human IL34 27.7% Decrease DNA Methylation
DAA2439 hypothetical protein LOC283598 increases with age Molecular mesenchymal stem cell Human C14orf177 42.5% Increase DNA Methylation
DAA2463 Level of miR-19a decreases with age Molecular mesenchymal stem cell Human MIR19A 40.7% Decrease miRNA Level
DAA2462 Level of miR-519d decreases with age Molecular mesenchymal stem cell Human MIR519D 44.7% Decrease miRNA Level
DAA2445 L-pipecolic acid oxidase increases with age Molecular mesenchymal stem cell Human PIPOX 32.2% Increase DNA Methylation
DAA675 Beta-galactosidase expression increases in mesenchymal stem cells Physiological mesenchymal stem cell Human
DAA2013 Number and differentiation potential of adipose tissue-derived stem cells declines with age Physiological mesenchymal stem cell Human
DAA678 Capacity of mesenchymal stem cells to differentiate into osteoblasts may be decreased Physiological mesenchymal stem cell Human
DAA934 Number of mature B cells leaving the bone marrow declines Physiological bone marrow, B cell Human
DAA932 Renewal capacity declines Physiological hematopoietic stem cells Human
DAA935 Pro-B cell generation and differentiation declines Physiological bone marrow, B cell Human
DAA676 Proliferation rate of mesenchymal stem cells is reduced Physiological mesenchymal stem cell Human
DAA677 Proportion of apoptotic cells may be increased Physiological mesenchymal stem cell Human TP53
DAA936 Volume of hematopoietic bone marrow decreases Physiological bone marrow Human
DAA2027 DNA damage acummulates in hematopoietic stem and progenitor cells Physiological hematopoietic stem cells Human
DAA1073 Fewer cells and higher apoptosis Physiological bone marrow Human
DAA2014 Microsatellite instability in hematopoietic stem cells and progenitor cells Physiological hematopoietic stem cells Human MLH1
DAA1991 Hematopoietic cells accumulate random mutations Physiological hematopoietic stem cells Human
DAA2035 Alterations in frequency, developmental potential and gene expression profile in hematopoietic stem cells Physiological hematopoietic stem cells Human