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BACKGROUND: Epigenetic clocks are mathematical models that predict the biological age of an individual using DNA methylation data and have emerged in the last few years as the most accurate biomarkers of the aging process....

aging Biological age DNA Methylation Developmental disorder Epigenetic clock epigenetics H3K36 methylation Methylation entropy NSD1 Sotos syndrome Adult aging Biological Clocks CpG Islands DNA Methylation Entropy Epigenesis Genetic Genetic Testing Genome Human Histone-Lysine N-Methyltransferase Histones Humans Infant Lysine Models Genetic Sotos Syndrome

Abstract: Background: DNA methylation-based biological age (DNAm age) is an important biomarker for adult health. Studies in specific age ranges have found widely varying results about its genetic and environmental causes of...

Research Aging and Development Epigenetics aging Epigenetic aging Biological age Epigenetic clock DNA Methylation Twin study

BACKGROUND: DNA methylation-based biological age (DNAm age) is an important biomarker for adult health. Studies in specific age ranges have found widely varying results about its genetic and environmental causes of variation....

aging Biological age DNA Methylation Epigenetic aging Epigenetic clock Twin study Adolescent Adult Aged Aged 80 and over aging Case-Control Studies Child Child Preschool DNA Methylation Epigenesis Genetic Epigenomics Female Gene-Environment Interaction genetic variation Genome-Wide Association Study Humans Infant Infant Newborn longevity Male Middle Aged Twins Dizygotic Twins Monozygotic Young Adult

Abstract: Background: DNA methylation-based biological age (DNAm age) is an important biomarker for adult health. Studies in specific age ranges have found widely varying results about its genetic and environmental causes of...

Research Aging and Development Epigenetics aging Epigenetic aging Biological age Epigenetic clock DNA Methylation Twin study

Age-associated DNA methylation changes have been widely reported across many different tissue and cell types. Epigenetic 'clocks' that can predict chronological age with a surprisingly high degree of accuracy appear to do so...

DNA Methylation Epigenetic clock epigenetic drift aging Brain CD4-Positive T-Lymphocytes CD8-Positive T-Lymphocytes Cervix Uteri Cheek DNA Methylation Epigenesis Genetic Female FIBROBLASTS Humans Liver Male

BACKGROUND: DNA methylation changes at a discrete set of sites in the human genome are predictive of chronological and biological age. However, it is not known whether these changes are causative or a consequence of an...

Ageing/aging Biological age Chronological age DNA Methylation Epigenetic clock epigenetics High fat diet MODEL Ovariectomy PREDICTION aging Animals Cluster Analysis CpG Islands DNA Methylation Epigenesis Genetic Epigenomics Female Gene Expression Profiling Humans Male Mice Organ Specificity

BACKGROUND: Variation in cancer risk among somatic tissues has been attributed to variations in the underlying rate of stem cell division. For a given tissue type, variable cancer risk between individuals is thought to be...

Ageing Cancer DNA Methylation Epigenetic clock Mitotic Stem Cells aging CpG Islands DNA Methylation Epigenesis Genetic Gene Expression Regulation Neoplastic High-Throughput Nucleotide Sequencing Humans Mitosis Mitotic Index Models Theoretical Neoplasms Neoplastic Stem Cells Polycomb-Group Proteins Promoter Regions Genetic