Sang-goo Lee scite author profile

Aging is often perceived as a degenerative process caused by random accrual of cellular damage over time. In spite of this, age can be accurately estimated by epigenetic clocks based on DNA methylation profiles from almost any tissue of the body. Since such pan-tissue epigenetic clocks have been successfully developed for several different species, it is difficult to ignore the likelihood that a defined and shared mechanism instead, underlies the aging process. To address this, we generated 10,000 methylation arrays, each profiling up to 37,000 cytosines in highly-conserved stretches of DNA, from over 59 tissue-types derived from 128 mammalian species. From these, we identified and characterized specific cytosines, whose methylation levels change with age across mammalian species. Genes associated with these cytosines are greatly enriched in mammalian developmental processes and implicated in age-associated diseases. From the methylation profiles of these age-related cytosines, we successfully constructed three highly accurate universal mammalian clocks for eutherians, and one universal clock for marsupials. The universal clocks for eutherians are similarly accurate for estimating ages (r>0.96) of any mammalian species and tissue with a single mathematical formula. Collectively, these new observations support the notion that aging is indeed evolutionarily conserved and coupled to developmental processes across all mammalian species - a notion that was long-debated without the benefit of this new and compelling evidence.

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Segregation during the vertical Bridgman growth of lead magnesium niobate–lead titanate single crystals

Zawilski

Custódio

DeMattei

et al. 2003

Journal of Crystal Growth

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Methylation status of differentially methylated regions at Igf2/H19 locus in porcine gametes and preimplantation embryos

et al. 2009

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The aim of this study was to demonstrate how differential methylation imprints are established during porcine preimplantation embryo development. For the methylation analysis, the primers for the three Igf2/H19 DMRs were designed and based upon previously published sequences. The methylation marks of Igf2/H19 DMRs were analysed in sperm and MII oocytes with our results showing that these regions are fully methylated in sperm but remain unmethylated in MII oocytes. In order to identify the methylation pattern at the pronuclear stage, we indirectly compared the methylation profile of Igf2/H19 DMR3 in each zygote derived by in vitro fertilization, parthenogenesis, and androgenesis. Interestingly, this region was found to be differently methylated according to parental origins; DMR3 was hemimethylated in in vitro fertilized zygotes, fully methylated in parthenogenetic zygotes, and demethylated in androgenetic zygotes. These results indicate that the methylation mark of the paternal allele is erased by active demethylation, and that of the maternal one is de novo methylated. We further examined the methylation imprints of Igf2/H19 DMR3 during early embryonic development. The hemimethylated pattern as seen in zygotes fertilized in vitro was observed up to the 4-cell embryo stage. However, this mark was exclusively demethylated at the 8-cell stage and then restored at the morula stage. These results suggest that methylation imprints are established via dynamic changes during early embryonic development in porcine embryos.

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Quote Recommendation in Dialogue using Deep Neural Network

Lee

Ahn

Lee

et al. 2016

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PathRank: Ranking nodes on a heterogeneous graph for flexible hybrid recommender systems

Lee

Park

Kahng

et al. 2013

Expert Systems with Applications

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Sang-goo Lee

Universal DNA methylation age across mammalian tissues

Segregation during the vertical Bridgman growth of lead magnesium niobate–lead titanate single crystals

Methylation status of differentially methylated regions at Igf2/H19 locus in porcine gametes and preimplantation embryos

Quote Recommendation in Dialogue using Deep Neural Network

PathRank: Ranking nodes on a heterogeneous graph for flexible hybrid recommender systems

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