‘epigenetics (aging)’ tag

Gwern Branwen

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“DNAm Aging Biomarkers Are Responsive: Insights from 51 Longevity Interventional Studies in Humans”, Sehgal et al 2024

DNAm aging biomarkers are responsive: Insights from 51 longevity interventional studies in humans

“Functional and Multi-Omic Aging Rejuvenation With GLP-1R Agonism”, Huang et al 2024

Functional and multi-omic aging rejuvenation with GLP-1R agonism

“Epigenetic Age Oscillates during the Day”, Koncevičius et al 2024

Epigenetic age oscillates during the day

“A Lipidome Aging Clock Shows Age Acceleration in Individuals With Autism”, Latumalea et al 2024

A lipidome Aging Clock shows Age Acceleration in individuals with Autism

“A Universal Molecular Mechanism Driving Aging”, Jin et al 2024

A universal molecular mechanism driving aging

“Metformin Decelerates Aging Clock in Male Monkeys”, Yang et al 2024

Metformin decelerates aging clock in male monkeys

“Mechanisms, Pathways and Strategies for Rejuvenation through Epigenetic Reprogramming”, Cipriano et al 2023

Mechanisms, pathways and strategies for rejuvenation through epigenetic reprogramming

“Calorie Restriction Modulates the Transcription of Genes Related to Stress Response and Longevity in Human Muscle: The CALERIE Study”, Das et al 2023

Calorie restriction modulates the transcription of genes related to stress response and longevity in human muscle: The CALERIE study

“Multi-Omic Rejuvenation and Life Span Extension on Exposure to Youthful Circulation [Parabiosis]”, Zhang et al 2023b

Multi-omic rejuvenation and life span extension on exposure to youthful circulation [parabiosis]

“Reprogramming by Drug-Like Molecules Leads to Regeneration of Cochlear Hair Cell-Like Cells in Adult Mice”, Quan et al 2023

Reprogramming by drug-like molecules leads to regeneration of cochlear hair cell-like cells in adult mice

“Epigenetic Fidelity in Complex Biological Systems and Implications for Ageing”, Duffield et al 2023

Epigenetic fidelity in complex biological systems and implications for ageing

“Centenarian Clocks: Epigenetic Clocks for Validating Claims of Exceptional Longevity”, Dec et al 2023

Centenarian clocks: epigenetic clocks for validating claims of exceptional longevity

“Gene Therapy Mediated Partial Reprogramming Extends Lifespan and Reverses Age-Related Changes in Aged Mice”, Macip et al 2023

Gene Therapy Mediated Partial Reprogramming Extends Lifespan and Reverses Age-Related Changes in Aged Mice

“Longevity and Rejuvenation Effects of Cell Reprogramming Are Decoupled from Loss of Somatic Identity”, Kriukov et al 2022

Longevity and rejuvenation effects of cell reprogramming are decoupled from loss of somatic identity

“A Generalizable Epigenetic Clock Captures Aging in Two Nonhuman Primates”, Goldman et al 2022

A generalizable epigenetic clock captures aging in two nonhuman primates

“Aging Clocks, Entropy, and the Limits of Age-Reversal”, Tarkhov et al 2022

Aging clocks, entropy, and the limits of age-reversal

“Centenarians Consistently Present a Younger Epigenetic Age Than Their Chronological Age With 4 Epigenetic Clocks Based on a Small Number of CpG Sites”, Daunay et al 2022

Centenarians consistently present a younger epigenetic age than their chronological age with 4 epigenetic clocks based on a small number of CpG sites

“Chemical Reprogramming Ameliorates Cellular Hallmarks of Aging and Extends Lifespan”, Schoenfeldt et al 2022

Chemical reprogramming ameliorates cellular hallmarks of aging and extends lifespan

“In Vivo Reprogramming Leads to Premature Death due to Hepatic and Intestinal Failure.”, Parras et al 2022

In vivo reprogramming leads to premature death due to hepatic and intestinal failure.

“DNA Methylation Clocks for Dogs and Humans”, Horvath et al 2022

DNA methylation clocks for dogs and humans

“Making Sense of the Ageing Methylome”, Seale et al 2022

Making sense of the ageing methylome

“In Vivo Partial Reprogramming Alters Age-Associated Molecular Changes during Physiological Aging in Mice”, Browder et al 2022

In vivo partial reprogramming alters age-associated molecular changes during physiological aging in mice

“Clock Work: Deconstructing the Epigenetic Clock Signals in Aging, Disease, and Reprogramming”, Levine et al 2022

Clock Work: Deconstructing the Epigenetic Clock Signals in Aging, Disease, and Reprogramming

“An Open Science Study of Ageing in Companion Dogs”, Creevy et al 2022

An open science study of ageing in companion dogs

“Heterochronic Parabiosis Reprograms the Mouse Brain Transcriptome by Shifting Aging Signatures in Multiple Cell Types”, Ximerakis et al 2022

Heterochronic parabiosis reprograms the mouse brain transcriptome by shifting aging signatures in multiple cell types

“Multi-Omic Rejuvenation of Naturally Aged Tissues by a Single Cycle of Transient Reprogramming”, Chondronasiou et al 2022

Multi-omic rejuvenation of naturally aged tissues by a single cycle of transient reprogramming

“An Epigenetic Aging Analysis of Randomized Metformin and Weight Loss Interventions in Overweight Postmenopausal Breast Cancer Survivors”, Nwanaji-Enwerem et al 2021

An epigenetic aging analysis of randomized metformin and weight loss interventions in overweight postmenopausal breast cancer survivors

“Profiling Epigenetic Age in Single Cells”, Trapp et al 2021

Profiling epigenetic age in single cells

“Rejuvant®, a Potential Life-Extending Compound Formulation With Alpha-Ketoglutarate and Vitamins, Conferred an Average 8 Year Reduction in Biological Aging, After an Average of 7 Months of Use, in the TruAge DNA Methylation Test”, Demidenko1 et al 2021

Rejuvant®, a potential life-extending compound formulation with alpha-ketoglutarate and vitamins, conferred an average 8 year reduction in biological aging, after an average of 7 months of use, in the TruAge DNA methylation test

“Nutritional Reprogramming of Mouse Liver Proteome Is Dampened by Metformin, Resveratrol, and Rapamycin”, Couteur et al 2021

Nutritional reprogramming of mouse liver proteome is dampened by metformin, resveratrol, and rapamycin

“Ultra-Cheap and Scalable Epigenetic Age Predictions With TIME-Seq”, Griffin et al 2021

Ultra-cheap and scalable epigenetic age predictions with TIME-Seq

“Many Chronological Aging Clocks Can Be Found throughout the Epigenome: Implications for Quantifying Biological Aging”, Porter et al 2021

Many chronological aging clocks can be found throughout the epigenome: Implications for quantifying biological aging

“Genome-Wide Methylation Data Improves Dissection of the Effect of Smoking on Body Mass Index”, Amador et al 2021

Genome-wide methylation data improves dissection of the effect of smoking on body mass index

“Partial Reprogramming Restores Youthful Gene Expression through Transient Suppression of Cell Identity”, Roux et al 2021

Partial reprogramming restores youthful gene expression through transient suppression of cell identity

“Epigenetic Predictors of Maximum Lifespan and Other Life History Traits in Mammals”, Li et al 2021

Epigenetic predictors of maximum lifespan and other life history traits in mammals

“Universal DNA Methylation Age across Mammalian Tissues”, Consortium et al 2021

Universal DNA methylation age across mammalian tissues

“Reprogramming to Recover Youthful Epigenetic Information and Restore Vision”, Lu et al 2020

Reprogramming to recover youthful epigenetic information and restore vision

“Sight Restored by Turning Back the Epigenetic Clock: Neurons Progressively Deteriorate With Age and Lose Resilience to Injury. It Emerges That Treatment With Three Transcription Factors Can Re-Endow Neurons in the Mature Eye With Youthful Characteristics and the Capacity to Regenerate.”, Huberman 2020

Sight restored by turning back the epigenetic clock: Neurons progressively deteriorate with age and lose resilience to injury. It emerges that treatment with three transcription factors can re-endow neurons in the mature eye with youthful characteristics and the capacity to regenerate.

“Reversal of Epigenetic Age With Diet and Lifestyle in a Pilot Randomized Clinical Trial”, Fitzgerald et al 2020

Reversal of Epigenetic Age with Diet and Lifestyle in a Pilot Randomized Clinical Trial

“Epigenetic Clocks: A Review”, Luis 2020

Epigenetic clocks: A review

“Reversal of Aging via in Vivo Epigenetic Reprogramming”, Lu 2020b

Reversal of Aging via in Vivo Epigenetic Reprogramming

“Current Perspectives on the Cellular and Molecular Features of Epigenetic Ageing”, Raj & Horvath 2020

Current perspectives on the cellular and molecular features of epigenetic ageing

“Erosion of the Epigenetic Landscape and Loss of Cellular Identity As a Cause of Aging in Mammals”, Yang et al 2019

Erosion of the Epigenetic Landscape and Loss of Cellular Identity as a Cause of Aging in Mammals

“TRIIM: Reversal of Epigenetic Aging and Immunosenescent Trends in Humans”, Fahy et al 2019

TRIIM: Reversal of epigenetic aging and immunosenescent trends in humans

“DNA Methylation GrimAge Strongly Predicts Lifespan and Healthspan”, Lu et al 2019

DNA methylation GrimAge strongly predicts lifespan and healthspan

“Epigenetic Prediction of Complex Traits and Death”, McCartney et al 2018

Epigenetic prediction of complex traits and death

“DNAm PhenoAge: An Epigenetic Biomarker of Aging for Lifespan and Healthspan”, Levine et al 2018

DNAm PhenoAge: An epigenetic biomarker of aging for lifespan and healthspan

“Too Much Success for Recent Groundbreaking Epigenetic Experiments”, Francis 2014

Too much success for recent groundbreaking epigenetic experiments

“Large Offspring Syndrome: a Bovine Model for the Human Loss-Of-Imprinting Overgrowth Syndrome Beckwith-Wiedemann”, Chen et al 2013

Large offspring syndrome: a bovine model for the human loss-of-imprinting overgrowth syndrome Beckwith-Wiedemann

“DNA Methylation Age of Human Tissues and Cell Types”, Horvath 2013

DNA methylation age of human tissues and cell types

“Morphological Abnormalities, Impaired Fetal Development and Decrease in Myostatin Expression following Somatic Cell Nuclear Transfer in Dogs”, Hong et al 2011

Morphological abnormalities, impaired fetal development and decrease in myostatin expression following somatic cell nuclear transfer in dogs

“DNA Methylation Aging Clocks: Challenges and Recommendations”

DNA methylation aging clocks: challenges and recommendations

“Global Biotraits Database”

Global Biotraits Database⁠:

View HTML:

/doc/www/horvath.genetics.ucla.edu/06bb385c4548ec4686290dca49ec80bcbbf81d9c.html

“Real Age versus Biological Age: the Startups Revealing How Old We Really Are”

Real age versus biological age: the startups revealing how old we really are

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Wikipedia

DNA methylation
Epigenetic clock
Epigenetics
Epigenome editing⁠:

https://en.wikipedia.org/wiki/Epigenome_editing
Gametogenesis
Induced pluripotent stem cell
Reprogramming
Shinya Yamanaka⁠:

https://en.wikipedia.org/wiki/Shinya_Yamanaka

Miscellaneous

Bibliography

2023-zhang-2.pdf: “Multi-Omic Rejuvenation and Life Span Extension on Exposure to Youthful Circulation [Parabiosis]”, Bohan Zhang, David E. Lee, Alexandre Trapp, Alexander Tyshkovskiy, Ake T. Lu, Akshay Bareja, Csaba Kerepesi, Lauren K. McKay, Anastasia V. Shindyapina, Sergey E. Dmitriev, Gurpreet S. Baht, Steve Horvath, Vadim N. Gladyshev, James P. White

link-bibliography
https://www.biorxiv.org/content/10.1101/2023.01.04.522507.full: “Gene Therapy Mediated Partial Reprogramming Extends Lifespan and Reverses Age-Related Changes in Aged Mice”, Carolina Cano Macip, Rokib Hasan, Victoria Hoznek, Jihyun Kim, Louis E. Metzger, Saumil Sethna, Noah Davidsohn

link-bibliography
https://www.aging-us.com/article/204316/text: “Centenarians Consistently Present a Younger Epigenetic Age Than Their Chronological Age With 4 Epigenetic Clocks Based on a Small Number of CpG Sites”, Antoine Daunay, Lise M. Hardy, Yosra Bouyacoub, Mourad Sahbatou, Mathilde Touvier, Hélène Blanché, Jean-François Deleuze, Alexandre How-Kit

link-bibliography
https://www.pnas.org/doi/full/10.1073/pnas.2120887119: “DNA Methylation Clocks for Dogs and Humans”, Steve Horvath, Ake T. Lu, Amin Haghani, Joseph A. Zoller, Caesar Z. Li, Andrea R. Lim, Robert T. Brooke, Ken Raj, Aitor Serres-Armero, Dayna L. Dreger, Andrew N. Hogan, Jocelyn Plassais, Elaine A. Ostrander

link-bibliography
2022-browder.pdf: “In Vivo Partial Reprogramming Alters Age-Associated Molecular Changes during Physiological Aging in Mice”, Kristen C. Browder, Pradeep Reddy, Mako Yamamoto, Amin Haghani, Isabel Guillen Guillen, Sanjeeb Sahu, Chao Wang, Yosu Luque, Javier Prieto, Lei Shi, Kensaku Shojima, Tomoaki Hishida, Zijuan Lai, Qingling Li, Feroza K. Choudhury, Weng R. Wong, Yuxin Liang, Dewakar Sangaraju, Wendy Sandoval, Concepcion Rodriguez Esteban, Estrella Nuñez Delicado, Pedro Guillen Garcia, Michal Pawlak, Jason A. Vander Heiden, Steve Horvath, Heinrich Jasper, Juan Carlos Izpisua Belmonte

link-bibliography
2022-creevy.pdf: “An Open Science Study of Ageing in Companion Dogs”, Kate E. Creevy, Joshua M. Akey, Matt Kaeberlein, Daniel E. L. Promislow, Brian G. Barnett, Brooke Benton, Elhanan Borenstein, Marta G. Castelhano, Lucy Chou, Devin Collins, Amanda E. Coleman, Kyle Crowder, Matthew D. Dunbar, Jeremy Evans, Virginia R. Fajt, Annette L. Fitzpatrick, Unity Jeffery, Erica C. Jonlin, Elinor K. Karlsson, Kathleen F. Kerr, Hannah Lee, Jonathan M. Levine, Jing Ma, Robyn L. McClelland, Kellyn E. McNulty, Kathleen Morrill, Yunbi Nam, Audrey Ruple, Stephen M. Schwartz, Sandi Shrager, Noah Snyder-Mackler, William Thistlethwaite, M. Katherine Tolbert, Silvan R. Urfer, Benjamin S. Wilfond

link-bibliography
https://clinicalepigeneticsjournal.biomedcentral.com/articles/10.1186/s13148-021-01218-y: “An Epigenetic Aging Analysis of Randomized Metformin and Weight Loss Interventions in Overweight Postmenopausal Breast Cancer Survivors”, Jamaji C. Nwanaji-Enwerem, Felicia Fei-Lei Chung, Lars Van der Laan, Alexei Novoloaca, Cyrille Cuenin, Harriet Johansson, Bernardo Bonanni, Alan E. Hubbard, Martyn T. Smith, Sheri J. Hartman, Andres Cardenas, Dorothy D. Sears, Zdenko Herceg

link-bibliography
2021-trapp.pdf: “Profiling Epigenetic Age in Single Cells”, Alexandre Trapp, Csaba Kerepesi, Vadim N. Gladyshev

link-bibliography
https://nintil.com/epigenetic-clocks: “Epigenetic Clocks: A Review”, José Luis

link-bibliography

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