Ubiquitylome study identifies increased histone 2A ubiquitylation as an evolutionarily conserved aging biomarker

Ubiquitylome study identifies increased histone 2A ubiquitylation as an evolutionarily conserved aging biomarker

Post-translational protein modifications can affect lifespan and aging but age-dependent ubiquitylation changes have not yet been systematically characterized. Here, the authors analyze age-related proteome and ubiquitylome dynamics in Drosophila and identify increasing H2A ubiquitylation as a conse...

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Auteurs principaux: Lu Yang, Zaijun Ma, Han Wang, Kongyan Niu, Ye Cao, Le Sun, Yang Geng, Bo Yang, Feng Gao, Zuolong Chen, Zhen Wu, Qingqing Li, Yong Shen, Xumin Zhang, Hong Jiang, Yelin Chen, Rui Liu, Nan Liu, Yaoyang Zhang
Format: article
Langue:EN
Publié: Nature Portfolio 2019
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Science
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Accès en ligne:https://doaj.org/article/f03d59fd69bc4bcba96f8c0cd012a7b5
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Résumé:Post-translational protein modifications can affect lifespan and aging but age-dependent ubiquitylation changes have not yet been systematically characterized. Here, the authors analyze age-related proteome and ubiquitylome dynamics in Drosophila and identify increasing H2A ubiquitylation as a conserved aging marker.

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