Literature DB >> 33795458

Incorporation of a nucleoside analog maps genome repair sites in postmitotic human neurons.

Dylan A Reid1, Patrick J Reed2, Johannes C M Schlachetzki3, Ioana I Nitulescu2, Grace Chou4, Enoch C Tsui2, Jeffrey R Jones2, Sahaana Chandran5, Ake T Lu6, Claire A McClain2, Jean H Ooi2, Tzu-Wen Wang4, Addison J Lana3, Sara B Linker2, Anthony S Ricciardulli2, Shong Lau2, Simon T Schafer2, Steve Horvath6,7, Jesse R Dixon5, Nasun Hah4, Christopher K Glass3, Fred H Gage1.   

Abstract

Neurons are the longest-lived cells in our bodies and lack DNA replication, which makes them reliant on a limited repertoire of DNA repair mechanisms to maintain genome fidelity. These repair mechanisms decline with age, but we have limited knowledge of how genome instability emerges and what strategies neurons and other long-lived cells may have evolved to protect their genomes over the human life span. A targeted sequencing approach in human embryonic stem cell-induced neurons shows that, in neurons, DNA repair is enriched at well-defined hotspots that protect essential genes. These hotspots are enriched with histone H2A isoforms and RNA binding proteins and are associated with evolutionarily conserved elements of the human genome. These findings provide a basis for understanding genome integrity as it relates to aging and disease in the nervous system.
Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2021        PMID: 33795458      PMCID: PMC9179101          DOI: 10.1126/science.abb9032

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   63.714


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