核苷类似物的掺入将基因组修复位点映射到有丝分裂后人类神经元中。
Incorporation of a nucleoside analog maps genome repair sites in postmitotic human neurons.
机构信息
Laboratory of Genetics, The Salk Institute for Biological Studies, 10010 North Torrey Pines Road, La Jolla, CA 92037-1002, USA.
Department of Cellular and Molecular Medicine, University of California, San Diego, 9500 Gilman Drive, La Jolla, CA 92037-0651, USA.
出版信息
Science. 2021 Apr 2;372(6537):91-94. doi: 10.1126/science.abb9032.
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.
摘要
神经元是我们体内寿命最长的细胞,缺乏 DNA 复制,这使得它们依赖有限的 DNA 修复机制来维持基因组的完整性。这些修复机制会随着年龄的增长而下降,但我们对基因组不稳定性是如何出现的以及神经元和其他长寿细胞可能在人类寿命期间进化出什么策略来保护其基因组知之甚少。在人类胚胎干细胞诱导的神经元中采用靶向测序方法表明,在神经元中,DNA 修复富集在明确的热点上,这些热点保护着必需基因。这些热点富含组蛋白 H2A 异构体和 RNA 结合蛋白,并与人类基因组中进化上保守的元件相关联。这些发现为理解与神经系统衰老和疾病相关的基因组完整性提供了基础。
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