活体内细胞谱系树的早期发育不对称性。
Early developmental asymmetries in cell lineage trees in living individuals.
机构信息
Child Study Center, Yale University, New Haven, CT 06520, USA.
Department of Quantitative Health Sciences, Center for Individualized Medicine, Mayo Clinic, Rochester, MN 55905, USA.
出版信息
Science. 2021 Mar 19;371(6535):1245-1248. doi: 10.1126/science.abe0981.
Abstract
Mosaic mutations can be used to track cell lineages in humans. We used cell cloning to analyze embryonic cell lineages in two living individuals and a postmortem human specimen. Of 10 reconstructed postzygotic divisions, none resulted in balanced contributions of daughter lineages to tissues. In both living individuals, one of two lineages from the first cleavage was dominant across tissues, with 90% frequency in blood. We propose that the efficiency of DNA repair contributes to lineage imbalance. Allocation of lineages in postmortem brain correlated with anterior-posterior axis, associating lineage history with cell fate choices in embryos. We establish a minimally invasive framework for defining cell lineages in any living individual, which paves the way for studying their relevance in health and disease.
摘要
镶嵌突变可用于追踪人类的细胞谱系。我们使用细胞克隆技术分析了两个活体和一个死后人体标本中的胚胎细胞谱系。在 10 次重建的合子后分裂中,没有一次导致子谱系在组织中的平衡贡献。在两个活体个体中,第一次分裂的两个谱系中的一个在组织中占主导地位,在血液中的频率为 90%。我们提出,DNA 修复的效率有助于谱系失衡。死后大脑中的谱系分配与前后轴相关,将谱系历史与胚胎中的细胞命运选择联系起来。我们建立了一个用于定义任何活体个体中细胞谱系的微创框架,为研究它们在健康和疾病中的相关性铺平了道路。
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