基因
生物
自闭症
移码突变
遗传学
清脆的
电池类型
表型
模式生物
细胞
计算生物学
医学
精神科
作者
Xin Jin,Sean Simmons,Amy X. Guo,Ashwin S. Shetty,Michelle Ko,Lan Nguyễn,Vahbiz Jokhi,Elise Robinson,Paul Oyler,Nathan Curry,Giulio Deangeli,Simona Lodato,Joshua Z. Levin,Aviv Regev,Feng Zhang,Paola Arlotta
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2020-11-26
卷期号:370 (6520)
被引量:323
标识
DOI:10.1126/science.aaz6063
摘要
The number of disease risk genes and loci identified through human genetic studies far outstrips the capacity to systematically study their functions. We applied a scalable genetic screening approach, in vivo Perturb-Seq, to functionally evaluate 35 autism spectrum disorder/neurodevelopmental delay (ASD/ND) de novo loss-of-function risk genes. Using CRISPR-Cas9, we introduced frameshift mutations in these risk genes in pools, within the developing mouse brain in utero, followed by single-cell RNA-sequencing of perturbed cells in the postnatal brain. We identified cell type-specific and evolutionarily conserved gene modules from both neuronal and glial cell classes. Recurrent gene modules and cell types are affected across this cohort of perturbations, representing key cellular effects across sets of ASD/ND risk genes. In vivo Perturb-Seq allows us to investigate how diverse mutations affect cell types and states in the developing organism.
科研通智能强力驱动
Strongly Powered by AbleSci AI