多组 Perturb-seq 可扩展地发现转录组和表观基因组的综合扰动效应

Eli Metzner, Kaden M. Southard, Thomas M. Norman
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引用次数: 0

摘要

单细胞 CRISPR 筛选将遗传扰动与转录状态联系起来,但将这些诱导变化与其调控基础联系起来的高通量方法却很有限。在这里,我们介绍了多组Perturb-seq,它扩展了单细胞CRISPR筛选,可同时测量扰动诱导的基因表达和染色质可及性变化。我们在对人类 RPE-1 细胞中的 13 个染色质重塑因子进行 CRISPRi 筛选时应用了 Multiome Perturb-seq,通过改进的从核 RNA 中捕获条形码转录本的方法,将 sgRNA 有效地分配到单个细胞核中。我们将表达和可及性测量结果组织成连贯的程序,描述了扰动对细胞状态的综合影响,发现 ARID1A 和 SUZ12 基因敲除会诱发富含发育特征的程序。对扰动的伪时间分析将可及性变化与基因表达变化联系起来,突出了多模态分析的价值。总之,我们的方法提供了一个可扩展且实施简单的系统来剖析细胞状态的调控逻辑。
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Multiome Perturb-seq unlocks scalable discovery of integrated perturbation effects on the transcriptome and epigenome
Single-cell CRISPR screens link genetic perturbations to transcriptional states, but high-throughput methods connecting these induced changes to their regulatory foundations are limited. Here we introduce Multiome Perturb-seq, extending single-cell CRISPR screens to simultaneously measure perturbation-induced changes in gene expression and chromatin accessibility. We apply Multiome Perturb-seq in a CRISPRi screen of 13 chromatin remodelers in human RPE-1 cells, achieving efficient assignment of sgRNA identities to single nuclei via an improved method for capturing barcode transcripts from nuclear RNA. We organize expression and accessibility measurements into coherent programs describing the integrated effects of perturbations on cell state, finding that ARID1A and SUZ12 knockdowns induce programs enriched for developmental features. Pseudotime analysis of perturbations connects accessibility changes to changes in gene expression, highlighting the value of multimodal profiling. Overall, our method provides a scalable and simply implemented system to dissect the regulatory logic underpinning cell state.
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