利用聚合引物编辑技术高通量筛选人类遗传变异。

IF 11.1 Q1 CELL BIOLOGY

Cell genomics Pub Date : 2025-04-09 Epub Date: 2025-03-21 DOI:10.1016/j.xgen.2025.100814

Michael Herger, Christina M Kajba, Megan Buckley, Ana Cunha, Molly Strom, Gregory M Findlay

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引用次数: 0

摘要

变异效应的多重分析（MAVEs）能够对人类遗传变异进行可扩展的功能评估。然而，已建立的maaves受到外源变体表达或基因组编辑约束的限制。在这里，我们引入了一个汇集的初始编辑（PE）平台，以可扩展地分析内源性环境中的变异。我们首先提高了HAP1细胞中PE的效率，定义了最佳的引物编辑指导RNA （pegRNA）设计，并通过共选择建立了编辑细胞的富集。接下来，我们通过测试超过7500个针对SMARCB1的pegrna，并观察有效安装的功能缺失（LoF）变体的耗尽，展示了负选择筛选。然后，我们通过6-硫鸟苷选择筛选MLH1的LoF变异，在200 bp区域测试了65.3%的所有可能的snv，包括ClinVar的外显子10和362个非编码变异，跨越60 kb区域。该平台在区分致病变异方面的总体准确性表明，它对于识别跨大基因组区域的不同人类表型的新变异具有很高的价值。

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High-throughput screening of human genetic variants by pooled prime editing.

Multiplexed assays of variant effect (MAVEs) enable scalable functional assessment of human genetic variants. However, established MAVEs are limited by exogenous expression of variants or constraints of genome editing. Here, we introduce a pooled prime editing (PE) platform to scalably assay variants in their endogenous context. We first improve efficiency of PE in HAP1 cells, defining optimal prime editing guide RNA (pegRNA) designs and establishing enrichment of edited cells via co-selection. We next demonstrate negative selection screening by testing over 7,500 pegRNAs targeting SMARCB1 and observing depletion of efficiently installed loss-of-function (LoF) variants. We then screen for LoF variants in MLH1 via 6-thioguanine selection, testing 65.3% of all possible SNVs in a 200-bp region including exon 10 and 362 non-coding variants from ClinVar spanning a 60-kb region. The platform's overall accuracy for discriminating pathogenic variants indicates that it will be highly valuable for identifying new variants underlying diverse human phenotypes across large genomic regions.

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来源期刊

Cell genomics

CiteScore

7.10

自引率

0.00%

发文量