Benchmarking and Optimizing Perturb-seq in Differentiating Human Pluripotent Stem Cells

Overview

Journal bioRxiv

Date 2025 Feb 3

PMID 39896670

Authors

Sushama Sivakumar

Yihan Wang

Sean C Goetsch

Vrushali Pandit

Lei Wang

Huan Zhao

Anjana Sundarrajan

Daniel Armendariz

Chikara Takeuchi

Mpathi Nzima

Wei-Chen Chen

Ashley E Dederich

Lauretta El Hayek

Taosha Gao

Renad Ghazawi

Ashlesha Gogate

Kiran Kaur

Hyung Bum Kim

Melissa K McCoy

Hanspeter Niederstrasser

Seiya Oura

Carolos A Pinzon-Arteaga

Menaka Sanghvi

Daniel A Schmitz

Leqian Yu

Yanfeng Zhang

Qinbo Zhou

W Lee Kraus

Lin Xu

Jun Wu

Bruce A Posner

Maria H Chahrour

Gary C Hon

Nikhil V Munshi

Affiliations

Soon will be listed here.

Abstract

Perturb-seq is a powerful approach to systematically assess how genes and enhancers impact the molecular and cellular pathways of development and disease. However, technical challenges have limited its application in stem cell-based systems. Here, we benchmarked Perturb-seq across multiple CRISPRi modalities, on diverse genomic targets, in multiple human pluripotent stem cells, during directed differentiation to multiple lineages, and across multiple sgRNA delivery systems. To ensure cost-effective production of large-scale Perturb-seq datasets as part of the Impact of Genomic Variants on Function (IGVF) consortium, our optimized protocol dynamically assesses experiment quality across the weeks-long procedure. Our analysis of 1,996,260 sequenced cells across benchmarking datasets reveals shared regulatory networks linking disease-associated enhancers and genes with downstream targets during cardiomyocyte differentiation. This study establishes open tools and resources for interrogating genome function during stem cell differentiation.

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