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A benchmarked, high-efficiency prime editing platform for multiplexed dropout screening.

Ann Cirincione1, Danny Simpson1, Weihao Yan2

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This study presents a high-efficiency prime editing platform for precise genome editing. The platform enables functional genomics screening of genetic variants, identifying essential genes and splice site disruptions.

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Area of Science:

  • Genomics
  • Molecular Biology
  • Genetic Engineering

Background:

  • Prime editing offers precise genomic modifications but faces challenges with low and variable editing efficiencies, limiting its use in high-throughput functional genomics.
  • Developing efficient prime editing tools is crucial for advancing the study of genetic variants and their functional impact.

Purpose of the Study:

  • To establish a high-efficiency prime editing platform for substitution editing.
  • To enable functional interrogation of small genetic variants using pooled screening.
  • To characterize the functional impact of specific mutations in essential genes.

Main Methods:

  • Assembly of a prime editing platform for high-efficiency substitution editing.
  • Benchmarking the platform using a library of approximately 240,000 engineered prime editing guide RNAs (epegRNAs).
  • Targeting approximately 17,000 codons with 1-3 base pair substitutions for pooled, loss-of-function screening.

Main Results:

  • Identification of negative selection phenotypes for 7,996 nonsense mutations in 1,149 essential genes.
  • Detection of phenotypes for synonymous mutations disrupting splice site motifs at 3' exon boundaries.
  • Demonstration of high specificity for intended edits through rigorous evaluation of codon-matched controls.

Conclusions:

  • The developed prime editing approach facilitates high-efficiency, multiplexed functional characterization of genetic variants.
  • This platform enables simple readouts for assessing the functional impact of genetic variations.
  • The study advances the application of prime editing in functional genomics and variant analysis.