Molecular Therapy: Methods & Clinical Development (Jun 2021)

CRISPAltRations: A validated cloud-based approach for interrogation of double-strand break repair mediated by CRISPR genome editing

  • Gavin Kurgan,
  • Rolf Turk,
  • Heng Li,
  • Nathan Roberts,
  • Garrett R. Rettig,
  • Ashley M. Jacobi,
  • Lauren Tso,
  • Morgan Sturgeon,
  • Massimo Mertens,
  • Roel Noten,
  • Kurt Florus,
  • Mark A. Behlke,
  • Yu Wang,
  • Matthew S. McNeill

Journal volume & issue
Vol. 21
pp. 478 – 491

Abstract

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CRISPR systems enable targeted genome editing in a wide variety of organisms by introducing single- or double-strand DNA breaks, which are repaired using endogenous molecular pathways. Characterization of on- and off-target editing events from CRISPR proteins can be evaluated using targeted genome resequencing. We characterized DNA repair fingerprints that result from non-homologous end joining (NHEJ) after double-stranded breaks (DSBs) were introduced by Cas9 or Cas12a for >500 paired treatment/control experiments. We found that building biological understanding of the repair into a novel analysis tool (CRISPAltRations) improved the quality of the results. We validated our software using simulated, targeted amplicon sequencing data (11 guide RNAs [gRNAs] and 603 on- and off-target locations) and demonstrated that CRISPAltRations outperforms other publicly available software tools in accurately annotating CRISPR-associated indels and homology-directed repair (HDR) events. We enable non-bioinformaticians to use CRISPAltRations by developing a web-accessible, cloud-hosted deployment, which allows rapid batch processing of samples in a graphical user interface (GUI) and complies with HIPAA security standards. By ensuring that our software is thoroughly tested, version controlled, and supported with a user interface (UI), we enable resequencing analysis of CRISPR genome editing experiments to researchers no matter their skill in bioinformatics.

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