Inference of CRISPR Edits from Sanger Trace Data
Synthego (United States) · Synergia (United States)
Abstract
Efficient and precise genome editing requires a fast, quantitative, and inexpensive assay to assess genotype following editing. Here, we present ICE (Inference of CRISPR Edits), which enables robust analysis of CRISPR edits using Sanger data. ICE proposes potential outcomes for editing with guide RNAs, and then determines which are supported by the data via regression. The ICE algorithm is robust and reproducible, and it can be used to analyze CRISPR experiments within days after transfection. We also confirm that ICE produces accurate estimates of editing outcomes across a variety of benchmarks, and within the context of other existing Sanger analysis tools. The ICE tool is free to use and open source, and…
Citation impact
- FWCI
- 56.56
- Percentile
- 100%
- References
- 19
Authors
12- DSDavid S. ConantCorresponding
Synthego (United States), Synergia (United States)
- THTim Hsiau
Synthego (United States), Synergia (United States)
- NANicholas A. Rossi
Synthego (United States), Synergia (United States)
- JOJennifer Oki
Synthego (United States), Synergia (United States)
- TJTravis J. Maures
Synthego (United States), Synergia (United States)
Topics & keywords
- Computer science
- CRISPR
- Context (archaeology)
- Inference
- TRACE (psycholinguistics)
- Source code
- Variety (cybernetics)
- Genome editing