Frontiers in genome editing

Efficient gene editing in maize using CRISPR-Cas12a protein complexes

Updated

Abstract

Genome editing lines in maize were obtained at an average frequency of 60% when using a specific delivery method.

  • CRISPR-Cas9 and CRISPR-Cas12a are the main genome editing systems used for crop modification.
  • Low editing frequency was observed in crucial crops like maize and soybean when using transgene-expressed CRISPR-Cas12a.
  • Direct delivery of the Cas12a-gRNA complex to immature maize embryos improved editing efficiency.
  • The combination of Cas12a RNP with a selectable marker gene cassette significantly enhanced gene editing rates.
  • Higher activity mutants of Cas12a resulted in better editing efficiency in difficult target sequences.

Simplified

Key numbers

60%
Editing Efficiency Increase
Average editing frequency achieved with Cas12a delivery.
100%
Maximum Editing Rate
Editing rate reached in specific experiments with co-delivery of a selectable marker.

Full Text

What this is

  • CRISPR-Cas12a offers an efficient method for targeted mutagenesis in maize.
  • The study demonstrates high editing efficiency using () complexes delivered to immature embryos.
  • Editing rates reached up to 60% on average, with some experiments achieving 100%.
  • The findings suggest that delivery can enhance genetic improvements in maize without the need for transgenic methods.

Essence

  • Efficient genome editing in maize was achieved using Cas12a complexes delivered via particle bombardment. The method resulted in an average editing frequency of 60%, significantly improving upon previous techniques.

Key takeaways

  • Cas12a delivery to immature maize embryos resulted in an average editing efficiency of 60%. This method allows for rapid generation of genome-edited lines without selection during regeneration.
  • Co-delivering Cas12a with a selectable marker gene increased editing rates to 100% in some cases. This approach demonstrates the potential for enhanced precision in crop genetic modification.
  • Using higher activity Cas12a mutants improved editing efficiency, particularly in challenging target sequences. This finding emphasizes the importance of enzyme selection in CRISPR applications.

Caveats

  • Editing efficiency varies among different maize targets, indicating that not all genomic regions are equally amenable to CRISPR-Cas12a editing. Further optimization may be required for specific applications.
  • The study primarily focuses on immature embryos and protoplasts, which may not fully represent the efficiency in mature plants. Results in field conditions need validation.

Definitions

  • Ribonucleoprotein (RNP): A complex of RNA and protein that can facilitate targeted genome editing without integrating DNA into the host genome.

Simplified

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