Optimizing ErCas12a for efficient gene editing in Arabidopsis thaliana.

The ErCas12a nuclease, also known as MAD7, is part of a CRISPR/Cas system from Eubacterium rectale and distantly related to Cas12a nucleases. As it shares only 31% sequence homology with the commonly used AsCas12a, its intellectual property may not be covered by the granted patent rights for Cas12a nucleases. Thus, ErCas12a became an attractive alternative for practical applications. However, the editing efficiency of ErCas12a is strongly target sequence- and temperature-dependent. Therefore, optimization of the enzyme activity through protein engineering is especially attractive for its application in plants, as they are cultivated at lower temperatures. Based on the knowledge obtained from the optimization of Cas12a nucleases, we opted to improve the gene editing efficiency of ErCas12a by introducing analogous amino acid exchanges. Interestingly, neither of these mutations analogous to those in the enhanced or Ultra versions of AsCas12a resulted in significant editing enhancement of ErCas12a in Arabidopsis thaliana. However, two different mutations, V156R and K172R, in putative alpha helical structures of the enzyme showed a detectable improvement in editing. By combining these two mutations, we obtained an improved ErCas12a (imErCas12a) variant, showing several-fold increase in activity in comparison to the wild-type enzyme in Arabidopsis. This variant yields strong editing efficiencies at 22 °C which could be further increased by raising the cultivation temperature to 28 °C and even enabled editing of formerly inaccessible targets. Additionally, no enhanced off-site activity was detected. Thus, imErCas12a is an economically attractive and efficient alternative to other CRISPR/Cas systems for plant genome engineering. © 2023 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.

Citation

Janine Pietralla, Niklas Capdeville, Patrick Schindele, Holger Puchta. Optimizing ErCas12a for efficient gene editing in Arabidopsis thaliana. Plant biotechnology journal. 2024 Feb;22(2):401-412

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PMID: 37864303

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