Genome editing in the malaria parasite Plasmodium relies on homologous recombination and requires parasite transfection in asexual blood stages. Therefore, conditional genetic approaches are needed to delete genes that are essential during blood stage replication. Among these, the dimerizable Cre (DiCre) recombinase system has emerged as a powerful approach for conditional gene knockout in Plasmodium parasites. In this system, the Cre recombinase is expressed in the form of two separate, enzymatically inactive polypeptides. Rapamycin-induced heterodimerization of the two components restores recombinase activity, leading to site-specific excision of floxed DNA sequences. Here, we describe methods to generate genetically modified DiCre-expressing Plasmodium berghei mutants by introducing Lox sites upstream and downstream of a gene of interest and to induce conditional excision of the floxed gene in different stages of the parasite life cycle. Administration of rapamycin to P. berghei-infected mice allows conditional gene deletion in the asexual erythrocytic stages. Rapamycin-induced gene excision can also be achieved in P. berghei sexual blood stages prior to transmission to mosquitoes, or during sporogony by treating P. berghei-infected mosquitoes, both methods allowing functional studies in P. berghei mosquito stages. Finally, rapamycin can be administered to in vitro cell cultures in order to induce gene excision in P. berghei liver stages. Subsequent phenotyping allows for the analysis of essential gene function across the parasite life cycle stages.
Keywords: Conditional gene deletion; DiCre recombinase; Essential genes; Mosquito; Plasmodium; Rapamycin.
© 2021. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.