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The dimerisable Cre recombinase allows conditional genome editing in the mosquito stages of Plasmodium berghei.


ABSTRACT: Asexual blood stages of the malaria parasite are readily amenable to genetic modification via homologous recombination, allowing functional studies of parasite genes that are not essential in this part of the life cycle. However, conventional reverse genetics cannot be applied for the functional analysis of genes that are essential during asexual blood-stage replication. Various strategies have been developed for conditional mutagenesis of Plasmodium, including recombinase-based gene deletion, regulatable promoters, and mRNA or protein destabilization systems. Among these, the dimerisable Cre (DiCre) recombinase system has emerged as a powerful approach for conditional gene deletion in P. falciparum. In this system, the bacteriophage Cre is expressed in the form of two separate, enzymatically inactive polypeptides, each fused to a different rapamycin-binding protein. Rapamycin-induced heterodimerization of the two components restores recombinase activity. We have implemented the DiCre system in the rodent malaria parasite P. berghei, and show that rapamycin-induced excision of floxed DNA sequences can be achieved with very high efficiency in both mammalian and mosquito parasite stages. This tool can be used to investigate the function of essential genes not only in asexual blood stages, but also in other parts of the malaria parasite life cycle.

SUBMITTER: Fernandes P 

PROVIDER: S-EPMC7549836 | biostudies-literature | 2020

REPOSITORIES: biostudies-literature

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The dimerisable Cre recombinase allows conditional genome editing in the mosquito stages of Plasmodium berghei.

Fernandes Priyanka P   Briquet Sylvie S   Patarot Delphine D   Loubens Manon M   Hoareau-Coudert Bénédicte B   Silvie Olivier O  

PloS one 20201012 10


Asexual blood stages of the malaria parasite are readily amenable to genetic modification via homologous recombination, allowing functional studies of parasite genes that are not essential in this part of the life cycle. However, conventional reverse genetics cannot be applied for the functional analysis of genes that are essential during asexual blood-stage replication. Various strategies have been developed for conditional mutagenesis of Plasmodium, including recombinase-based gene deletion, r  ...[more]

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