Functional genomic analyses of Enterobacter, Anopheles and Plasmodium reciprocal interactions that impact vector competence.

Esp_Z is capable of inhibiting sporogonic development of Plasmodium in the presence of the mosquito's native microbiota without affecting mosquito fitness. Several candidate bacterial genes are likely mediating midgut colonization and ROS production, and inhibition of Plasmodium development appears to involve a shutdown of the parasite's oxidative defence system. A better understanding of the complex reciprocal tripartite interactions can facilitate the development and optimization of an Esp_Z-based malaria control strategy.