Assogba_2015_Sci.Rep_5_14529

Reference

Title : An ace-1 gene duplication resorbs the fitness cost associated with resistance in Anopheles gambiae, the main malaria mosquito - Assogba_2015_Sci.Rep_5_14529
Author(s) : Assogba BS , Djogbenou LS , Milesi P , Berthomieu A , Perez J , Ayala D , Chandre F , Makoutode M , Labbe P , Weill M
Ref : Sci Rep , 5 :14529 , 2015
Abstract :

Widespread resistance to pyrethroids threatens malaria control in Africa. Consequently, several countries switched to carbamates and organophophates insecticides for indoor residual spraying. However, a mutation in the ace-1 gene conferring resistance to these compounds (ace-1(R) allele), is already present. Furthermore, a duplicated allele (ace-1(D)) recently appeared; characterizing its selective advantage is mandatory to evaluate the threat. Our data revealed that a unique duplication event, pairing a susceptible and a resistant copy of the ace-1 gene spread through West Africa. Further investigations revealed that, while ace-1(D) confers less resistance than ace-1(R), the high fitness cost associated with ace-1(R) is almost completely suppressed by the duplication for all traits studied. ace-1 duplication thus represents a permanent heterozygote phenotype, selected, and thus spreading, due to the mosaic nature of mosquito control. It provides malaria mosquito with a new evolutionary path that could hamper resistance management.

PubMedSearch : Assogba_2015_Sci.Rep_5_14529
PubMedID: 26434951

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Citations formats

Assogba BS, Djogbenou LS, Milesi P, Berthomieu A, Perez J, Ayala D, Chandre F, Makoutode M, Labbe P, Weill M (2015)
An ace-1 gene duplication resorbs the fitness cost associated with resistance in Anopheles gambiae, the main malaria mosquito
Sci Rep 5 :14529

Assogba BS, Djogbenou LS, Milesi P, Berthomieu A, Perez J, Ayala D, Chandre F, Makoutode M, Labbe P, Weill M (2015)
Sci Rep 5 :14529