Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.

Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.

BACKGROUND:The role of inter-specific hybridisation is of particular importance in mosquito disease vectors for predicting the evolution of insecticide resistance. Two molecular forms of Anopheles gambiae s.s., currently recognized as S and M taxa, are considered to be incipient sibling species. Hyb...

Full description

Bibliographic Details
Main Authors: Luc Djogbénou, Fabrice Chandre, Arnaud Berthomieu, Roch Dabiré, Alphonsine Koffi, Haoues Alout, Mylène Weill
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2008-05-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/18478097/pdf/?tool=EBI
id doaj-93288860c558416cb27938aeb3447937
record_format Article
spelling doaj-93288860c558416cb27938aeb34479372021-03-03T19:55:44ZengPublic Library of Science (PLoS)PLoS ONE1932-62032008-05-0135e217210.1371/journal.pone.0002172Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.Luc DjogbénouFabrice ChandreArnaud BerthomieuRoch DabiréAlphonsine KoffiHaoues AloutMylène WeillBACKGROUND:The role of inter-specific hybridisation is of particular importance in mosquito disease vectors for predicting the evolution of insecticide resistance. Two molecular forms of Anopheles gambiae s.s., currently recognized as S and M taxa, are considered to be incipient sibling species. Hybrid scarcity in the field was suggested that differentiation of M and S taxa is maintained by limited or absent gene flow. However, recent studies have revealed shared polymorphisms within the M and S forms, and a better understanding of the occurrence of gene flow is needed. One such shared polymorphism is the G119S mutation in the ace-1 gene (which is responsible for insecticide resistance); this mutation has been described in both the M and S forms of A. gambiae s.s. METHODS AND RESULTS:To establish whether the G119S mutation has arisen independently in each form or by genetic introgression, we analysed coding and non-coding sequences of ace-1 alleles in M and S mosquitoes from representative field populations. Our data revealed many polymorphic sites shared by S and M forms, but no diversity was associated with the G119S mutation. These results indicate that the G119S mutation was a unique event and that genetic introgression explains the observed distribution of the G119S mutation within the two forms. However, it was impossible to determine from our data whether the mutation occurred first in the S form or in the M form. Unexpectedly, sequence analysis of some resistant individuals revealed a duplication of the ace-1 gene that was observed in both A. gambiae s.s. M and S forms. Again, the distribution of this duplication in the two forms most likely occurred through introgression. CONCLUSIONS:These results highlight the need for more research to understand the forces driving the evolution of insecticide resistance in malaria vectors and to regularly monitor resistance in mosquito populations of Africa.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/18478097/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Luc Djogbénou
Fabrice Chandre
Arnaud Berthomieu
Roch Dabiré
Alphonsine Koffi
Haoues Alout
Mylène Weill
spellingShingle Luc Djogbénou
Fabrice Chandre
Arnaud Berthomieu
Roch Dabiré
Alphonsine Koffi
Haoues Alout
Mylène Weill
Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
PLoS ONE
author_facet Luc Djogbénou
Fabrice Chandre
Arnaud Berthomieu
Roch Dabiré
Alphonsine Koffi
Haoues Alout
Mylène Weill
author_sort Luc Djogbénou
title Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
title_short Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
title_full Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
title_fullStr Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
title_full_unstemmed Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s.
title_sort evidence of introgression of the ace-1(r) mutation and of the ace-1 duplication in west african anopheles gambiae s. s.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2008-05-01
description BACKGROUND:The role of inter-specific hybridisation is of particular importance in mosquito disease vectors for predicting the evolution of insecticide resistance. Two molecular forms of Anopheles gambiae s.s., currently recognized as S and M taxa, are considered to be incipient sibling species. Hybrid scarcity in the field was suggested that differentiation of M and S taxa is maintained by limited or absent gene flow. However, recent studies have revealed shared polymorphisms within the M and S forms, and a better understanding of the occurrence of gene flow is needed. One such shared polymorphism is the G119S mutation in the ace-1 gene (which is responsible for insecticide resistance); this mutation has been described in both the M and S forms of A. gambiae s.s. METHODS AND RESULTS:To establish whether the G119S mutation has arisen independently in each form or by genetic introgression, we analysed coding and non-coding sequences of ace-1 alleles in M and S mosquitoes from representative field populations. Our data revealed many polymorphic sites shared by S and M forms, but no diversity was associated with the G119S mutation. These results indicate that the G119S mutation was a unique event and that genetic introgression explains the observed distribution of the G119S mutation within the two forms. However, it was impossible to determine from our data whether the mutation occurred first in the S form or in the M form. Unexpectedly, sequence analysis of some resistant individuals revealed a duplication of the ace-1 gene that was observed in both A. gambiae s.s. M and S forms. Again, the distribution of this duplication in the two forms most likely occurred through introgression. CONCLUSIONS:These results highlight the need for more research to understand the forces driving the evolution of insecticide resistance in malaria vectors and to regularly monitor resistance in mosquito populations of Africa.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/18478097/pdf/?tool=EBI
work_keys_str_mv AT lucdjogbenou evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT fabricechandre evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT arnaudberthomieu evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT rochdabire evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT alphonsinekoffi evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT haouesalout evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
AT myleneweill evidenceofintrogressionoftheace1rmutationandoftheace1duplicationinwestafricananophelesgambiaess
_version_ 1714824957757751296

Similar Items