Atyame CM, Alout H, Mousson L, Vazeille M, Diallo M, Weill M, Failloux AB (2019) <br />Insecticide resistance genes affect Culex quinquefasciatus vector competence for West Nile virus<br /><i>Proc Biol Sci</i> <b>286</b>: 20182273<br /><br />Assogba BS, Alout H, Koffi A, Penetier C, Djogbenou LS, Makoundou P, Weill M, Labbe P (2018) <br />Adaptive deletion in resistance gene duplications in the malaria vector Anopheles gambiae<br /><i>Evol Appl</i> <b>11</b>: 1245<br /><br />Milesi P, Assogba BS, Atyame CM, Pocquet N, Berthomieu A, Unal S, Makoundou P, Weill M, Labbe P (2018) <br />The evolutionary fate of heterogeneous gene duplications: A precarious overdominant equilibrium between environment, sublethality and complementation<br /><i>Mol Ecol</i> <b>27</b>: 493<br /><br />Grigoraki L, Pipini D, Labbe P, Chaskopoulou A, Weill M, Vontas J (2017) <br />Carboxylesterase gene amplifications associated with insecticide resistance in Aedes albopictus: Geographical distribution and evolutionary origin<br /><i>PLoS Negl Trop Dis</i> <b>11</b>: e0005533<br /><br />Alout H, Labbe P, Berthomieu A, Makoundou P, Fort P, Pasteur N, Weill M (2016) <br />High chlorpyrifos resistance in Culex pipiens mosquitoes: strong synergy between resistance genes<br /><i>Heredity (Edinb)</i> <b>116</b>: 224<br /><br />Assogba BS, Milesi P, Djogbenou LS, Berthomieu A, Makoundou P, Baba-Moussa LS, Fiston-Lavier AS, Belkhir K, Labbe P, Weill M (2016) <br />The ace-1 Locus Is Amplified in All Resistant Anopheles gambiae Mosquitoes: Fitness Consequences of Homogeneous and Heterogeneous Duplications<br /><i>PLoS Biol</i> <b>14</b>: e2000618<br /><br />Grigoraki L, Lagnel J, Kioulos I, Kampouraki A, Morou E, Labbe P, Weill M, Vontas J (2015) <br />Transcriptome Profiling and Genetic Study Reveal Amplified Carboxylesterase Genes Implicated in Temephos Resistance, in the Asian Tiger Mosquito Aedes albopictus<br /><i>PLoS Negl Trop Dis</i> <b>9</b>: e0003771<br /><br />Assogba BS, Djogbenou LS, Saizonou J, Milesi P, Djossou L, Djegbe I, Oumbouke WA, Chandre F, Baba-Moussa L, Weill M, Makoutode M (2014) <br />Phenotypic effects of concomitant insensitive acetylcholinesterase ( ace-1 R ) and knockdown resistance ( kdr R ) in Anopheles gambiae : a hindrance for insecticide resistance management for malaria vector control<br /><i>Parasit Vectors</i> <b>7</b>: 548<br /><br />Labbe P, Milesi P, Yebakima A, Pasteur N, Weill M, Lenormand T (2014) <br />GENE-dosage effects on fitness in recent adaptive duplications: ace-1 in the mosquito Culex pipiens<br /><i>Evolution</i> <b>68</b>: 2092<br /><br />Pocquet N, Milesi P, Makoundou P, Unal S, Zumbo B, Atyame C, Darriet F, Dehecq JS, Thiria J, Bheecarry A, Iyaloo DP, Weill M, Chandre F, Labbe P (2013) <br />Multiple Insecticide Resistances in the Disease Vector Culex p. Quinquefasciatus from Western Indian Ocean<br /><i>PLoS ONE</i> <b>8</b>: e77855<br /><br />Alout H, Labbe P, Berthomieu A, Djogbenou L, Leonetti JP, Fort P, Weill M (2012) <br />Novel AChE inhibitors for sustainable insecticide resistance management<br /><i>PLoS ONE</i> <b>7</b>: e47125<br /><br />Osta MA, Rizk ZJ, Labbe P, Weill M, Knio K (2012) <br />Insecticide resistance to organophosphates in Culex pipiens complex from Lebanon<br /><i>Parasit Vectors</i> <b>5</b>: 132<br /><br />Alout H, Labbe P, Pasteur N, Weill M (2011) <br />High incidence of ace-1 duplicated haplotypes in resistant Culex pipiens mosquitoes from Algeria<br /><i>Insect Biochemistry & Molecular Biology</i> <b>41</b>: 29<br /><br />Djogbenou L, Pasteur N, Akogbeto M, Weill M, Chandre F (2011) <br />Insecticide resistance in the Anopheles gambiae complex in Benin: a nationwide survey<br /><i>Med Vet Entomol</i> <b>25</b>: 256<br /><br />Djogbenou L, Pasteur N, Bio-Bangana S, Baldet T, Irish SR, Akogbeto M, Weill M, Chandre F (2010) <br />Malaria vectors in the Republic of Benin: distribution of species and molecular forms of the Anopheles gambiae complex<br /><i>Acta Trop</i> <b>114</b>: 116<br /><br />Khajehali J, Van Leeuwen T, Grispou M, Morou E, Alout H, Weill M, Tirry L, Vontas J, Tsagkarakou A (2010) <br />Acetylcholinesterase point mutations in European strains of Tetranychus urticae (Acari: Tetranychidae) resistant to organophosphates<br /><i>Pest Manag Sci</i> <b>66</b>: 220<br /><br />Rivero A, Vezilier J, Weill M, Read AF, Gandon S (2010) <br />Insecticide control of vector-borne diseases: when is insecticide resistance a problem?<br /><i>PLoS Pathog</i> <b>6</b>: e1001000<br /><br />Tantely ML, Tortosa P, Alout H, Berticat C, Berthomieu A, Rutee A, Dehecq JS, Makoundou P, Labbe P, Pasteur N, Weill M (2010) <br />Insecticide resistance in Culex pipiens quinquefasciatus and Aedes albopictus mosquitoes from La Reunion Island<br /><i>Insect Biochemistry & Molecular Biology</i> <b>40</b>: 317<br /><br />Alout H, Labbe P, Berthomieu A, Pasteur N, Weill M (2009) <br />Multiple duplications of the rare ace-1 mutation F290V in Culex pipiens natural populations<br /><i>Insect Biochemistry & Molecular Biology</i> <b>39</b>: 884<br /><br />Ben Cheikh R, Berticat C, Berthomieu A, Pasteur N, Ben Cheikh H, Weill M (2009) <br />Genes conferring resistance to organophosphorus insecticides in Culex pipiens (Diptera: Culicidae) from Tunisia<br /><i>Journal of Medical Entomology</i> <b>46</b>: 523<br /><br />Djogbenou L, Labbe P, Chandre F, Pasteur N, Weill M (2009) <br />Ace-1 duplication in Anopheles gambiae: a challenge for malaria control<br /><i>Malar J</i> <b>8</b>: 70<br /><br />Alout H, Djogbenou L, Berticat C, Chandre F, Weill M (2008) <br />Comparison of Anopheles gambiae and Culex pipiens acetycholinesterase 1 biochemical properties<br /><i>Comparative Biochemistry & Physiology B Biochem Mol Biol</i> <b>150</b>: 271<br /><br />Alout H, Weill M (2008) <br />Amino-acid substitutions in acetylcholinesterase 1 involved in insecticide resistance in mosquitoes<br /><i>Chemico-Biological Interactions</i> <b>175</b>: 138<br /><br />Ben Cheikh R, Berticat C, Berthomieu A, Pasteur N, Ben Cheikh H, Weill M (2008) <br />Characterization of a novel high-activity esterase in Tunisian populations of the mosquito Culex pipiens<br /><i>J Econ Entomol</i> <b>101</b>: 484<br /><br />Berticat C, Bonnet J, Duchon S, Agnew P, Weill M, Corbel V (2008) <br />Costs and benefits of multiple resistance to insecticides for Culex quinquefasciatus mosquitoes<br /><i>BMC Evol Biol</i> <b>8</b>: 104<br /><br />Djogbenou L, Chandre F, Berthomieu A, Dabire R, Koffi A, Alout H, Weill M (2008) <br />Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s<br /><i>PLoS ONE</i> <b>3</b>: e2172<br /><br />Alout H, Berthomieu A, Cui F, Tan Y, Berticat C, Qiao C, Weill M (2007) <br />Different amino-acid substitutions confer insecticide resistance through acetylcholinesterase 1 insensitivity in Culex vishnui and Culex tritaeniorhynchus (Diptera: Culicidae) from China<br /><i>Journal of Medical Entomology</i> <b>44</b>: 463<br /><br />Alout H, Berthomieu A, Hadjivassilis A, Weill M (2007) <br />A new amino-acid substitution in acetylcholinesterase 1 confers insecticide resistance to Culex pipiens mosquitoes from Cyprus<br /><i>Insect Biochemistry & Molecular Biology</i> <b>37</b>: 41<br /><br />Cui F, Qiao CL, Shen BC, Marquine M, Weill M, Raymond M (2007) <br />Genetic differentiation of Culex pipiens (Diptera: Culicidae) in China<br /><i>Bull Entomol Res</i> <b>97</b>: 291<br /><br />Cui F, Weill M, Berthomieu A, Raymond M, Qiao CL (2007) <br />Characterization of novel esterases in insecticide-resistant mosquitoes<br /><i>Insect Biochemistry & Molecular Biology</i> <b>37</b>: 1131<br /><br />Djogbenou L, Weill M, Hougard JM, Raymond M, Akogbeto M, Chandre F (2007) <br />Characterization of insensitive acetylcholinesterase (ace-1R) in Anopheles gambiae (Diptera: Culicidae): resistance levels and dominance<br /><i>Journal of Medical Entomology</i> <b>44</b>: 805<br /><br />Labbe P, Berticat C, Berthomieu A, Unal S, Bernard C, Weill M, Lenormand T (2007) <br />Forty years of erratic insecticide resistance evolution in the mosquito Culex pipiens<br /><i>PLoS Genet</i> <b>3</b>: e205<br /><br />Labbe P, Berthomieu A, Berticat C, Alout H, Raymond M, Lenormand T, Weill M (2007) <br />Independent duplications of the acetylcholinesterase gene conferring insecticide resistance in the mosquito Culex pipiens<br /><i>Molecular Biology Evolution</i> <b>24</b>: 1056<br /><br />Cui F, Raymond M, Berthomieu A, Alout H, Weill M, Qiao CL (2006) <br />Recent emergence of insensitive acetylcholinesterase in Chinese populations of the mosquito Culex pipiens (Diptera: Culicidae)<br /><i>Journal of Medical Entomology</i> <b>43</b>: 878<br /><br />Duron O, Labbe P, Berticat C, Rousset F, Guillot S, Raymond M, Weill M (2006) <br />High Wolbachia density correlates with cost of infection for insecticide resistant Culex pipiens mosquitoes<br /><i>Evolution</i> <b>60</b>: 303<br /><br />Huchard E, Martinez M, Alout H, Douzery EJ, Lutfalla G, Berthomieu A, Berticat C, Raymond M, Weill M (2006) <br />Acetylcholinesterase genes within the Diptera: takeover and loss in true flies<br /><i>Proc Biol Sci</i> <b>273</b>: 2595<br /><br />Weill M, Malcolm C, Chandre F, Mogensen K, Berthomieu A, Marquine M, Raymond M (2004) <br />The unique mutation in ace-1 giving high insecticide resistance is easily detectable in mosquito vectors<br /><i>Insect Molecular Biology</i> <b>13</b>: 1<br /><br />Weill M, Berthomieu A, Berticat C, Lutfalla G, Negre V, Pasteur N, Philips A, Leonetti JP, Fort P, Raymond M (2004) <br />Insecticide resistance: a silent base prediction<br /><i>Current Biology</i> <b>14</b>: R552<br /><br />Weill M, Lutfalla G, Mogensen K, Chandre F, Berthomieu A, Berticat C, Pasteur N, Philips A, Fort P, Raymond M (2003) <br />Comparative genomics: Insecticide resistance in mosquito vectors<br /><i>Nature</i> <b>423</b>: 136<br /><br />Weill M, Duron O, Labbe P, Berthomieu A, Raymond M (2003) <br />[Insecticide resistance in the mosquito Culex pipiens]<br /><i>Med Sci (Paris)</i> <b>19</b>: 1190<br /><br />Berticat C, Rousset F, Raymond M, Berthomieu A, Weill M (2002) <br />High Wolbachia density in insecticide-resistant mosquitoes<br /><i>Proc Biol Sci</i> <b>269</b>: 1413<br /><br />Weill M, Fort P, Berthomieu A, Dubois MP, Pasteur N, Raymond M (2002) <br />A novel acetylcholinesterase gene in mosquitoes codes for the insecticide target and is non-homologous to the ace gene Drosophila<br /><i>Proc R Soc Lond B Biol Sci</i> <b>269</b>: 2007<br /><br />Raymond M, Berticat C, Weill M, Pasteur N, Chevillon C (2001) <br />Insecticide resistance in the mosquito culex pipiens: what have we learned about adaptation?<br /><i>Genetica</i> <b>112-113</b>: 287<br /><br />Weill M, Marquine M, Berthomieu A, Dubois MP, Bernard C, Qiao CL, Raymond M (2001) <br />Identification and characterization of novel organophosphate detoxifying esterase alleles in the Guangzhou area of China<br /><i>J Am Mosq Control Assoc</i> <b>17</b>: 238<br /><br />Weill M, Berticat C, Raymond M, Chevillon C (2000) <br />Quantitative polymerase chain reaction to estimate the number of amplified esterase genes in insecticide-resistant mosquitoes<br /><i>Analytical Biochemistry</i> <b>285</b>: 267<br /><br />Weill M, Chandre F, Brengues C, Manguin S, Akogbeto M, Pasteur N, Guillet P, Raymond M (2000) <br />The kdr mutation occurs in the Mopti form of Anopheles gambiae s.s. through introgression<br /><i>Insect Molecular Biology</i> <b>9</b>: 451<br /><br />