1.Matthews B, Dudchenko O, Kingan S, Koren S, Antoshechkin I, Crawford J, Glassford W, Herre M, Redmond S, Rose N, Weedall G, Wu Y, Batra S, Brito-Sierra C, Buckingham S, Campbell C, Chan S, Cox E, Evans B, Fansiri T, Filipović I, Fontaine A, Gloria-Soria A, Hall R, Joardar V, Jones A, Kay R, Kodali V, Lee J, Lycett G, Mitchell S, Muehling J, Murphy M, Omer A, Partridge F, Peluso P, Aiden A, Ramasamy V, Rašić G, Roy S, Saavedra-Rodriguez K, Sharan S, Sharma A, Smith M, Turner J, Weakley A, Zhao Z, Akbari O, Black W, Cao H, Darby A, Hill C, Johnston S, Murphy T, Raikhel A, Sattelle D, Sharakhov I, White B, Zhao L, Aiden E, Mann R, Lambrechts L, Powell J, Sharakhova M, Tu Z, Robertson H, McBride C, Hastie A, Korlach J, Neafsey D, Phillippy A, Vosshall L. Improved reference genome of Aedes aegypti informs arbovirus vector control. Nature. 2018;563(7732):501–507. PMCID: PMC6421076 Reference Link
1.Brown J, McBride C, Johnson P, Ritchie S, Paupy C, Bossin H, Lutomiah J, Fernandez-Salas I, Ponlawat A, Cornel A, Black W, Gorrochotegui-Escalante N, Urdaneta-Marquez L, Sylla M, Slotman M, Murray K, Walker C, Powell J. Worldwide patterns of genetic differentiation imply multiple ’domestications’ of Aedes aegypti, a major vector of human diseases. Proc Biol Sci. 2011;278(1717):2446–54. PMCID: PMC3125627 Reference Link
