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1 y the global spread of the invasive mosquito Aedes albopictus.
2 tly introduced in central Africa, along with Aedes albopictus.
3 untry, probably facilitated by the spread of Aedes albopictus.
4 of Sindbis virus in cells of the insect host Aedes albopictus.
5 om cells derived from both Aedes aegypti and Aedes albopictus.
6 logical characteristics of Aedes aegypti and Aedes albopictus, 2 invasive mosquito species and primar
7 ica and Asia, the adaptation of the virus to Aedes albopictus, a mosquito species with an almost worl
8 ecause of genetic adaptation of the virus to Aedes albopictus, a species that thrives in temperate re
9 wMel strain of Drosophila melanogaster into Aedes albopictus, a vector of dengue and other arbovirus
12 hropod cell lines (derived from An. gambiae, Aedes albopictus and Drosophila melanogaster) and six mo
13 utogenous strain in the Asian tiger mosquito Aedes albopictus and examined an F(1) intercross populat
14 d a Wolbachia superinfection in the mosquito Aedes albopictus and found the infection to be associate
18 ns by the mosquito vectors Aedes aegypti and Aedes albopictus are hypothesized to have evolved from s
19 e, and the range of invasive species such as Aedes albopictus (Asian Tiger Mosquito) is expanding.
22 the expression plasmids and introduced into Aedes albopictus C6/36 cells by electroporation or into
24 nt viruses were generated and used to infect Aedes albopictus (C6/36) mosquito cells, which were chal
25 dbis produced from three different mosquito (Aedes albopictus) cell lines; one other insect cell line
26 licate in mammalian BHK-21 cells or mosquito Aedes albopictus cells and rapidly reverted catalyticall
28 arison of density-arrested and cycling C6/36 Aedes albopictus cells infected with a low-passage DEN2
29 roteins were targeted to the Golgi region of Aedes albopictus cells, both in the presence and absence
31 N-2; Jamaica) genome was expressed in C6/36 (Aedes albopictus) cells in either the sense or the antis
34 s (Anopheles sinensis, Armigeres subalbatus, Aedes albopictus, Culex quinquefasciatus and Cu. tritaen
35 ease of Wolbachia-infected Aedes aegypti and Aedes albopictus, for either its virus-blocking capabili
36 irus (CHIKV) to infect and be transmitted by Aedes albopictus has increased the geographical range at
38 e Culex pipiens Complex, and, most recently, Aedes albopictus have been facilitated by worldwide ship
41 ficiency in a historically secondary vector, Aedes albopictus, leading to speculation that this was a
43 ive CHIKV strains to an atypical vector, the Aedes albopictus mosquito that is ubiquitously distribut
46 (CHIKV) is transmitted by Aedes aegypti and Aedes albopictus mosquitoes and causes febrile illness w
47 rent Wolbachia strains: wAlbB (isolated from Aedes albopictus mosquitoes) and wStri (isolated from th
48 4) are spread primarily by Aedes aegypti and Aedes albopictus mosquitoes, whose geographic range cont
49 ed to humans by the bite of Aedes aegypti or Aedes albopictus mosquitoes, with millions of infections
52 ithin 100 m, p = 0.028); and total burden of Aedes albopictus (number of female and male larvae and a
53 y, the highly invasive Asian tiger mosquito, Aedes albopictus, rapidly displaced resident populations
54 n of their shared vectors, Aedes aegypti and Aedes albopictus remains incomplete and is complicated b
56 near the homes of coinfected patients, and 1 Aedes albopictus specimen was found to be positive for b
57 y mosquito vector species: Aedes aegypti and Aedes albopictus The model was parameterized and calibra
59 owed CHIKV to exploit a new epidemic vector, Aedes albopictus, via an A226V substitution in the E1 en
61 2011, a population of Asian tiger mosquito (Aedes albopictus) was discovered in Los Angeles (LA) Cou
62 from Spodoptera exigua, Helicoverpa zea and Aedes albopictus, whereas cells from Drosophila melanoga
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