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Items: 1 to 20 of 259

1.
3.

Wolbachia enhances West Nile virus (WNV) infection in the mosquito Culex tarsalis.

Dodson BL, Hughes GL, Paul O, Matacchiero AC, Kramer LD, Rasgon JL.

PLoS Negl Trop Dis. 2014 Jul 10;8(7):e2965. doi: 10.1371/journal.pntd.0002965. eCollection 2014 Jul.

4.

Transmission of West Nile virus by Culex quinquefasciatus say infected with Culex Flavivirus Izabal.

Kent RJ, Crabtree MB, Miller BR.

PLoS Negl Trop Dis. 2010 May 4;4(5):e671. doi: 10.1371/journal.pntd.0000671.

5.

Vector competence of two Indian populations of Culex quinquefasciatus (Diptera: Culicidae) mosquitoes to three West Nile virus strains.

Sudeep AB, Mandar P, Ghodke YK, George RP, Gokhale MD.

J Vector Borne Dis. 2015 Sep;52(3):185-92.

6.

Potential for Co-Infection of a Mosquito-Specific Flavivirus, Nhumirim Virus, to Block West Nile Virus Transmission in Mosquitoes.

Goenaga S, Kenney JL, Duggal NK, Delorey M, Ebel GD, Zhang B, Levis SC, Enria DA, Brault AC.

Viruses. 2015 Nov 11;7(11):5801-12. doi: 10.3390/v7112911.

7.

Relative susceptibilties of South Texas mosquitoes to infection with West Nile virus.

Vanlandingham DL, McGee CE, Klinger KA, Vessey N, Fredregillo C, Higgs S.

Am J Trop Med Hyg. 2007 Nov;77(5):925-8.

PMID:
17984355
8.

Identification of microRNAs expressed in two mosquito vectors, Aedes albopictus and Culex quinquefasciatus.

Skalsky RL, Vanlandingham DL, Scholle F, Higgs S, Cullen BR.

BMC Genomics. 2010 Feb 18;11:119. doi: 10.1186/1471-2164-11-119.

9.

The Potential Use of Wolbachia-Based Mosquito Biocontrol Strategies for Japanese Encephalitis.

Jeffries CL, Walker T.

PLoS Negl Trop Dis. 2015 Jun 18;9(6):e0003576. doi: 10.1371/journal.pntd.0003576. eCollection 2015. Review.

10.

Comparison of Stable and Transient Wolbachia Infection Models in Aedes aegypti to Block Dengue and West Nile Viruses.

Joubert DA, O'Neill SL.

PLoS Negl Trop Dis. 2017 Jan 4;11(1):e0005275. doi: 10.1371/journal.pntd.0005275. eCollection 2017 Jan.

11.

The bacterial symbiont Wolbachia induces resistance to RNA viral infections in Drosophila melanogaster.

Teixeira L, Ferreira A, Ashburner M.

PLoS Biol. 2008 Dec 23;6(12):e2. doi: 10.1371/journal.pbio.1000002.

12.

Feeding patterns of potential West Nile virus vectors in south-west Spain.

Muñoz J, Ruiz S, Soriguer R, Alcaide M, Viana DS, Roiz D, Vázquez A, Figuerola J.

PLoS One. 2012;7(6):e39549. doi: 10.1371/journal.pone.0039549. Epub 2012 Jun 22.

13.

Bagaza virus inhibits Japanese encephalitis & West Nile virus replication in Culex tritaeniorhynchus & Cx. quinquefasciatus mosquitoes.

Sudeep AB, Bondre VP, George R, Ghodke YS, Aher RV, Gokhale MD.

Indian J Med Res. 2015 Dec;142 Suppl:S44-51. doi: 10.4103/0971-5916.176618.

14.

The Impact of Wolbachia on Virus Infection in Mosquitoes.

Johnson KN.

Viruses. 2015 Nov 4;7(11):5705-17. doi: 10.3390/v7112903. Review.

15.

Growth characteristics of the veterinary vaccine candidate ChimeriVax-West Nile (WN) virus in Aedes and Culex mosquitoes.

Johnson BW, Chambers TV, Crabtree MB, Arroyo J, Monath TP, Miller BR.

Med Vet Entomol. 2003 Sep;17(3):235-43.

PMID:
12941006
16.

Vector competence of Culex pipiens quinquefasciatus (Diptera: Culicidae) for West Nile virus isolates from Florida.

Richards SL, Anderson SL, Lord CC.

Trop Med Int Health. 2014 May;19(5):610-7. doi: 10.1111/tmi.12277. Epub 2014 Feb 12.

17.

Vector-host interactions governing epidemiology of West Nile virus in Southern California.

Molaei G, Cummings RF, Su T, Armstrong PM, Williams GA, Cheng ML, Webb JP, Andreadis TG.

Am J Trop Med Hyg. 2010 Dec;83(6):1269-82. doi: 10.4269/ajtmh.2010.10-0392.

18.
19.

Effects of forced egg retention on the temporal progression of West Nile virus infection in Culex pipiens quinquefasciatus (Diptera: Culicidae).

Smartt CT, Richards SL, Anderson SL, Vitek CJ.

Environ Entomol. 2010 Feb;39(1):190-4. doi: 10.1603/EN09172.

20.

A comparision of West Nile Virus transmission by Ochlerotatus trivittatus (COQ.), Culex pipiens (L.), and Aedes albopictus (Skuse).

Tiawsirisup S, Platt KB, Evans RB, Rowley WA.

Vector Borne Zoonotic Dis. 2005 Spring;5(1):40-7.

PMID:
15815148

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