Gloria-Soria A, Payne AF, Bialosuknia SM, Stout J, Mathias N, Eastwood G, Ciota AT, Kramer LD, Armstrong PM. Vector Competence of Aedes albopictus Populations from the Northeastern United States for Chikungunya, Dengue, and Zika Viruses. Am J Trop Med Hyg. 2020 Dec 21. doi: 10.4269/ajtmh.20-0874. Epub ahead of print. PMID: 33355070.

Soghigian J., Gloria-Soria A., Robert V., Le Goff, G., Failloux, A-B., Powell, J.R. (2020) Genetic evidence for the origin of Aedes aegypti, the yellow fever mosquito, in the southwestern Indian Ocean. Molecular Ecology. Mol Ecol. 2020; 29: 35933606.

Rose N.H., Sylla M., Badolo A., Lutomiah J., Ayala D., Aribodor O.B., Ibe N., Akorli J., Otoo S., Mutebi J-P, Kriete A.L., Ewing E.G., Sang R., Gloria-Soria A., Powell J.R., Baker R.E., White B.J., Crawford J.E., McBride C.S. (2020). Climate and Urbanization Drive Mosquito Preference for Humans. Current Biology. Early online – July 23. DOI:

Gloria‐Soria, A, Mendiola, SY, Morley, VJ, Alto, BW, Turner, PE. Prior evolution in stochastic versus constant temperatures affects RNA virus evolvability at a thermal extreme. Ecol Evol. 2020; 00: 111.

Artem Baidaliuk, Sébastian Lequime, Isabelle Moltini-Conclois, Stéphanie Dabo, Laura B Dickson, Matthieu Prot, Veasna Duong, Philippe Dussart, Sébastien Boyer, Chenyan Shi, Jelle Matthijnssens, Julien Guglielmini, Andrea Gloria‐Soria, Etienne Simon-Lorière, Louis Lambrechts, Novel genome sequences of cell-fusing agent virus allow comparison of virus phylogeny with the genetic structure of Aedes aegypti populations, Virus Evolution, Volume 6, Issue 1, January 2020, veaa018,

Cosme, L.V., Gloria-Soria, A., Caccone, A., Powell, J.R. and Martins, A.J., 2020. Evolution of kdr haplotypes in worldwide populations of Aedes aegypti: Independent origins of the F1534C kdr mutation. PLOS Neglected Tropical Diseases, 14(4), p.e0008219.

Gloria-Soria, A., Soghigian, J., Kellner, D. and Powell, J.R., 2019. Genetic diversity of laboratory strains and implications for research: The case of Aedes aegypti. PLoS neglected tropical diseases, 13(12), p.e0007930.

Armstrong, P.M., Ehrlich, H.Y., Magalhaes, T., Miller, M.R., Conway, P.J., Bransfield, A., Misencik, M.J., Gloria-Soria, A., Warren, J.L., Andreadis, T.G. and Shepard, J.J., Foy, B.D., Pitzer, V.E., Brackney, D.E. 2019. Successive blood meals enhance virus dissemination within mosquitoes and increase transmission potential. Nature Microbiology, pp.1-9.

Matthews B.J., Dudchenko O., […], Gloria-Soria A., […], and Vosshall L.B. 2018. De novo genome reference assembly of the Aedes aegypti mosquito enables new intervention strategies. Nature. 563: 501-507.

Powell JR., Gloria-Soria A., Kotsakiozi P. 2018. Recent History of Aedes aegypti: Vector genomics and epidemiology records. BioScience 68(11): 854–860 Published in advance on October 31st, 2018.

Kotsakiozi P, Evans BR, GloriaSoria A, et al. 2018. Population structure of a vector of human diseases: Aedes aegypti in its ancestral range, Africa. Ecol Evol. 2018; 8:7835–7848.

Kotsakiozi P., Gloria-Soria A., Schaffner F., Robert V., and Powell J.R. 2018. Aedes aegypti in the Black Sea: Recent Introduction or Ancient Remnant? Parasites & Vectors. 11(1), p.396.

Gloria-Soria A., Chiodo T., and Powell P.R. 2018. Lack of Evidence for Natural Wolbachia Infections in Aedes aegypti (Diptera: Culicidae). Journal of Medical Entomology. 55(5):1354-1356.

Gloria-Soria, A., Mendiola, S., Morley, V.J. and Turner, P.E., 2018. A48 Evolutionary history constrains adaptation in vesicular stomatitis virus. Virus evolution, 4(suppl_1), pp.vey010-047. (Abstract).

Uraki, R., Hastings, A.K., Gloria-Soria, A., Powell, J.R. and Fikrig, E., 2018. Altered vector competence in an experimental mosquito-mouse transmission model of Zika infection. PLoS neglected tropical diseases, 12(3), p.e0006350.

Gloria-Soria, A, Dunn, WA, Yu X, Vigneron A, Lee K-Y, Weiss BL, Zhao H, Aksoy, S, and Caccone, A. Harnessing genomic data from closely related taxa to uncover gene-phenotype associations in non-model organisms: genomic regions associated with Trypanosoma infections in wild populations of the tsetse fly Glossina fuscipes. Genes, Genomes, Genetics. Early online January 17, 2018.

Gloria-Soria A, Lima A, Lovin D, Cunningham J, Severson D, Powell J. (2017)
Origin of a High Latitude Population of Aedes aegypti in Washington, DC. American Journal of Tropical Medicine and Hygiene. Available online 18 Dec.

Ibanez-Justicia A, Gloria-Soria A, den Hartog WGSA, Dik M, Jacobs FHH, Stroo A. (2017) The first detected airline introductions of yellow fever mosquitoes (Aedes aegypti) to Europe, at Schiphol International airport, the Netherlands. Parasites & Vectors.  10(1): 603. Link to pdf here.

Gloria-Soria A, M. Armstrong, J.R. Powell, P.E. Turner. Infection rate of Aedes aegypti mosquitoes with dengue virus depends on the interaction between temperature and mosquito genotype. Proc R Soc Lond B Biol Sci. 284(1864).

Pless E, Gloria-Soria A, Evans BR, Kramer V, Bolling BG, et al. (2017) Multiple introductions of the dengue vector, Aedes aegypti, into California. PLOS Neglected Tropical Diseases 11(8): e0005718.

Kotsakiozi P, Schama R, Gloria-Soria A, Martins AJ, Evans BR, Caccone A, Powell JR. Tracking the return of Aedes aegypti to Brazil, the major vector of the dengue, chikungunya and Zika viruses. PLoS Neglected Tropical Diseases. 11(7): e0005653.

Saarman, N. P., Gloria-Soria, A., Anderson, E. C., Evans, B. R., Pless, E., Cosme, L. V., Gonzalez-Acosta, C., Kamgang, B., Wesson, D. M. and Powell, J. R. (), Effective population sizes of a major vector of human diseases, Aedes aegypti. Evol Appl. Accepted Author Manuscript. doi:10.1111/eva.12508

Gloria-Soria A, Ayala D, Bheecarry A, Calderon-Arguedas O, Chadee DD, et al. 2016 Global genetic diversity of Aedes aegypti. Mol Ecol. 25(21): 5377-5395.

Gloria-Soria A, Dunn WA, Telleria EL, Evans BR, Okedi L, Echodu R, Warren WC, Montague MJ, Aksoy S, Caccone A. 2016. Patterns of Genome-Wide Variation in Glossina fuscipes fuscipes Tsetse Flies from Uganda. G3 (Bethesda). 2016 Jun 1;6(6):1573-84. doi: 10.1534/g3.116.027235.

Gloria-Soria, A., D. Kellner, J. E. Brown, C. Gonzalez-Acosta, B. Kamgang, J. Luwama, and J. R. Powell, 2016 Temporal genetic stability of Stegomyia aegypti (= Aedes aegypti) populations. Medical and Veterinary Entomology. doi: 10.1111/mve.12153.

Sayson SL, Gloria-Soria A, Powell JR, and Edillo FE (2015). Seasonal Genetic Changes of Aedes aegypti (Diptera: Culicidae) Populations in Selected Sites of Cebu City, Philippines. Journal of Medical Entomology. doi: 10.1093/jme/tjv056

Richardson JB, Jameson SB, Gloria-Soria A, Wesson D, and Powell JR (2015). Evidence of Limited Polyandry in a Natural Population of Aedes aegypti. The American Journal of Tropical Medicine and Hygiene 93(1): 189-193.

Evans, B.R., Gloria-Soria, A., Hou, L., McBride C., Bonizzoni, M., Zhao, H. and Powell, J.R. (2015). A Multipurpose High Throughput SNP Chip for the Dengue and Yellow Fever Mosquito, Aedes aegypti. Genes, Genomes, Genetics. doi: 10.1534/g3.114.016196.

Monteiro, F.A., Shama, R., Martins, A. J., Gloria-Soria, A., Brown, J. E. and Powell, J. R. (2014) Genetic Diversity of Brazilian Aedes aegypti: Patterns following an Eradication Program. PLoS Neglected Tropical Diseases, 8(9): e3167.

Gloria-Soria, A., Brown, J.E., Kramer, V., Hardstone Yoshimizu, M., Powell, J.R. (2014) Origin of the Dengue Fever Mosquito, Aedes aegypti, in California. PLoS Neglected Tropical Diseases, 8(7): e3029.

Gloria-Soria A., Moreno M.A., Yund P. O., Lakkis F. G., Dellaporta S.L., and Buss L.W. (2012). Evolutionary Genetics of the Hydroid Allodeterminant alr2. Molecular Biology and Evolution 29(12): 3921–3932.

Powell A.E., Moreno M.A., Gloria-Soria A., Lakkis F. G., Dellaporta S.L., and Buss. L.W. (2011). Genetic Background and Allorecognition Phenotype in Hydractinia symbiolongicarpus. Genes, Genomes, Genetics 1(6): 499-504.

Gloria-Soria, A., and Azevedo B.R. (2008). npr-1 regulates foraging and dispersal strategies in Caenorhabditis elegans. Current Biology 18: 1694-1699.

Fanjul-Moles M.L., Escamilla-Chimal E.G., Gloria-Soria A., and Hernandez-Herrera G. (2004). The crayfish Procambarus clarkii CRY shows daily and circadian variation. Journal of Experimental Biology 207:1453-60.

Full list can also be found at this myNCBI link.