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Baum, J.A., Bogaert, T., Clinton, W., Heck, G.R., Feldmann, P., and Ilagan, O., et al. (2007). Control
of coleopteran insect pests through RNA interference. Nat. Biotechnol. 25 : 1322-1326.
Beard, C.B., Mason, P.W., Aksoy, S., Tesh, R.B., and Richards, F.F., (1992). Transformation of an insect
symbiont and expression of a foreign gene in the Chagas' disease vector Rhodnius prolixus .
Am. J. Trop. Med. Hyg. 46 : 195-200.
Beard, C.B., O'Neill, S.L., Tesh, R.B., Richards, F.F., and Aksoy, F.S., (1993). Modification of arthropod
vector competence via symbiotic bacteria. Parasitol. Today 9 : 179-183.
Beard, C.B., Durvasula, R.V., and Richards, F.B., (2000). Bacterial symbiont transformation in Chagas
disease vectors. In: Handler, A.M., and James, A.A., Eds., Insect Transgenesis. Methods and
Applications , CRC Press, Boca Raton, FL, pp. 289-303.
Beaty, B.J., (2000). Genetic manipulation of vectors: a potential novel approach for control of
vector-borne diseases. Proc. Natl. Acad. Sci. USA 97 : 10295-10297.
Beaty, B.J., and Carlson, J.O., (1997). Molecular manipulation of mosquitoes. Curr. Opin. Infect. Dis.
10 : 372-376.
Beckage, N.E., (1998). Parasitoids and polydnaviruses. Bioscience 48 : 305-311.
Beckendorf, S.K., and Hoy, M.A., (1985). Genetic improvement of arthropod natural enemies
through selection, hybridization or genetic engineering techniques. In: Hoy, M.A., and
Herzog, D.C., Eds., Biological Control in Agricultural IPM Systems , Academic Press, Orlando, FL,
pp. 167-187.
Bell, A.C., West, A.G., and Felsenfeld, G., (2001). Insulators and boundaries: versatile regulatory
elements in the eukaryotic genome. Science 291 : 447-450.
Belles, X., (2010). Beyond Drosophila : RNAi in vivo and functional genomics in insects. Annu. Rev.
Entomol. 55 : 111-128.
Benedict, M.Q., and Robinson, A.S., (2003). The first releases of transgenic mosquitoes: an
argument for the sterile insect technique. Trends Parasitol. 19 : 349-355.
Benedict, M.Q., D'Abbs, P., Dobson, S., Gottlieb, M., Harrington, L.C., and Higgs, S., et al. (2008).
Guidance for contained field trials of vector mosquitoes engineered to contain a gene
drive system: Recommendations of a scientific working group. Vector Borne Zoonotic Dis . 8 :
127-166.
Benedict, M.Q., Knols, B.G.J., Bossin, H.C., Howell, P.I., Mialhe, E., Caceres, C., and Robinson, A.S.,
(2009). Colonisation and mass rearing: learning from others. Malaria J . 8 ( Suppl. 2 ): 54.
Benedict, M., M. Eckerstorfer, G. Franz, H. Gaugitsch, A. Greiter, A. Heissenberger, et al. (2010).
Scientific/Technical Report Submitted to EFSA. (European Food Safety Authority). Defining
Environmental Risk Assessment Criteria for Genetically Modified Insects to be Placed on the
EU Market .
Berghammer, A.J., Klingler, M., and Wimmer, E.A., (1999). A universal marker for transgenic
insects. Nature 402 : 370-371.
Beumer, K.J, Trautman, J.K., Bozas, A., Liu, J.L., Rutter, J., Gall, J.G., and Carroll, D., (2008). Efficient
gene targeting in Drosophila by direct embryo injection with zinc-finger nucleases. Proc. Natl.
Acad. Sci. USA 105 : 19821-19826.
Bian, G., Xu, Y., Lu, P., Xie, Y., and Xi, Z., (2010). The endosymbiotic bacterium Wolbachia induces
resistance to dengue virus in Aedes aegypti . PLoS Pathogens 6 ( 4 ): e1000833.
Birchler, J.A., Pal Bhadra, M., and Bhadra, U., (2000). Making noise about silence: repression of
repeated genes in animals. Curr. Opin. Genet. Dev 10 : 211-216.
Black, W.C., Alphey, L., and James, A.A., (2011). Why RIDL is not SIT. Trends Parasitol. 27 : 362-370.
Blagrove, M.S.C., Arias-Goeta, C., Failloux, A.B., and Sinkins, S.P., (2012). Wolbachia strain w Mel
induces cytoplasmic incompatibility and blocks dengue transmission in Aedes albopictus . Proc.
Natl. Acad. Sci. USA 109 : 255-260.
Blair, C.D., Adelman, Z.N., and Olson, K.E., (2000). Molecular strategies for interrupting arthropod-
borne virus transmission by mosquitoes. Clin. Microbiol. Rev. 13 : 651-661.
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