Biology Reference
In-Depth Information
Catteruccia, F., Nolan, T., Loukeris, T.G., Blass, C., Savakis, C., Kafatos, F.C., and Crisanti, A., (2000). Stable
germline transformation of the malaria mosquito
Anopheles stephensi
.
Nature
405
: 959-962.
Center for Environmental Risk Assessment (2011).
Problem Formulation for the Environmental Risk
Assessment of RNAi Plants
. Conference Proc., June 1-3, 2011, Washington, DC.
Chen, C.H., Huang, H., Ward, C.M., Su, J.T., Schaeffer, L.V., and Guo, M., et al. (2007). A synthetic
maternal-effect selfish genetic element drives population replacement in
Drosophila
.
Science
316
: 597-600.
Cheng, Q., and Aksoy, S., (1999). Tissue tropism, transmission and expression of foreign genes
in vivo
in midgut symbionts of tsetse flies.
Insect Mol. Biol.
8
: 125-132.
Cirimotich, C.M., Dong, Y., Clayton, A.M., Sandiford, S.L., Souza-Neto, J.A., Mulenga, M., and
Dimopoulos, G., (2011). Natural microbe-mediated refractoriness to
Plasmodium
infection in
Anopheles gambiae
.
Science
332
: 855-858.
Coates, C.J., Turney, C.L., Frommer, M., O'Brochta, D.A., and Atkinson, P.W., (1995). The transposable
element
mariner
can excise in nondrosophilid insects.
Mol. Gen. Genet.
249
: 246-252.
Collins, F.H., (1994). Prospects for malaria control through the genetic manipulation of its vectors.
Parasitol. Today
10
: 370-371.
Collins, F.H., Kamau, L., Ranson, H.A., and Vulule, J.M., (2000). Molecular entomology and
prospects for malaria control.
Bull. World Health Org.
78
: 1412-1423.
Concha, C., Belikoff, E.J., Carey, B., Li, F., Schliemann, A.J., and Scott, M.J., (2011). Efficient germ-
line transformation of the economically important pest species
Lucilia cuprina
and
Lucilia
sericata
(Diptera, Calliphoridae).
Insect Biochem. Mol. Biol.
41
: 70-75.
Convention on Biological Diversity (2003). The Cartagena Protocol on Biosafety. Available at:
Cook, P.E., McMeniman, C.J., and O'Neill, S.L., (2008). Modifying insect population age structure
to control vector-borne disease. pp. 126-140. In:
Transgenesis and the Management of Vector-
borne Disease
. Aksoy, S., Ed., Landes Biosciences, Austin, TX
Cornel, A.J., Benedict, M.Q., Rafferty, C.S., Howells, A.J., and Collins, F.H., (1997). Transient
expression of the
Drosophila melanogaster cinnabar
gene rescues eye color in the white eye
(WE) strain of
Aedes aegypti
.
Insect Biochem. Mol. Biol.
27
: 993-997.
Coutinho-Abreu, I.V., Zhu, K.Y., and Ramalho-Ortiago, M., (2010). Transgenesis and
paratransgenesis to control insect-borne diseases: current status and future challenges.
Parasitol. Int.
59
: 1-8.
Coy, M.R., Sanscrainte, N.D., Chalaire, K.C., Inberg, A., Maayan, I., and Glick, E., et al. (2012). Gene
silencing in adult
Aedes aegypti
mosquitoes through oral delivery of double-stranded RNA.
J. Appl. Entomol.
doi: 10.1111/j/1439-0418.2012.01713.x.
Crampton, J., Morris, A., Lycett, G., Warren, A., and Eggleston, P., (1990). Transgenic mosquitoes: a
future vector control strategy?
Parasitol. Today
6
: 31-36.
Cruz, J., Mane-Padros, D., Belles, X., and Martin, D., (2006). Functions of the ecdysone receptor
isoform-A in the hemimetabolous insect
Blatella germanica
revealed by systemic RNAi in vivo.
Dev. Biol.
297
: 158-171.
CSIRO, (2010).
Risk Analysis on the Australian Release of Aedes aegypti (L.) (Diptera: Culicidae)
containing Wolbachia
. CSCIRO, Australia.
Curtis, C.F., (1979). Translocations, hybrid sterility, and the introduction into pest populations of
genes favorable to man. In: Hoy, M.A., and McKelvey Jr., J.J., Eds.,
Genetics in Relation to
Insect Management
, Rockefeller Foundation Press, New York, pp. 19-30.
Curtis, C.F., (1994). The case for malaria control by genetic manipulation of its vectors.
Parasitol.
Today
10
: 371-374.
Curtis, C.F., (2000). The case for deemphasizing genomics for malaria control.
Science
290
: 1508.
Curtis, C.F., and Townson, H., (1998). Malaria: existing methods of vector control and molecular
entomology.
Br. Med. Bull.
54
: 311-325.