Biology Reference
In-Depth Information
Min, K.T., and Benzer, S., (1997).
Wolbachia
, normally a symbiont of
Drosophila
, can be virulent,
causing degeneration and early death.
Proc. Natl. Acad. Sci. USA
94
: 10792-10796.
Miyawaki, K., Mito, T., Sarashina, I., Zhang, H., Shinmyo, Y., Ohuchi, H., and Noji, S., (2004).
Involvement of Wingless/Armadillo signaling in the posterior sequential segmentation in the
cricket,
Gryllus bimaculatus
(Orthoptera), as revealed by RNAi analysis.
Mech. Dev.
121
: 119-130.
Moreira, L.A., Iturbe-Ormaetse, I., Jeffery, J.A., Lu, G.J., and Pyke, A.T., et al. (2009a). A
Wolbachia
symbiont in
Aedes aegypti
limits infection with dengue, Chikungunya, and
Plasmodium
.
Cell
139
: 1268-1278.
Moreira, L.A., Saig, E., Turley, A.P., Ribeiro, J.M.C., O'Neill, S.L., and McGraw, E.A., (2009b). Human
probing behavior of
Aedes aegypti
when infected with a life-shortening strain of
Wolbachia
.
PLOS Negl. Trop. Dis.
3
(
12
): 3568.
Mumford, J.D., (2012). Science, regulation, and precedent for genetically modified insects.
PLoS
Negl. Trop. Dis.
6
(
1
): e1504.
Nagaraju, J., Kanda, T., Yukuhiro, K., Chavancy, G., Tamura, T., and Couble, P., (1996). Attempt
at transgenesis of the silkworm (
Bombyx mori
L.) by egg-injection of foreign DNA.
Appl.
Entomol. Zool.
31
: 587-596.
NAPPO (2007).
RSPM No. 27. Importation and Release into the Environment of Transgenic
Arthropods in NAPPO Member Countries
. North American Plant Protection Organization,
Ottawa, Canada.
National Academy of Sciences (2004). Bioconfinement of Animals: fish, shellfish, and insects,
pp. 130-158. In:
Biological Confinement of Genetically Engineered Organisms.
National
Academies Press, Washington, DC.
Nikolaev, A.I., Tchkonia, T.T., Kafianieristavi, C.A., and Tarantul, V.X., (1993). Preferential
extrachromosomal localization of exogenous DNA in transgenic silkworm
Bombyx mori
L.
Mol. Gen. Genet.
236
: 326-330.
Nikitin, A.G., and Woodruff, R.C., (1995). Somatic movement of the
mariner
transposable element
and lifespan of
Drosophila
species.
Mutat. Res.
338
: 43-49.
Nirmala, X., Olson, S.R., Holler, T.C., Cho, K.H., and Handler, A.M., (2011). A DsRed fluorescent
protein marker under polyubiquitin promoter regulation allows visual and amplified gene
detection of transgenic Caribbean fruit flies in field traps.
Biocontrol
56
: 333-340.
Nolan, T., Petris, E., Muller, H.M., Cronin, A., Catteruccia, F., and Crisanti, A., (2011). Analysis of
two novel midgut-specific promoters driving transgene expression in
Anopheles stephensi
mosquitoes.
PLOS One
6
(
2
): e16471.
O'Brochta, D.A., and Atkinson, P.W., (1997). Recent developments in transgenic insect technology.
Parasitol. Today
13
: 99-104.
O'Brochta, D.A., and Handler, A.M., (2008). Perspectives on the state of insect transgenics. In:
Aksoy, S., Ed.,
Transgenesis and the Management of Vector-Borne Disease
, Landes Bioscience,
Austin, TX, pp. 1-18.
Ogwok, E., Odipio, J., Halsey, M., Gaitan-Solis, E., Bua, A., and Taylor, N.J., et al. (2012). Transgenic
RNA interference (RNAi)-derived field resistance to cassava brown streak disease.
Mol. Plant
Pathol.
13
(
9
): 1019-1031.
Olson, K.E., (2000). Sindbis virus expression systems in mosquitoes: background, methods, and
applications. In: Handler, A.M., and James, A.A., Eds.,
Insect Transgenesis. Methods and
Applications
, CRC Press, Boca Raton, FL, pp. 161-189.
Olson, K.E., Higgs, S., Gaines, P.J., Powers, A.M., Davis, B.S., and Kamrud, K.I., et al. (1996). Genetically
engineered resistance to Dengue-2 virus transmission in mosquitoes.
Science
272
: 884-886.
Olson, K.E., Myles, K.M., Seabaugh, R.C., Higgs, S., Carlson, J.O., and Beaty, B.J., (2000).
Development of a Sindbis virus expression system that efficiently expresses green fluorescent
protein in midguts of
Aedes aegypti
following per os infection.
Insect Mol. Biol
.
9
: 57-65.
