Biology Reference
In-Depth Information
Rancourt, D.E., Peters, I.D., Walker, V.K., and Davies, P.L., (1990). Wolffish antifreeze protein from
transgenic
Drosophila
.
BioTechnology
8
: 453-457.
Rio, D.C., Laski, F.A., and Rubin, G.M., (1986). Identification and immunochemical analysis of
biologically active
Drosophila P
element transposase.
Cell
44
: 21-32.
Rio, D.C., Barnes, G., Laski, F.A., Rine, J., and Rubin, G.M., (1988). Evidence for
P
element
transposase activity in mammalian cells and yeast.
J. Mol. Biol.
200
: 411-415.
Roberts, D.B., Ed., (1986).
Drosophila. A Practical Approach
. IRL Press, Oxford, UK.
Robertson, H.M., (1995). The
Tc1-mariner
superfamily of transposons in animals.
J. Insect Physiol.
41
: 99-105.
Robertson, H.M., (1996). Members of the
pogo
superfamily of DNA-mediated transposons in the
human genome.
Mol. Gen. Genet.
252
: 761-766.
Robertson, H.M., (1997). Multiple
mariner
transposons in flatworms and hydras are related to
those of insects.
J. Hered.
88
: 195-201.
Robertson, H.M., and Lampe, D.J., (1995). Distribution of transposable elements in arthropods.
Annu. Rev. Entomol.
49
: 333-337.
Robertson, H.M., and Martos, R., (1997). Molecular evolution of the second ancient human
mariner
transposon,
Hsmar2
, illustrates patterns of neutral evolution in the human genome
lineage.
Gene
205
: 219-228.
Robertson, H.M., and Zumpano, K.L., (1997). Molecular evolution of an ancient
mariner
transposon,
Hsmar1
, in the human genome.
Gene
205
: 203-217.
Rong, Y.S., and Golic, K.G., (2000). Gene targeting by homologous recombination in
Drosophila
.
Science
288
: 2013-2018.
Rubin, G.M., and Spradling, A.C., (1982). Genetic transformation of
Drosophila
with transposable
element vectors.
Science
218
: 348-353.
Rubin, G.M., and Spradling, A.C., (1983). Vectors for
P
element-mediated gene transfer in
Drosophila
.
Nucleic Acids Res.
11
: 6341-6351.
Sarkar, A., Coates, C.J., Whyard, S., Willhoeft, U., Atkinson, P.W., and O'Brochta, D.A., (1997a). The
Hermes
element from
Musca domestica
can transpose in four families of cyclorrhaphan flies.
Genetica
99
: 15-29.
Sarkar, A., Yardley, K., Atkinson, P.W., James, A.A., and O'Brochta, D.A., (1997b). Transposition of
the
Hermes
element in embryos of the vector mosquito,
Aedes aegypti
.
Insect Bioch. Mol. Biol.
27
: 359-363.
Schetelig, M.F., Scolari, F., Handler, A.M., Kittelmann, S., Gasperi, G., and Wimmer, E.A., (2009).
Site-specific recombination for the modification of transgenic strains of the Mediterranean
fruit fly
Ceratitis capitata
.
Proc. Natl. Acad. Sci. USA
106
: 18171-18176.
Schetelig, M.F., Gotschel, F., Viktorinova, I., Handler, A.M., and Wimmer, E.A., (2011).
Recombination technologies for enhanced transgene stability in bioengineered insects.
Genetica
139
: 71-78.
Sentry, J.W., and Kaiser, K., (1992).
P
element transposition and targeted manipulation of the
Drosophila
genome.
Trends Genet.
8
: 311-329.
Sherman, A., Dawson, A., Mather, C., Gilhooley, H., Li, Y., Mitchell, R., Finnegan, D., and Sang,
H., (1998). Transposition of the
Drosophila
element
mariner
into the chicken germ line.
Nat.
Biotechnol.
16
: 1050-1053.
Shimizu, K., Kamba, M., Sonobe, H., Kanda, T., Klinakis, A.G., Savakis, C., and Tamura, T., (2000).
Extrachromosomal transposition of the transposable element
Minos
occurs in embryos of the
silkworm
Bombyx mori
.
Insect Mol. Biol.
9
: 277-281.
Siegal, M.L., and Hartl, D.L., (1996). Transgene coplacement and high efficiency site-specific
recombination with the Cre/
loxP
system in
Drosophila
.
Genetics
144
: 715-726.
Simonelig, M., and Anxolabehere, D., (1991). A
P
element of
Scaptomyza pallida
is active in
Drosophila melanogaster
.
Proc. Natl. Acad. Sci. USA
88
: 6102-6106.