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Drosophila pseudoobscura

Toolson, R.C., and Kuper-Simbron, R. (1989). Laboratory evolution of epicuticular hydrocarbon composition and cuticular permeability in Drosophila pseudoobscura effects on sexual dimorphism and thermal-acclimatation ability. Evolution, 43, 468—473. [Pg.343]

Hubby, J.L., and Lewontin, R.C., 1966, A molecular approach to the study of genic heterozygosity in natural populations. I. The number of alleles at different loci in Drosophila pseudoobscura. Genetics 54 577-594. [Pg.337]

Figure 1B-F illustrates the main functions of the Control Panel. Figure IB displays the window that appears on the desktop of the computer when the browser is accessed through the gateway at http //pipeline.lbl.gov (see above). The conservation plot displayed on the right is based on the alignment of the base genome D. melanogaster with the genome of Drosophila pseudoobscura (the second species that is indicated below the plot on the right). Figure 1B-F illustrates the main functions of the Control Panel. Figure IB displays the window that appears on the desktop of the computer when the browser is accessed through the gateway at http //pipeline.lbl.gov (see above). The conservation plot displayed on the right is based on the alignment of the base genome D. melanogaster with the genome of Drosophila pseudoobscura (the second species that is indicated below the plot on the right).
Pittendrigh, C. 1967. Circadian systems. I. The driving oscillation and its assay in Drosophila pseudoobscura. Proc. Natl. Acad. Sci. USA 58 1762-7. [Pg.572]

Riley, M.A., M.E. Hallas and R.C. Lewontin 1989 Distinguishing the forces controlling genetic variation at the Xdh locus in Drosophila pseudoobscura. Genetics 123 359-369. [Pg.31]

Shaeffer, S.W., C.F. Aquadro and W.W. Anderson 1987 Restriction-map variation in the alcohol dehydrogenase region of Drosophila pseudoobscura. Mol. Biol. Evol. 4 254-265. [Pg.31]

Figure.5 Filter hybridization of Eco RI fragments of total genomic DNA of the Drosophila sp ies indicated above with a cloned satellite repeat of D. ambigua. A ladderlike hybridization pattern appears for the closely related species D. ambigua, D. tristis and D. obscura. No hybridizations can be seen in any of the other species. Lane 1 D. melanogaster, lane 2 D. azteca lane 3 D. pseudoobscura lane 4 D. ambigua lane 5 D. tristis lane 6 D. obscura lane 7 D. bifasciata lane 8 D. subsilvestris lane 9 D. subobscura lane 10 D. madeirensis lane 11 D. guanche. Figure.5 Filter hybridization of Eco RI fragments of total genomic DNA of the Drosophila sp ies indicated above with a cloned satellite repeat of D. ambigua. A ladderlike hybridization pattern appears for the closely related species D. ambigua, D. tristis and D. obscura. No hybridizations can be seen in any of the other species. Lane 1 D. melanogaster, lane 2 D. azteca lane 3 D. pseudoobscura lane 4 D. ambigua lane 5 D. tristis lane 6 D. obscura lane 7 D. bifasciata lane 8 D. subsilvestris lane 9 D. subobscura lane 10 D. madeirensis lane 11 D. guanche.
See other pages where Drosophila pseudoobscura is mentioned: [Pg.119]    [Pg.272]    [Pg.246]    [Pg.119]    [Pg.272]    [Pg.246]    [Pg.336]    [Pg.128]   
See also in sourсe #XX -- [ Pg.336 ]



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