參考文獻 |
ARNOULT, L., K. F. SU, D. MANOEL, C. MINERVINO, J. MAGRIÑA et al., 2013 Emergence and diversification of fly pigmentation through evolution of a gene regulatory module. Science 339: 1423-1426.
BAKER, J. D., and J. W. TRUMAN, 2002 Mutations in the Drosophila glycoprotein hormone receptor, rickets, eliminate neuropeptide-induced tanning and selectively block a stereotyped behavioral program. Journal of Experimental Biology 205: 2555-2565.
BILLMANN, M., T. HORN, B. FISCHER, T. SANDMANN, W. HUBER et al., 2016 A genetic interaction map of cell cycle regulators. Molecular biology of the cell 27: 1397-1407.
CALLEJA, M., O. RENAUD, K. USUI, D. PISTILLO, G. MORATA et al., 2002 How to pattern an epithelium: lessons from achaete-scute regulation on the notum of Drosophila. Gene 292: 1-12.
CAPY, P., J. DAVID and A. ROBERTSON, 1988 Thoracic trident pigmentation in natural populations of Drosophila simulans: a comparison with D. melanogaster. Heredity 61: 263-268.
COX, R., 1987 The Genetics of Drosophila Melanogaster, pp. Andrews University, Biology Department.
DAVID, J., P. CAPY, V. PAYANT and S. TSAKAS, 1985 Thoracic trident pigmentation in Drosophila melanogaster: differentiation of geographical populations. Génétique, sélection, évolution 17: 1-13.
DE CASTRO, S., F. PERONNET, J.-F. GILLES, E. MOUCHEL-VIELH and J.-M. GIBERT, 2018 bric à brac (bab), a central player in the gene regulatory network that mediates thermal plasticity of pigmentation in Drosophila melanogaster. PLoS genetics 14: e1007573.
DEAK, I. I., P. R. BELLAMY, M. BIENZ, Y. DUBUIS, E. FENNER et al., 1982 Mutations affecting the indirect flight muscles of Drosophila melanogaster. Development 69: 61-81.
FAHMY, O. G., FAHMY, M., 1958 New mutants report. D. I. S. 32(): 67--78.
FLAVEN-POUCHON, J., J. V. ALVAREZ, C. ROJAS and J. EWER, 2020 The tanning hormone, bursicon, does not act directly on the epidermis to tan the Drosophila exoskeleton. BMC biology 18: 1-13.
FORSMAN, A., K. RINGBLOM, E. CIVANTOS and J. AHNESJO, 2002 Coevolution of color pattern and thermoregulatory behavior in polymorphic pygmy grasshoppers Tetrix undulata. Evolution 56: 349-360.
FUKUTOMI, Y., K. MATSUMOTO, K. AGATA, N. FUNAYAMA and S. KOSHIKAWA, 2017 Pupal development and pigmentation process of a polka-dotted fruit fly, Drosophila guttifera (Insecta, Diptera). Development genes and evolution 227: 171-180.
GIBERT, J.-M., E. MOUCHEL-VIELH and F. PERONNET, 2018 Pigmentation pattern and developmental constraints: flight muscle attachment sites delimit the thoracic trident of Drosophila melanogaster. Scientific reports 8: 1-7.
GIOVANNUCCI, D. R., and R. S. STEPHENSON, 1999 Identification and distribution of dietary precursors of the Drosophila visual pigment chromophore: analysis of carotenoids in wild type and ninaD mutants by HPLC. Vision research 39: 219-229.
GOMPEL, N., B. PRUD′HOMME, P. J. WITTKOPP, V. A. KASSNER and S. B. CARROLL, 2005 Chance caught on the wing: cis-regulatory evolution and the origin of pigment patterns in Drosophila. Nature 433: 481-487.
GRAY, Y. H., M. M. TANAKA and J. A. SVED, 1996 P-element-induced recombination in Drosophila melanogaster: hybrid element insertion. Genetics 144: 1601-1610.
HAN, T. H., R. VICIDOMINI, C. I. RAMOS, Q. WANG, P. NGUYEN et al., 2020 Neto-α controls synapse organization and homeostasis at the Drosophila neuromuscular junction. Cell reports 32: 107866.
HOPKINS, T. L., and K. J. KRAMER, 1992 Insect cuticle sclerotization. Annual review of entomology 37: 273-302.
HOTTA, Y., and S. BENZER, 1969 Abnormal electroretinograms in visual mutants of Drosophila. Nature 222: 354-356.
JEONG, S., A. ROKAS and S. B. CARROLL, 2006 Regulation of body pigmentation by the Abdominal-B Hox protein and its gain and loss in Drosophila evolution. Cell 125: 1387-1399.
KIM, Y.-J., H. BAO, L. BONANNO, B. ZHANG and M. SERPE, 2012 Drosophila Neto is essential for clustering glutamate receptors at the neuromuscular junction. Genes & development 26: 974-987.
KIRAGASI, B., P. GOEL, S. PERRY, Y. HAN, X. LI et al., 2020 The auxiliary glutamate receptor subunit dSol-1 promotes presynaptic neurotransmitter release and homeostatic potentiation. Proceedings of the National Academy of Sciences 117: 25830-25839.
KOPP, A., I. DUNCAN and S. B. CARROLL, 2000 Genetic control and evolution of sexually dimorphic characters in Drosophila. Nature 408: 553-559.
LAI, D., X. JIN, H. WANG, M. YUAN and H. XU, 2014 Gene expression profile change and growth inhibition in Drosophila larvae treated with azadirachtin. Journal of biotechnology 185: 51-56.
LARKIN, A., S. J. MARYGOLD, G. ANTONAZZO, H. ATTRILL, G. DOS SANTOS et al., 2021 FlyBase: updates to the Drosophila melanogaster knowledge base. Nucleic Acids Research 49: D899-D907.
LEPENNETIER, G., and F. CATANIA, 2016 mRNA-associated processes and their influence on exon-intron structure in Drosophila melanogaster. G3: Genes, Genomes, Genetics 6: 1617-1626.
LEWIS, H. W., 1960 Genetic control of dopa oxidase activity in Drosophila melanogaster.I. Analysis of wild type, sable, supressor-of sable and suppressed sable strains. Genetics 45: 1217-1231.
LLOPART, A., S. ELWYN, D. LACHAISE and J. A. COYNE, 2002 Genetics of a difference in pigmentation between Drosophila yakuba and Drosophila santomea. Evolution 56: 2262-2277.
MORDUE, A., 1977 Some effects of amputation of the antennae on pigmentation, growth and development in the locust, Schistocerca gregaria. Physiological Entomology 2: 293-300.
MORGAN, T. H., C. B. BRIDGES and A. H. STURTEVANT, 1925 The genetics of Drosophila. Biblphia Genet. 2: 262pp.
MORGAN, T. H., C. B. BRIDGES and A. H. STURTEVANT, 1988 The genetics of Drosophila. Facsimiles-Garl.
MUNJAL, A., D. KARAN, P. GIBERT, B. MORETEAU, R. PARKASH et al., 1997 Thoracic trident pigmentation in Drosophila melanogaster: latitudinal and altitudinal clines in Indian populations. Genetics Selection Evolution 29: 1-10.
PARKS, A. L., K. R. COOK, M. BELVIN, N. A. DOMPE, R. FAWCETT et al., 2004 Systematic generation of high-resolution deletion coverage of the Drosophila melanogaster genome. Nature genetics 36: 288-292.
POOL, J. E., and C. F. AQUADRO, 2007 The genetic basis of adaptive pigmentation variation in Drosophila melanogaster. Molecular ecology 16: 2844-2851.
REBEIZ, M., and T. M. WILLIAMS, 2017 Using Drosophila pigmentation traits to study the mechanisms of cis-regulatory evolution. Current opinion in insect science 19: 1-7.
STURM, R. A., 2009 Molecular genetics of human pigmentation diversity. Human molecular genetics 18: R9-R17.
SUNAGA, S., N. AKIYAMA, R. MIYAGI and A. TAKAHASHI, 2016 Factors underlying natural variation in body pigmentation of Drosophila melanogaster. Genes & genetic systems: 15-00061.
TRUE, J. R., 2003 Insect melanism: the molecules matter. Trends in ecology & evolution 18: 640-647.
TRUE, J. R., S.-D. YEH, B. T. HOVEMANN, T. KEMME, I. A. MEINERTZHAGEN et al., 2005 Drosophila tan encodes a novel hydrolase required in pigmentation and vision. PLoS Genet 1: e63.
WITTKOPP, P. J., and P. BELDADE, 2009 Development and evolution of insect pigmentation: genetic mechanisms and the potential consequences of pleiotropy, pp. 65-71 in Seminars in cell & developmental biology. Elsevier.
WITTKOPP, P. J., J. R. TRUE and S. B. CARROLL, 2002 Reciprocal functions of the Drosophila yellow and ebony proteins in the development and evolution of pigment patterns. Development 129: 1849-1858.
YASSIN, A., H. BASTIDE, H. CHUNG, M. VEUILLE, J. R. DAVID et al., 2016 Ancient balancing selection at tan underlies female colour dimorphism in Drosophila erecta. Nature communications 7: 1-7. |