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Drosophila Inversion Polymorphism
Costas B. Krimbas,Jeffrey R. Powell +1 more
- 21 Aug 1992
494
TL;DR: Introduction (C.B. Krimbas and Jeffrey R. Powell).
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Abstract: Introduction (C.B. Krimbas and Jeffrey R. Powell). Inferring Chromosome Trees from Inversion Data (J. Sourdis and C.B. Krimbas). Inversion Polymorphisms in Drosophila Pseudoobscura and Drosophila Persimilis (J.R. Powell). The Inversion Polymorphism of Drosophila Subobscura (C.B. Krimbas). Chromosomal Variation in Drosophila Robusta Sturtevant (M. Levitan). Inversion Polymorphism in Drosophila Melanogaster (F. Lemeunier and S. Aulard). Inversion in Hawaiian Drosophila (H.L. Carson). Polytene Chromosome Maps for Hawaiian Drosophila (H.L. Carson, J. Tonzetich, and L.T. Teramoto). Cytological Evolution of the Drosophila Repleta Species Group (M. Wasserman).
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Citations
Chromosome Inversions, Local Adaptation and Speciation
TL;DR: The evolution of inversions that capture locally adapted alleles when two populations are exchanging migrants or hybridizing is studied to cause loci responsible for adaptive species-specific differences to map to inversions.
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Revisiting the Impact of Inversions in Evolution: From Population Genetic Markers to Drivers of Adaptive Shifts and Speciation?
TL;DR: There is a growing appreciation that chromosome inversions affect rates of adaptation, speciation, and the evolution of sex chromosomes, but few genes within inversions responsible for fitness effects or speciation have been identified.
How and Why Chromosome Inversions Evolve
TL;DR: New genomic and ecological data are beginning to reveal the evolutionary forces that drive the evolution of inversions, which are a major engine of genome evolution.
Comparative genome sequencing of Drosophila pseudoobscura: Chromosomal, gene, and cis-element evolution
Stephen Richards,Yue Liu,Bettencourt Brian,Pavel Hradecky,Stan Letovsky,Rasmus Nielsen,Kevin R. Thornton,Melissa J. Hubisz,Rui Chen,Richard P. Meisel,Olivier Couronne,Olivier Couronne,Sujun Hua,Mark A. Smith,Peili Zhang,Jing Liu,Harmen J. Bussemaker,Marinus F. van Batenburg,Marinus F. van Batenburg,Sally Howells,Steven E. Scherer,Erica Sodergren,Beverly B. Matthews,Madeline A. Crosby,Andrew J. Schroeder,Daniel Ortiz-Barrientos,Catharine M. Rives,Michael L. Metzker,Donna M. Muzny,Graham R. Scott,David Steffen,David A. Wheeler,Kim C. Worley,Paul Havlak,K. James Durbin,Amy Egan,Rachel Gill,Jennifer Hume,Margaret Morgan,George Miner,Cerissa Hamilton,Yanmei Huang,Lenee Waldron,Daniel Verduzco,Kerstin P. Clerc-Blankenburg,Inna Dubchak,Mohamed A. F. Noor,Wyatt W. Anderson,Kevin P. White,Andrew G. Clark,Stephen W. Schaeffer,William M. Gelbart,George M. Weinstock,Richard A. Gibbs +53 more
TL;DR: A pattern of repeat-mediated chromosomal rearrangement, and high coadaptation of both male genes and cis-regulatory sequences emerges as important themes of genome divergence between these species of Drosophila.
Eco-Evolutionary Genomics of Chromosomal Inversions.
TL;DR: The ubiquitous importance of inversions in ecological and evolutionary processes suggests that structural variation should be better acknowledged and integrated in studies pertaining to the molecular basis of adaptation and speciation.
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