
Keywords: SD
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Epistatic selection on a selfish Segregation Distorter supergene: drive, recombination, and genetic loadB. Navarro-Dominguez, C.-H. Chang, C. L. Brand, C. A. Muirhead, D. C. Presgraves and A. M. Larracuente, eLife, 11:e78981. 2022.![]() In this work, we investigate the evolution and genomic consequences of an autosomal, multilocus, male meiotic drive system, Segregation Distorter (SD) in the fruit fly, Drosophila melanogaster. In African populations, the predominant SD chromosome variant, SD-Mal, is ... Keywords: drosophila, gene drive genetics, gene drive natural, meiotic drive, melanogaster, SD, segregation distorter, suppression |
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Distinct spermiogenic phenotypes underlie sperm elimination in the Segregation Distorter meiotic drive systemM. Herbette, X. L. Wei, C. H. Chang, A. M. Larracuente, B. Loppin and R. Dubruille, PLOS Genetics, 17:26. 2021.![]() Here we show that SD/SD+ males of different genotypes but with similarly strong degrees of distortion have distinct spermiogenic phenotypes. In some genotypes, SD+ spermatids fail to fully incorporate protamines after the removal of histones, and degenerate during the ... Keywords: drosophila, gene drive genetics, gene drive natural, meiotic drive, melanogaster, SD, segregation distorter, suppression |
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Analysis of a Strong Suppressor of Segregation Distorter inDrosophila melanogasterR. G. Temin, Genetics, 215:1085-1105. 2020.![]() These studies highlight the polygenic nature of distortion and its dependence on a constellation of positive and negative modifiers, provide insight into the stability of Mendelian transmission in natural populations even when a drive system arises, and pave the way for molecular ... Keywords: drosophila, gene drive genetics, gene drive natural, meiotic drive, melanogaster, SD, segregation distorter, suppression |

Contact
David O’Brochta
Foundation for the
National Institutes of Health
geneconvenevi@fnih.org
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