703 second chromosomes were extracted from a Raleigh, North Carolina population of Drosophila melanogaster in 1970. Additionally, 489 third chromosomes were extracted from a large cage population founded from the flies in the 1970 Raleigh collection. The α glycerol 3 phosphate dehydrogenase 1, malate dehydrogenase 1, alcohol dehydrogenase, and α amylase loci were studied from the second chromsomes, and the esterase 6, esterase C, and octanol dehydrogenase loci were analyzed from the third chromosomes. Inversions, relative viability and fecundity were studied for both classes of chromosomes. The following significant findings were obtained: All loci examined were polymorphic or had at least two alleles at appreciable frequencies. Analysis of the combined data from this experiment with that of Mukai, Mettler and Chigusa (1971) revealed that the frequencies of the genes in the second chromosomes collected in early August were approximately the same over three years. Linkage disequilibria between and among isozyme genes inter se were not detected except in a few cases which can be considered due to non random sampling. Linkage disequilibria between isozyme genes and polymorphic inversions were detected when the recombination values between the breakage points of the inversions and the genes in question were small. In only a few cases were second and third order linkage disequilibria including polymorphic inversions detected. Evidence for either variation among genotypes within loci or cumulative effects of heterozygosity was found for viability and fecundity. As a result of these findings, it was tentatively concluded that although selection might be perceptibly operating on some polymorphic isozyme loci, most of the polymorphic isozyme genes are selectively neutral or near neutral in the populations studied.
CITATION STYLE
Muki, T., Watanabe, T. K., & Yamaguchi, O. (1974). The genetic structure of natural populations of Drosophila melanogaster. XII. Linkage disequilibrium in a large local population. Genetics, 77(4), 771–793. https://doi.org/10.1093/genetics/77.4.771
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