Summary
In relation to non Mendelian female sterility, Drosophila melanogaster strains can be divided into two main classes, inducer and reactive. The genetic element responsible for the inducer condition (I factor) is chromosomal and may be linked to any chromosome of inducer strains. Each chromosome carrying the I factor (i + chromosome) can produce females (denoted SF ♀) showing more or less reduced fertility when introduced by paternal gametes into reactive oocytes. The amount of fertility reduction of SF females depends chiefly on the level of reactivity of their reactive mother i.e. on the particular state of the cytoplasm in the oocytes from which they are issued. As long as i + chromosomes are transmitted through heterozygous males with reactive originating chromosomes (r chromosomes), the I factor strictly follows Mendelian segregations. In contrast, in heterozygous i +/r females, a varying proportion of r chromosomes may acquire irreversibly I factor, independently of classical genetic recombination, by a process denoted chromosomal contamination. The contaminated r chromosomes behave like i + chromosomes.
The experiments reported in this paper show that chromosomal contamination is a chance event which arises independently in individual r chromosomes. r chromosomes may differ in their ability to be contaminated and there is a systematic difference between chromosomes X and 2. In addition, it is demonstrated that the efficiency of contamination increases with the level of reactivity of the mothers of SF females and therefore is closely correlated with the amount of fertility reduction of SF females.
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Picard, G. Non mendelian female sterility in Drosophila melanogaster, further data on chromosomal contamination. Molec. Gen. Genet. 164, 235–247 (1978). https://doi.org/10.1007/BF00333152
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DOI: https://doi.org/10.1007/BF00333152