Higuet D, Anxolabéhère D, Nouaud D
Mécanimes moléculaires de la spéciation, Université Pierre & Marie Cure, Paris, France.
Genet Res. 1992 Aug;60(1):15-24. doi: 10.1017/s0016672300030627.
Transposable P elements in Drosophila melanogaster cause hybrid dysgenesis if their mobility is not repressed. The ability to regulate the dysgenic activity of the P elements depends on several mechanisms, one of which hypothesized that a particular deleted P element (the KP element) results in a non-susceptibility which is biparentally transmitted. In this study totally non-susceptible lines, and susceptible lines containing exclusively KP elements (IINS2 line and IIS2 line) were isolated from a M' strain. We show that non-susceptibility is correlated with a particular insertion of one KP element located at the cytological site 47D1. The repression ability of the GD sterility is determined by a recessive chromosomal factor, and cannot be due to the KP-element number. Here the repression of the P mobility is associated with reduction of the P transcripts and the inhibition of P promoter activity.
黑腹果蝇中的转座P因子如果其移动性不被抑制,就会导致杂种不育。调节P因子不育活性的能力取决于多种机制,其中一种假说认为,一种特定的缺失P因子(KP因子)会导致一种双亲传递的不敏感性。在本研究中,从一个M'品系中分离出了完全不敏感品系,以及仅含有KP因子的敏感品系(IINS2品系和IIS2品系)。我们发现,不敏感性与位于细胞学位点47D1的一个KP因子的特定插入相关。GD不育的抑制能力由一个隐性染色体因子决定,而不是由KP因子的数量决定。在这里,P因子移动性的抑制与P转录本的减少和P启动子活性的抑制有关。