在粗壮果蝇的杂种不育现象中,多种转座元件被激活。
Diverse transposable elements are mobilized in hybrid dysgenesis in Drosophila virilis.
作者信息
Petrov D A, Schutzman J L, Hartl D L, Lozovskaya E R
机构信息
Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA 02138, USA.
出版信息
Proc Natl Acad Sci U S A. 1995 Aug 15;92(17):8050-4. doi: 10.1073/pnas.92.17.8050.
We describe a system of hybrid dysgenesis in Drosophila virilis in which at least four unrelated transposable elements are all mobilized following a dysgenic cross. The data are largely consistent with the superposition of at least three different systems of hybrid dysgenesis, each repressing a different transposable element, which break down following the hybrid cross, possibly because they share a common pathway in the host. The data are also consistent with a mechanism in which mobilization of a single element triggers that of others, perhaps through chromosome breakage. The mobilization of multiple, unrelated elements in hybrid dysgenesis is reminiscent of McClintock's evidence [McClintock, B. (1955) Brookhaven Symp. Biol. 8, 58-74] for simultaneous mobilization of different transposable elements in maize.
我们描述了一种在粗壮果蝇中发生杂种劣育的系统,在这种系统中,至少四个不相关的转座元件在杂种劣育杂交后都会被激活。这些数据在很大程度上与至少三种不同的杂种劣育系统的叠加相一致,每个系统抑制一个不同的转座元件,这些系统在杂种杂交后失效,可能是因为它们在宿主中共享一条共同途径。这些数据也与一种机制相一致,即单个元件的激活会触发其他元件的激活,也许是通过染色体断裂。杂种劣育中多个不相关元件的激活让人想起麦克林托克的证据[麦克林托克,B.(1955年)《布鲁克海文生物学研讨会》8,58 - 74],即玉米中不同转座元件的同时激活。
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