A Family of Complex Tandem DNA Repeats in the Telomeres of <i>Chironomus pallidivittatus</i>

HeT-A was the first transposable element shown to have a bona fide role in chromosome structure, maintenance of telomeres in Drosophila melanogaster. HeT-A has hallmarks of non-long-terminal-repeat (non-LTR) retrotransposable elements but also has several unique features. Drosophila telomeres appear to be very different from those of other organisms. (Telomeres are ends of chromosomes and have important roles in chromosome organization.) In Drosophila melanogaster the telomeres are not maintained by telomerase, which maintains telomeres in most animals, plants, and single-celled eukaryotes (1). Instead, Drosophila telomeres are elongated by transposition of two unusual retrotransposons, HeT-A and TART, onto chromosome ends (2). This unusual telomere mechanism offers insights into the requirements for telomere function. It also raises the possibility that transposable elements evolved from normal cellular elements, such as telomeres (3). We have now isolatedRetrotransposon-type telomeres have been reported only for D. melanogaster and the closely related Drosophila simulans. It is of interest to know how many other species share this mechanism of telomere maintenance. This information will be helpful in estimating the antiquity of the mechanism and understanding how it has evolved. Furthermore, comparison of telomere transposon sequences from different species can give insight into the characteristics of these elements that are crucial for their role in telomeres.Analyses of several HeT-A sequences isolated from D. melanogaster have shown that intact and potentially functional elements can differ markedly in both coding and noncoding regions (4-7). Because HeT-A variation increases rapidly with evolutionary distance, it is difficult to use sequence homology . The conservation of these features argues that they are important for the role of HeT-A elements in telomeres (see Fig. 1 for diagrams of HeT-A elements).

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Unusual features of theDrosophila melanogastertelomere transposable elementHeT-Aare conserved inDrosophila yakubatelomere elements

Danilevskaya

Tan

Wong

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

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A Family of Complex Tandem DNA Repeats in the Telomeres of Chironomus pallidivittatus

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Unusual features of theDrosophila melanogastertelomere transposable elementHeT-Aare conserved inDrosophila yakubatelomere elements

Unusual features of theDrosophila melanogastertelomere transposable elementHeT-Aare conserved inDrosophila yakubatelomere elements

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