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Degenerating gypsy retrotransposons in a male fertility gene on the Y chromosome of Drosophila hydei (1994)

Hochstenbach, Ron ; Harhangi, Harry ; Schouren, Karin ; [et al.]

Springer

Journal of molecular evolution 39 (1994), S. 452-465

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ISSN: 1432-1432

Keywords: Drosophila ; Y chromosome ; Male fertility genes ; Lampbrush loops ; Germ line ; Transposable elements ; Gypsy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract During the evolution of the Y chromosome of Drosophila hydei, retrotransposons became incorporated into the lampbrush loop pairs formed by several of the male fertility genes on this chromosome. Although insertions of retrotransposons are involved in many spontaneous mutations, they do not affect the functions of these genes. We have sequenced gypsy elements that are expressed as constituents of male fertility gene Q in the lampbrush loop pair Nooses. We find that these gypsy elements are all truncated and specifically lost those sequences that may interfere with the continuity of lampbrush loop transcription. Only defective coding regions are found within the loop. Gypsy is not transcribed in loops of many other Drosophila species harboring the family. These results suggest that any contribution of gypsy to the function of male fertility gene Q does not depend on a conserved DNA sequence.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00173414

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Spermatogenesis inDrosophila hydei: A genetic survey (1990)

Hackstein, Johannes H. P. ; Beck, Heinz ; Hochstenbach, Ron ; [et al.]

Springer

Development genes and evolution 199 (1990), S. 251-280

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ISSN: 1432-041X

Keywords: Spermatogenesis ; Drosophilia ; Y chromosomal lampbrush loops ; Male sterile mutations ; Cellular differentiation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary We constructed balancer-chromosomes for the large autosomes ofDrosophila hydei and screened more than 16000 chromosomes for male sterile mutations in order to dissect spermatogenesis genetically. 365 mutants on the X chromosome and the autosomes 2, 3, and 4 were recovered and analysed cytologically in squash preparations under phase-contrast optics. The majority of the mutations allows a rather advanced differentiation of the spermatozoa. At the light-microscopical level, it is possible to classify these mutations with respect to individualization, coiling or motility of the mutant spermatozoa. In contrast, a small number of mutants exhibits conspicuous, pleiotropic phenotypes. Gonial divisions, the shaping of the spermatocyte nucleus and male meiotic divisions are controlled by X chromosomal or autosomal genes which can mutate to male sterile alleles. A number of nonallelic 3rd chromosome male sterile mutations interfere with the unfolding of the Y chromosomal lampbrush loops. Other autosomal male sterile mutations modify the morphology of these lampbrush loops. Another group of mutations inhibits the formation of the nebenkern while the development of the spermatid nucleus and the flagellum can proceed. Such male sterile mutations can decouple the development of nucleus, protein body, nebenkern, and flagellum of the spermatid. Thus, we can describe spermatogenesis inDrosophila as the coordinate execution of the individual developmental programs of the different components of the spermatozoon.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01709505

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