Retroviruses are commonly considered to be
restricted to vertebrates. However, the genome of many eukaryotes contains
mobile sequences known as retrotransposons with long terminal repeats (LTR
retrotransposons) or viral retrotransposons, showing similarities with
integrated proviruses of retroviruses, such as Ty elements in Saccharomyces
cerevisiae, copia-like elements in Drosophila, and endogenous proviruses in
vertebrates. The gypsy element of Drosophila melanogaster has LTRs and contains
three open reading frames, one of which encodes potential products similar to
gag-specific protease, reverse transcriptase, and endonuclease. It is more
similar to typical retroviruses than to LTR retrotransposons. We report here
experiments showing that gypsy can be transmitted by microinjecting egg plasma
from embryos of a strain containing actively transposing gypsy elements into
embryos of a strain originally devoid of transposing elements. Horizontal
transfer is also observed when individuals of the "empty" stock are
raised on medium containing ground pupae of the stock possessing transposing
elements. These results suggest that gypsy is an infectious retrovirus and
provide evidence that retroviruses also occur in invertebrates.
Gypsy is an infectious endogenous retrovirus of Drosophila melanogaster. The gypsy proviruses replicate very efficiently in the genome of the progeny of females homozygous for permissive alleles of the flamenco gene. This replicative transposition is correlated with derepression of gypsy expression, specifically in the somatic cells of the ovaries of the permissive mothers. The determinism of this amplification was studied further by making chimeric mothers containing different permissive/restrictive and somatic/germinal lineages. We show here that the derepression of active proviruses in the permissive soma is necessary and sufficient to induce proviral insertions in the progeny, even if the F 1 flies derive from restrictive germ cells devoid of active proviruses. Therefore, gypsy endogenous multiplication results from the transfer of some gypsy-encoded genetic material from the soma towards the germen of the mother and its subsequent insertion into the chromosomes of the progeny. This transfer, however, is not likely to result from retroviral infection of the germline. Indeed, we also show here that the insertion of a tagged gypsy element, mutant for the env gene, occurs at high frequency, independently of the production of gypsy Env proteins by any transcomplementing helper. The possible role of the env gene for horizontal transfer to new hosts is discussed.
A new locus in Drosophila melanogaster that is required for the correct expression of segmental identity has been discovered. The new locus, termed polyhomeotic (ph), is X-linked and maps cytologically to bands 2D2-3. Homozygous ph flies have homeotic transformations similar to those of known dominant gain of function mutants in the Antennapedia and bithorax complexes (ANT-C, BX-C), and in addition show loss of the humerus. ph interacts with three other similar mutations: Polycomb (Pc), Polycomblike (Pcl), and extra sex comb (esc), and acts as a dominant enhancer of Pc. The expression of ph depends on the ANT-C and BX-C dosage. ph has no embryonic phenotype, but temperature shift studies on ph2 show that the ph+ product is required during embryogenesis and larval development. We propose that ph mutants in some way disrupt the normal expression of the ANT-C and BX-C, and, therefore, that ph+ is needed for maintenance of segmental identity.
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