Sex-specific alternative processing of doublesex (dsx) precursor messenger RNA (pre-mRNA) regulates somatic sexual differentiation in Drosophila melanogaster. Cotransfection analyses in which the dsx gene and the female-specific transformer (tra) and transformer-2 (tra-2) complementary DNAs were expressed in Drosophila Kc cells revealed that female-specific splicing of the dsx transcript was positively regulated by the products of the tra and tra-2 genes. Furthermore, analyses of mutant constructs of dsx showed that a portion of the female-specific exon sequence was required for regulation of dsx pre-messenger RNA splicing.
Sex-specific alternative processing of doublesex (dsx) precursor messenger RNA (pre-mRNA) is one of the key steps that regulates somatic sexual differentiation in Drosophila melanogaster. By transfection analyses using dsx minigene constructs, we identified six copies of the 13-nucleotide sequences TC(T/A)(T/A)C(A/G)ATCAACA in the femalespecific fourth exon that act as the cis elements for the female-specific splicing of dsx pre-mRNA. UV-crosslinking experiments revealed that both female-specific transformer (tra) and transformer-2 (tra-2) products bind to the 13-nucleotide sequences of dsx pre-mRNA. These results strongly suggest that the female-specific splicing of dsx pre-mRNA is activated by binding of these proteins to the 13-nucleotide sequences.Somatic sexual differentiation in Drosophila is accomplished by a hierarchy ofregulatory genes (for reviews, see refs. 1-3). One of these genes, doublesex (dsx), is required for somatic sexual differentiation in both males and females (4). The dsx pre-mRNA undergoes sex-specific RNA processing (splicing and polyadenylylation reactions), which leads to the production of two distinct sex-specific mRNAs ( Fig. 1) (5, 6). In female ffies, the common third exon is spliced to the femalespecific fourth exon and the cleavage/polyadenylylation reaction occurs immediately downstream ofthe fourth exon. In contrast, splicing between the common third exon and the male-specific fifth exon occurs in male flies.
Drosophila melanogaster somatic sexual differentiation is accomplished by serial function of the products of sex-determination genes. Sex-lethal (Sxl), is one such gene. It is functionally expressed only in female flies. The sex-specific expression of this gene is regulated by alternative mRNA splicing which results in either the inclusion or exclusion of the translation stop codon containing third exon. Although previous genetic and molecular analyses suggest that functional Sxl expression is maintained by a positive feedback loop, where the female-specific Sxl product promotes the synthesis of its own female-specific mRNA, the mechanistic details of such regulation have remained unclear. We have developed a cotransfection system using Drosophila cultured (Kc) cells in which Sxl primary transcripts are expressed with or without the female specific Sxl product. Here we show that the female-specific Sxl product induces the synthesis of its own female-specific mRNA by negative control of male-specific splicing. Deletion, substitution, and binding experiments have demonstrated that multiple uridine-rich sequences in the introns around the male-specific third exon are involved in the splicing regulation of Sxl pre-mRNA.
Mutations were introduced by recombinant DNA techniques into the vpr open reading frame of an infectious molecular clone of human immunodeficiency virus type 1. The effect of these changes on the replicative and cytopathologic properties of the virus recovered from transfected cells was studied in several human CD4+ lymphocyte cell lines. In all cases, mutant viruses were infectious and cytopathic. However, when a low-input dose was used, mutants grew significantly more slowly than the wild-type virus. The growth kinetics of vpr mutants were distinct from those of vif and vpu mutants.
Endogenous feline leukemia RD114 virus genome rendered capable of infecting mouse cells by phenotypic mixing with an ecotropic murine leukemia virus (MuLV) exhibited the Fv‐1 restriction pattern of the ecotropic murine virus. However, RD114 genomes phenotypically mixed with ecotropic MuLV showed one‐hit dose‐response kinetics, even when titrated with murine cells with the restricted Fv‐1 phenotype.
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