Effects of engrailed in the genital disc of Drosophila melanogaster

engrailed has been postulated to be the “selector gene” involved in the establishment of the anterior-posterior compartment border in several imaginal discs and in at least the first two abdominal segments of Drosophila melanogaster. Our study of the effects of different mutant engrailed genotypes on genital disc development provided the following major results: All three terminal primordia (female and male genitalia, and analia) were affected. Different heteroallelic combinations showed different expressivities, and the three terminal primordia were differently affected by the same mutant genotype. The engrailed genotypes deleted specific elements of the adult terminalia without causing associated pattern duplications. The reduced morphology of the male engrailed genital disc was analogous to the pattern deletions observed in the adult terminalia. That the engrailed phenotype is stable was demonstrated by culturing in vivo intact and fragmented engrailed genital discs. Cell death was found in a significant number of mature male en²/en³ genital discs. The results are discussed in terms of the segmental organization of the genital disc and in terms of the “selector gene” function postulated for the engrailed locus. The interpretation that each terminal primordium has an anterior and a posterior compartment is presented and it is assumed that in the genital disc engrailed transforms posterior cells into anterior cells that do not develop, thereby causing the deficiency pattern of the engrailed phenotype.     

The behavior during the initial phase of in vitro aggregation of dissociated imaginal disc cells from Drosophila melanogaster

Aspects of the initial phase of aggregation in vitro of dissociated imaginal disc cells from Drosophila melanogaster are described. Using the methods described certain interdisc differences in the percent decrease in single cell units during the first hour of aggregation can be demonstrated. In addition it is shown that prospective notum cells isolated from the dorsal mesothoracic disc show less of a decrease than do prospective wing cells. This difference shows up in a variety of different wild-type stocks and in several mutant stocks as well. Prospective notum cells from the mutation fu59 show only a limited ability to adhere to one another, while the percentage of single cell units from prospective wing blade cells from r9 larvae grown on pyrimidine-poor medium decrease less compared to cells from the same stock grown on RNA-supplemented medium. There is a significantly greater decrease in the percent single cell units in cultures of prospective eye cells than in cultures of prospective antennal cells. Furthermore, cells from the antennal disc of larvae bearing the homeotic mutation ssa show a significantly lower decrease in single cell units when grown at restrictive temperatures. In contrast, antennal disc cells from the homeotic mutation ophthalmoptera; eyeless Dominant, a mutation which affects the eye disc, are unaffected, while cells from the eye disc are slightly less able to reassociate with one another.     

patufet , the gene encoding the Drosophila melanogaster homologue of selenophosphate synthetase, is involved in imaginal disc morphogenesis

Proliferation in imaginal discs requires cell growth and is linked to patterning processes controlled by secreted cell-signalling molecules. To identify new genes involved in the control of cell proliferation we have screened a collection of P-lacW insertion mutants that result in lethality in the larval/pupal stages, and characterized a novel gene, patufet (ptuf). Inactivation of ptuf by a P element insertion in the 5′ untranslated region leads to aberrant imaginal disc morphology characterized by a reduction in mass of discs and disorganisation of disc cells where no folding or patterning can be detected. Moreover, apoptotic cells can be observed in these small and abnormal mutant discs. To examine the role of ptuf we have studied its clonal behaviour in genetic mosaics generated by mitotic recombination. The mutation causes reduced cell viability, smaller cell size and stops vein differentiation. Non-autonomous effects, such as abnormal differentiation of wild-type cells surrounding the clones, are also observed. We have cloned the ptuf gene of Drosophila melanogaster and found that it encodes a selenophosphate synthetase, which is the first identified in insects. Mutant flies transformed with the full-length cDNA show complete reversion of lethality and disc phenotype. Northern blot analysis and in situ hybridization indicate that the ptuf gene is expressed in imaginal discs as well as at different stages of development. The synthesis of selenoproteins by the selenophosphate synthetase, the role of selenoproteins in the maintenance of the oxidant/antioxidant balance of the cell and its possible implications in imaginal disc morphogenesis are discussed. Received: 22 August 1997 / Accepted: 9 September 1997     

Behavioral mutants of Drosophila melanogaster

Summary Sex-linked behavioral mutants were induced in Drosophila melanogaster with ethyl methanesulfonate (EMS) and isolated by direct visual observation of abnormal phenotypes. The four behavioral phenotypes used were flight-reduction, hyperactivity, hypoactivity and stress-sensitivity, and are easily discernable in either single or small populations of mutant flies. In one screen, forty-two behavioral mutants were recovered from strains derived from 800 mutagen-treated X chromosomes. In a second screen, 139 behavioral mutants were obtained from 2369 X chromosomes. The high rate at which behavioral mutants were recovered in the second screen, when compared to new visibles (28) and new temperature-sensitive lethals (124), suggests that the isolation of behavioral mutations on the autosomes of Drosophila and in the genomes of larger insects should be practical.This research was supported by National Research Council of Canada grant A-1764 to D.T.S.     

Dopa decarboxylase from Drosophila melanogaster

Summary Dopa decarboxylase (EC 4.1.1.26) has been purified to near homogeneity from mature larvae of Drosophila melanogaster. The enzyme has a molecular weight of 113,000 measured by sucrose gradient sedimentation and 102,000 measured by variable porosity acrylamide gel electrophoresis. Electrophoresis under denaturing conditions revealed the enzyme consists of two subunits of molecular weight 54,000. The affinity of the enzyme for L-dopa is 30-fold greater than for L-tyrosine. Activity is strongly inhibited by heavy metal ions and the sulfhydryl reagent N-ethylmaleimide. N-acetyl dopamine acts as a competitive inhibitor of the enzyme.Antibodies were elicited against the purified enzyme and measurements of the amount of cross-reacting material (CRM) in two groups of mutants were made. The first group comprised the recessive lethal mutants l(2)amd. Heterozygous mutant stocks are hypersensitive to -methyl dopa, an inhibitor of dopa decarboxylase. These stocks were found to have nearly normal amounts of CRM and enzyme activity.A second group of recessive lethal mutants, characterized by lower levels of dopa decarboxylase, was also analysed. These mutants, designated l(2) Ddc, as heterozygotes exhibited CRM levels between 25 and 75% of normal. Although they are alleles at a single locus, they were classifiable into three distinct groups whose properties readily could be ascribed to a homodimeric structure of the enzyme. This structure would also account for the pattern of intracistronic complementation exhibited by the mutants. Finally, the severity of the mutant defects, as judged by our measurements of CRM and activity, closely parallels that deduced from their complementation pattern. We conclude that these mutations are lesions in the structural gene for dopa decarboxylase.     

Nucleotide metabolism variability in Drosophila melanogaster

Summary We have studied the metabolic variability within different wild-type strains of Drosophila melanogaster for resistance to antimetabolites (aminopterin, 8-azaguanine), the target enzymatic activities (dihydrofolate reductase, hypoxanthine guanine phosphoribosyltransferase) and capacity to survive on minimal medium with or without exogenous bases or nucleosides (thymidine, hypoxanthine). No correlation was found between dihydrofolate reductase activity and resistance to aminopterin. The results indicated the importance of salvage pathways in the resistance mechanisms in Drosophila.     

Clonal analysis of primordial disc cells in the early embryo of Drosophila melanogaster

Single cells were marked by X-ray-induced somatic recombination at the blastoderm stage (3 hr) and at 7 and 10 hr of development, when the embryos are relatively insensitive to radiation damage. The resulting clones of genetically marked cells were analyzed on the adult cuticle. For the three stages examined there is a decrease in clone size with developmental age indicating proliferation of the primordial disc cells which give rise to the adult cuticular structures. The extent of the clones has been used to study the specificity of determination in the primordial disc cells at the time of induction. A significant fraction of the clones induced at all three stages extend from the antenna into the head. In the thorax, some of the clones induced at 3 hr extend from the second leg into the wing, thus indicating that these cells are not yet disc-specifically determined. No clones, however, were found extending from the first leg into the second or from the second into the third, and by 7 hr all thoracic clones were restricted to a single disc. The results provide evidence that determination at the blastoderm stage is not yet disc-specific.     

Trithorax: A new homoeotic mutation of Drosophila melanogaster causing transformations of abdominal and thoracic imaginal segments

Summary A new homoeotic mutation, trithorax¹ (trx¹), of Drosophila melanogaster is described which causes intersegmental transformations in both the adult thorax and abdomen. Specifically, the metathorax and ventral prothorax are partially transformed to mesothroax, whilst abdominal segments are partially transformed towards the first abdominal segment. Three variables are shown to influence the expressivity of the mutant phenotype: (1) presence of wild type copies of the gene in the female parent; (2) culture temperature during the first four hours of embryogenesis; (3) exposure of embryos to ether vapour at the blastoderm stage. In addition it is shown that phenocopies of the mutant phenotype can be induced by ether treatment of heterozygous trx¹ embryos with a frequency higher than that of bithorax phenocopies in wild type embryos.These findings are together taken to imply that the mutated gene functions early during embryogenests, and that a common mechanism underlies the determination of all the thoracic and abdominal segments.     

Autonomy of the wingless mutation in Drosophila melanogaster

Summary T(Y;2) translocations were used to cytologically localise the wingless locus of Drosophila melanogaster. We found that an existing T(Y;2), which is an insertion of a segment of 2L into the Y chromosome, has wg ⁺ within this insert. This Y chromosome was used to generate an attached XY chromosome containing wg ⁺. The mutation claret-nondisjunctional (ca ^nd) was used to induce the loss of this XY chromosome and thus generate gynandromorphs with wg ¹/wg ¹ male tissue and wg ⁺/wg ¹/wg ¹ female tissue. Analysis of these gynanders demonstrated that a genotypically wingless mutant hemithorax is usually also phenotypically mutant in these half body mosaics; thus wg ¹ is discautonomous. This observation is of interest as it is known that wg is not cell autonomous.     

Paucimannose N-glycans in Caenorhabditis elegans and Drosophila melanogaster

There is a rich diversity of paucimannose N-glycans in worms and flies, and these may play a role in the survival of these organisms. Although paucimannose N-glycans are not expressed in vertebrates, complex N-glycans may take over some of the functions of paucimannose N-glycans. Identification of the target proteins of β-1,2-N-acetylglucosaminyltransferase I (GnTI) in worms and flies and elucidation of their functions may thus lead to a better understanding of the role of GnTI-dependent glycoproteins in the survival/longevity of both invertebrates and vertebrates.     

Carnitine suppression of position-effect variegation in Drosophila melanogaster

Carnitine is a well-known naturally occurring compound, very similar to butyrate, with an essential role in intermediary metabolism mainly at the mitochondrial level. Since butyrate inhibits the enzyme histone deacetylase and is capable of suppressing position-effect variegation in Drosophila melanogaster, we tested a further possible function of carnitine in the nucleus, using an assay for the suppression of position-effect variegation. We tested three physiological forms of carnitine (l-carnitine, l-propionylcarnitine, l-acetylcarnitine) for the ability to suppress two different chromosomal rearrangements, inducing variegation of the white ⁺ and brown ⁺ genes. The results show that the carnitine derivatives are capable of suppressing the position-effect variegation, albeit with different efficiencies. The carnitine derivatives interact lethally with Su-var(2)1 ⁰¹, a mutation that induces hyperacetylation of histones, whilst hyperacetylated histories accumulated in both the nuclei of HeLa cells and Drosophila polytene chromosomes treated with the same compounds. These results strongly suggest that the carnitine derivatives suppress position-effect variegation by a mechanism similar to that of butyrate. It is suggested that carnitines may have a functional role in the nucleus, probably at the chromatin level.     

Autonomous differentiation of the tumorous-head phenotype in Drosophila melanogaster

Summary Transformed areas derived from mature imaginal eye discs of the tumorous-head (tuh) mutant of Drosophila melanogaster were transplanted either into larval hosts (metamorphosis test) or into adult females (long-term in vivo culture). These disc fragments showed characteristic morphologic and enzymatic (aldehyde oxidase (aldox) positive) differences in comparison to a similar region in wildtype eye discs.The tissues derived from the central portion of the tuh eye disc which would normally give rise to eye facets transformed predominantly into homoeotic structures of the abdominal region of the fly. Posterior abdominal tergites arose in 88% of the transplants, of which 7% also possessed genital tissue. In addition, 10% showed duplicated vibrissae with no accompanying homoeotic alteration and 2% differentiated into unidentifiable structures.Our preliminary results from long-term cultures have shown the capacity of the tuh transformed area to grow in vivo and to maintain its differentiation potential. This kind of approach therefore provides an opportunity to follow transdetermination properties of a homoeotically altered tissue.In the present study we demonstrate that during larval life, the presumptive region of the tuh transformed area can be removed from the surrounding unaffected eye disc tissue. From the autonomous differentiation of the tuh phenotype we conclude that the homoeotic change is cell-intrinsically expressed and that the aldox positive areas in the tuh eye discs signal an altered state of determination.Leave of absence: Department of Biological Sciences, Florida Technological University, Orlando, Florida 32816, USA     

Constitutive heterochromatin in early embryogenesis of Drosophila melanogaster

Summary The formation of constitutive heterochromatin was studied during the embryonic development of Drosophila melanogaster, using the C-banding technique. During embryonic cleavage, C-banded material is not seen in mitotic chromosomes; the differentiation between euchromatin and heterochromatin only occurs at blastoderm. This event correlates with the establishment of position-effect variegation.     

Genetische Untersuchungen zur Ddt-Resistenz an Drosophila melanogaster

Ohne ZusammenfassungMit 9 Textabbildungen.