[Drosophila melanogaster gene Merlin interacts with the clathrin adaptor protein gene lap].

The protein Merlin is involved in the regulation of cell proliferation and differentiation in the eyes and wings of Drosophila and is a homolog of the human protein encoded by the Neurofibromatosis 2 (NF2) gene whose mutations cause auricular nerve tumors. Recent studies show that Merlin and Expanded cooperatively regulate the recycling of membrane receptors, such as the epidermal growth factor receptor (EGFR). By performing a search for potential genetic interactions between Merlin (Mer) and the genes important for vesicular trafficking, we found that ectopic expression in the wing pouch of the clathrin adapter protein Lap involved in clathrin-mediated receptor endocytosis resulted in the formation of extra vein materials.

[Dynamics of the spatial organization of the chromosome set in cells of Drosophila melanogaster imaginal disks normally and under the action of the tumor-inducing mutation Merlin].

Fluorescence of H3-p histone and DAPI was studied at different stages of interphase and mitosis in cells of imaginal disks of third-instar Drosophila melanogaster larvae. Three stages differing in the spatial organization of the chromosome set in mitosis were revealed. At the first stage (prophase, prometaphase), the histone 3 phosphorylation level rises, and the volume occupied by the chromosome set in the nucleus increases.

[Chromosome nondisjunction in Drosophila strains mutant for tumor suppressor Merlin].

The effect of mutation for gene Merlin on chromosome disjunction in Drosophila during meiosis was genetically studied. Chromosome nondisjunction was not registered in females heterozygous for this mutation and containing structurally normal X chromosomes. In cases when these females additionally contained inversion in one of chromosomes X, a tendency toward the appearance of nondisjunction events was observed in individuals containing mutation in the heterozygote.

[Range of potential functions of the Drosophila melanogaster hdc gene].

The Drosophila melanogaster hdc gene controls trachea branching, which starts during embryo development. Expression in imaginal disks and reproductive organs suggests additional functions for the hdc gene. The gene was demonstrated to have a maternal effect, which was denied previously.

[Comparative dynamics of elimination of potential chromosome damage in mouse bone marrow cells after low and moderate doses of radiation].

Possible dynamics of the incidence, repair, and realization of potential chromosome aberrations (PAs) was examined by indirect methods based on cytogenetic analysis of radiation effects. PAs were characterized as chemical modifications of DNA responsible for the incidence of structural aberrations of chromosomes. We interpreted our data as providing evidence that two types of radiation-induced PAs, differing in repair rates, could occur in the exposed cells: quick- (short-term) and slow (long-term) repairing PAs.