Expression of Drosophila virilis Retroelements and Role of Small RNAs in Their Intrastrain Transposition

Transposition of two retroelements (Ulysses and Penelope) mobilized in the course of hybrid dysgenesis in Drosophila virilis has been investigated by in situ hybridization on polytene chromosomes in two D. virilis strains of different cytotypes routinely used to get dysgenic progeny. The analysis has been repeatedly performed over the last two decades, and has revealed transpositions of Penelope in one of the strains, while, in the other strain, the LTR-containing element Ulysses was found to be transpositionally active. The gypsy retroelement, which has been previously shown to be transpositionally inactive in D. virilis strains, was also included in the analysis. Whole mount is situ hybridization with the ovaries revealed different subcellular distribution of the transposable elements transcripts in the strains studied. Ulysses transpositions occur only in the strain where antisense piRNAs homologous to this TE are virtually absent and the ping-pong amplification loop apparently does not take place. On the other hand small RNAs homologous to Penelope found in the other strain, belong predominantly to the siRNA category (21nt), and consist of sense and antisense species observed in approximately equal proportion. The number of Penelope copies in the latter strain has significantly increased during the last decades, probably because Penelope-derived siRNAs are not maternally inherited, while the low level of Penelope-piRNAs, which are faithfully transmitted from mother to the embryo, is not sufficient to silence this element completely. Therefore, we speculate that intrastrain transposition of the three retroelements studied is controlled predominantly at the post-transcriptional level

The effect of tRNA and tryptophanyl adenylate on limited proteolysis of beef pancreas tryptophanyl-tRNA synthetase.

Limited proteolysis of tryptophanyl-tRNA synthetase was used to detect changes in the enzyme molecule in the presence of substrates. Trypsinolysis of each of the two identical subunits occurs in succession from the N-terminus as follows: 60 leads to 51 leads to 40 leads to 24 kilodaltons. The transition 51 leads to 40 is hindered in tryptophanyl adenylate.enzyme complex. Yeast tRNATrp accelerates the first steps of hydrolysis and decelerates the transition 40 leads to 24. Once tRNATrp is added to the synthetase.adenylate complex, the protective effect of the adenylate disappears. The same effects are found also in the presence of tRNATrp oxidized with NaI04 and tRNATrp lacking the 3'-terminal adenosine. Oxidized tRNATrp (but not tRNATrp without the 3'-A) accelerates tryptophan-dependent hydrolysis of ATP catalyzed by the enzyme. A scheme is proposed for the interaction of yeast tRNATrp with beef pancreas tryptophanyl-tRNA synthetase involving the association of tRNA with a positively charged site(s) of the enzyme and the changes in the conformation of enzyme manifesting itself in unfolding of the acidic N-terminal fragment of the polypeptide chain and in the exposure of the adenylate