Interactions of Drosophila DNA topoisomerase II with left-handed Z-DNA in supercoiled minicircles.

The native form of Drosophila melanogaster DNA topoisomerase II was purified from Schneider's S3 tissue culture cells and studied with two supercoiled minicircle preparations, mini and mini-CG, 354 bp and 370 bp in length, respectively. Mini-CG contains a d(CG)7 insert which assumes a left-handed Z-DNA conformation in negative supercoiled topoisomers with a negative linking number difference - delta Lk greater than or equal to 2. The interactions of topoisomerase II with topoisomer families of mini and mini-CG were studied by band-shift gel electrophoresis in which the individual topoisomers and their discrete or aggregated protein complexes were resolved. A monoclonal anti-Z-DNA IgG antibody (23B6) bound and aggregated only mini-CG, thereby confirming the presence of Z-DNA. Topoisomerase II bound and relaxed mini-CG more readily than mini. In both cases, there was a preference for more highly negatively supercoiled topoisomers. The topoisomerase II inhibitor VM-26 induced the formation of stable covalent DNA-protein intermediates. In addition, the non-hydrolyzable GTP analogue GTP gamma S inhibited the binding and relaxation activities. Experiments to detect topoisomerase cleavage sites failed to elicit specific loci on either minicircle preparation. We conclude that Drosophila topoisomerase II is able to bind and process small minicircles with lengths as short as 360 bp and negative superhelix densities, - sigma, which can exceed 0.1. Furthermore, the enzyme has a preferential affinity for topoisomers containing Z-DNA segments and relaxes these molecules, presumably by cleavage external to the inserts. Thus, a potentially functional relationship between topoisomerase II, an enzyme regulating the topological state of DNA-chromatin in vivo, and left-handed Z-DNA, a conformation stabilized by negative supercoiling, has been established

Osmium tetroxide: a new probe for site-specific distortions in supercoiled DNAs.

Supercoiled plasmids Col E1 and cDm 506 (a Col E1 derivative carrying the D. melanogaster histone gene repeat) were treated with OsO4 in presence of pyridine and the reaction products were analyzed using different approaches. Gel electrophoresis showed that OsO4 binding to supercoiled DNA induced its relaxation without nicking. The amount of osmium bound to DNA (as determined electrochemically) increased with the extent of DNA relaxation. As a result of osmium modification of supercoiled cDm 506, a single denaturation "bubble" was observed in the electron microscope. Mapping of the osmium binding site by S1 nuclease cleavage followed by restriction enzyme digestion has revealed one major site in the intergenic spacer between the H1 and H3 histone genes of D. melanogaster. This site differs from the site cleaved by S1 nuclease in supercoiled DNA in the absence of osmium

Modeling and experimental study of hydrodynamic and drying characteristics of an industrial rotary dryer

The purpose of this work was to analyze the hydrodynamic and drying aspects of a rotary dryer used in a fertilizer industry. A set of equations to predict the solids holdup in the flights, the length of fall, the residence time of particles and the drying variables was evaluated by comparison to experimental measurements performed in an industrial rotary dryer of the Copebras Fertilizer Company, located in Catalão, state of Goias, Center-west of Brazil. Because of precise estimations, these equations may be used to design and predict the solids cascading behavior in industrial rotary dryers. Despite larger deviations, reaching 20%, the drying model can also be used for design calculations and process simulations