Abstract: Cloning and characterization of a TgIF2? kinase from Toxoplasma gondii designated TgIF2K-D illustrates that this protein is related to GCN2, an eIF2? kinase known to respond to nutrient starvation in other organisms. TgIF2K-D is present in the cytosol of both intra- and extracellular Toxoplasma and facilitates translational control through TgIF2? phosphorylation in extracellular parasites. Both a TgIF2K-D knockout parasite and a parasite harboring the TgIF2? mutant (S71A substitution) exhibited loss of eIF2? kinase activity which manifested itself as significant fitness defect. Accordingly, eIF2? phosphorylation and translational control are an important mechanism by which vulnerable extracellular parasites protect themselves which searching for a new host cell. TgIF2K-D is an excellent target for development of compounds and therapies that can be used to treat infections caused by Toxoplasma and other eukaryotic parasites, especially parasites that have high homology or identity to TgIF2K-D.

Abstract: Cloning and characterization of a TgIF2? kinase from Toxoplasma gondii designated TgIF2K-D illustrates that this protein is related to GCN2, an eIF2? kinase known to respond to nutrient starvation in other organisms. TgIF2K-D is present in the cytosol of both intra- and extracellular Toxoplasma and facilitates translational control through TgIF2? phosphorylation in extracellular parasites. Both a TgIF2K-D knockout parasite and a parasite harboring the TgIF2? mutant (S71A substitution) exhibited loss of eIF2? kinase activity which manifested itself as significant fitness defect. Accordingly, eIF2? phosphorylation and translational control are an important mechanism by which vulnerable extracellular parasites protect themselves which searching for a new host cell. TgIF2K-D is an excellent target for development of compounds and therapies that can be used to treat infections caused by Toxoplasma and other eukaryotic parasites, especially parasites that have high homology or identity to TgIF2K-D.

Abstract: Temperature or wear indicating device for material-working tools, in particular pipe-working tools, furthermore in particular saw blades, wherein the temperature or wear indicating device has at least one temperature or wear indicator, the temperature or wear indicator being at least partially produced from an indicator material that changes one of its visual properties, in particular its colour, permanently when a predetermined limit temperature is exceeded.

Abstract: A method and device for detecting airborne, infectious microorganisms in indoor air and collecting them for rapid identification. Diseased air is drawn into an enclosed chamber where it is percolated through a liquid such that many of the microorganisms become encapsulated in the liquid. The liquid is then atomized to ensure encapsulation of microorganisms which may have escaped encapsulation in the percolation step, and then separated from the air. The relatively slow drawing rate and delicate percolation through the liquid preserves the integrity of the microorganisms. The air is released into the room, while the microorganism-containing liquid is directed to a reservoir. A magnetic substance is added to the reservoir. The microorganism-containing liquid is passed through an electromagnetic field whereupon the microorganisms are attracted to the magnetic surface. These microorganisms are thereafter removed for analysis. The remaining liquid is recycled.

Abstract: A pearlescent pigment comprises C glass flakes having a first layer comprising rutile titanium dioxide or iron oxide thereon and a second layer comprising hydrous oxide or hydroxide of a polyvalent cation, precipitate of said polyvalent cation, and an anionic polymeric compound. A hydrous layer of the rutile forming titanium dioxide or iron oxide is first formed on the glass flakes and the resulting coated flakes are calcined prior to the application of the second layer.

Abstract: A method and device for detecting airborne, infectious microorganisms in indoor air and collecting them for rapid identification. Diseased air is drawn into an enclosed chamber where it is percolated through a liquid such that many of the microorganisms become encapsulated in the liquid. The liquid is then atomized to ensure encapsulation of microorganisms which may have escaped encapsulation in the percolation step, and then separated from the air. The relatively slow drawing rate and delicate percolation through the liquid preserves the integrity of the microorganisms. The air is released into the room, while the microorganism-containing liquid is directed to a reservoir from which samples may be extracted for analysis. The liquid is recycled.

Abstract: A pearlescent pigment consists essentially of C glass flakes having a layer comprising rutile titanium dioxide or iron oxide thereon. A hydrous layer of the rutile forming titanium dioxide or iron oxide is formed on the glass flakes and the resulting coated flakes are calcined.

Abstract: A titanium dioxide- or iron oxide-coated mica pearlescent pigment having a coating which contains a combination of hydrated cerium and aluminum oxides has enhanced weatherstability.

Abstract: Iron oxide-coated micaceous pigments having a chroma enhancing amount of a coating of a colorless metal oxide which has a refractive index of at least about 2.0 exhibit intensely colored effects.

Abstract: Papers with improved tensile strength and increased porosity are obtained by heat treatment of calendered sheets of poly(p-phenylene terephthalamide) short fibers and poly(m-phenylene isophthalamide) fibrids.

Abstract: A nonwoven, flexible sheet and process for making same consisting essentially of a comingled mixture of about 55 to about 75% by weight short fibers of poly(meta-phenylene isophthalamide) and about 25 to about 45% by weight fibrids of poly(meta-phenylene isophthalamide). The sheet has a basis weight of between about 10 and about 25 g/m.sup.2 and a thickness of between about 25 and about 45 microns and is impregnatable with resins or silicone oils.