Pupae of the silk moth, Samia cynthia, were found to contain an inducible antibacterial activity in their hemolymph. This immunity response was provoked by primary infections with either Escherichia coli K-12 or Enterobacter cloacae. In both cases the antibacterial activity was directed chiefly towards E. coli. During standard conditions, 1% of hemolymph could kill 10' to 10' viable E. coli, strain D31, within 5 min. A lower level of antibacterial activity was induced by injections of a sterile salt solution. The killing of strain D31 followed single-hit kinetics, and increasing rate constants were obtained for increasing amounts of hemolymph. The reaction was sensitive to pretreatment with trypsin and it was protected by reducing agents. The activity was inhibited by microgram quantities of lipopolysaccharide (LPS) prepared from certain LPS mutants of E. coli K-12. A comparison of the susceptibility showed that "heptose-less" LPS mutants were more sensitive to killing than other strains. During standard conditions hemolymph will lyse both E. coli and Micrococcus lysodeikticus. Lysis of E. coli followed a multi-hit kinetics and it was inhibited by LPS, whereas lysis of M. lysodeikticus was unaffected by LPS. Hemolymph was fractionated on Sephadex G-200, and the lytic activities were recovered in partly overlapping peaks. Reconstitution with pooled fractions gave synergistic effects with the killing assay.
Secondary structure transitions are important modulators of signal transduction and protein aggregation. Phosphorylation is a well known post-translational modification capable of dramatic alteration of protein secondary structure. Additionally, phosphorylated residues can induce structural changes through metal binding. Data derived from the Protein Data Bank demonstrate that magnesium and manganese are metal ions most favored by phosphate. Due to the complexity of molecular interactions as well as the challenging physicochemical properties of natural systems, simplified peptide models have emerged as a useful tool for investigating the molecular switching phenomenon. In this study using a coiled coil model peptide, we show structural consequences of phosphorylation and subsequent magnesium and manganese ions coordination. In the course of our experiment we obtained a switch cascade starting from a stable helical conformation of the control peptide, continuing through the phosphorylation-induced unfolded structure, and ending with a metal-stabilized alpha-helix (Mg(2+)) or helical fibers (Mn(2+)), each of which could be transferred back to the unfolded form upon EDTA chelation. This study demonstrates how small peptide models can aid in the evaluation and a better understanding of protein secondary structure transitions.
This article presents linguistic features of and educational approaches to a new variety of German that has emerged in multi-ethnic urban areas in Germany: Kiezdeutsch ('Hood German'). From a linguistic point of view, Kiezdeutsch is very interesting, as it is a multi-ethnolect that combines features of a youth language with those of a contact language. We will present examples that illustrate the grammatical productivity and innovative potential of this variety. From an educational perspective, Kiezdeutsch has also a high potential in many respects: school projects can help enrich intercultural communication and weaken derogatory attitudes. In grammar lessons, Kiezdeutsch can be a means to enhance linguistic competence by having the adolescents analyse their own language.
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