Insecticidal genes of Yersinia spp.: taxonomical distribution, contribution to toxicity towards Manduca sexta and Galleria mellonella, and evolution

<p>Abstract</p> <p>Background</p> <p>Toxin complex (Tc) proteins termed TcaABC, TcdAB, and TccABC with insecticidal activity are present in a variety of bacteria including the yersiniae.</p> <p>Results</p> <p>The <it>tc </it>gene sequences of thirteen <it>Yersinia </it>strains were compared, revealing a high degree of gene order conservation, but also remarkable differences with respect to pseudogenes, sequence variability and gene duplications. Outside the <it>tc </it>pathogenicity island (<it>tc</it>-PAI^<it>Ye</it>) of <it>Y. enterocolitica </it>strain W22703, a pseudogene (<it>tccC2'</it>/<it>3'</it>) encoding proteins with homology to TccC and similarity to tyrosine phosphatases at its C-terminus was identified. PCR analysis revealed the presence of the <it>tc</it>-PAI^{<it>Ye </it>}and of <it>tccC2'</it>/<it>3'</it>-homologues in all biotype 2–5 strains tested, and their absence in most representatives of biotypes 1A and 1B. Phylogenetic analysis of 39 TccC sequences indicates the presence of the <it>tc</it>-PAI^{<it>Ye </it>}in an ancestor of <it>Yersinia</it>. Oral uptake experiments with <it>Manduca sexta </it>revealed a higher larvae lethality of <it>Yersinia </it>strains harbouring the <it>tc</it>-PAI^{<it>Ye </it>}in comparison to strains lacking this island. Following subcutaneous infection of <it>Galleria mellonella </it>larvae with five non-human pathogenic <it>Yersinia </it>spp. and four <it>Y. enterocolitica </it>strains, we observed a remarkable variability of their insecticidal activity ranging from 20% (<it>Y. kristensenii</it>) to 90% (<it>Y. enterocolitica </it>strain 2594) dead larvae after five days. Strain W22703 and its <it>tcaA </it>deletion mutant did not exhibit a significantly different toxicity towards <it>G. mellonella</it>. These data confirm a role of TcaA upon oral uptake only, and suggest the presence of further insecticidal determinants in <it>Yersinia </it>strains formerly unknown to kill insects.</p> <p>Conclusion</p> <p>This study investigated the <it>tc </it>gene distribution among yersiniae and the phylogenetic relationship between TccC proteins, thus contributing novel aspects to the current discussion about the evolution of insecticidal toxins in the genus <it>Yersinia</it>. The toxic potential of several <it>Yersinia </it>spp. towards <it>M. sexta </it>and <it>G. mellonella </it>demonstrated here for the first time points to insects as a natural reservoir for yersiniae.</p

High Performance Liquid Chromatography on Calixarene-Bonded Silica Gels. III. Separations of cis/trans Isomers of Proline-Containing Peptides

The liquid chromatographic behavior of p-tert-butylcalix[n]arene (n = 4,5,6, and 8) for the separation of cis/trans peptide bond isomers of proline-containing peptides is studied to demonstrate the chromatographic selectivity of calixarene stationary phases. The results are compared with the elution patterns obtained on RP18 and β-cyclodextrin, as well as on a monomeric p-tert-butylphenoxyacetic acid. The chromatographic data are established by rechromatography and 1H-NMR spectroscopy. The results support the assumption that inclusion complexation seems to be a possible separation principle because of the size of the calixarene cavitie

Photocatalytic degradation of diclofenac in wastewater using ironceramic composites

The photocatalytic degradation of diclofenac in model aqueous solution is investigated. The surface of composites were correlated with photocatalytic activity. Adsorption activity of the composites is related to the presence of surface active sites. The degradation under UV irradiation and photo-Fenton process using ironceramic composites is more effective than direct photolysis

A Novel Plenoptic Camera-Based Measurement System for the Investigation into Flight and Combustion Behavior of Refuse-Derived Fuel Particles

In the past several decades, refuse-derived fuels (RDFs) have been widely applied in industrial combustion processes, for instance, in cement production. Since RDF is composed of various waste fractions with complex shapes, its flight and combustion behaviors can be relatively complicated. In this paper, we present a novel plenoptic camera-based spatial measurement system that uses image processing approaches to determine the dwell time, the space-sliced velocity in the depth direction, and the ignition time of various applied RDF fractions based on the obtained images. The image processing approach follows the concept of tracking-by-detection and includes a novel combined detection method, a 2.5D multiple particle tracking algorithm, and a postprocessing framework to tackle the issues in the initial tracking results. The thereby obtained complete spatial fuel trajectories enable the analysis of the flight behaviors elaborated in the paper. The acquired particles’ properties (duration, velocity, and ignition time) reversely prove the availability and applicability of the developed measurement system. The adequacy and accuracy of the proposed novel measurement system are validated by the experiments of detecting and tracking burning and nonburning fuel particles in a rotary kiln. This new measurement system and the provided experimental results can benefit a better understanding of the RDF’s combustion for future research

Oscillating Combustion - Primary Measure to Reduce Nitrogen Oxide in a Grate Furnace - Experiments and Simulations

The emission from industries and the mobility sector is under strong legal regulations in many countries worldwide. In Germany, the amendment to the 17th BlmSchV (Federal pollution control ordinance), which has been in force for waste incineration plants since 2013, has given rise to a new limit for nitrogen oxides of 150 mg/m3 as the daily mean level from 2019 on. A similar focus is on biomass-fired plants. According to the MCP (medium combustion plant) guideline of the EU, as a consequence, existing plants are required to either increase their consumption of ammonia water for nitrogen oxide reduction (SNCR process) or back fit SCR catalysts as secondary measures, which is a costly procedure. This paper presents a novel two-stage process in which an oscillating supply of secondary air allows nitrogen oxides to be reduced by approx. 50% at a good burnout level, which may obviate the need for secondary measures. Besides experimental investigations in a fixed bed reactor, CFD simulations confirm a high potential for reduction of nitrogen oxides. Together with the company POLZENITH, this process is under development for scale-up in a biomass incineration plant as a next step

Trypanosoma cruzi Utilizes the Host Low Density Lipoprotein Receptor in Invasion

Trypanosoma cruzi, an intracellular protozoan parasite that causes Chagas disease in humans and results in the development of cardiomyopathy, is a major health problem in endemic areas. This parasite can invade a wide variety of mammalian cells. The mechanisms by which these parasites invade their host cells are not completely understood. Our study highlights, for the first time, that the Low Density Lipoprotein receptor (LDLr) is important in the invasion and the subsequent fusion of the parasitophorous vacuole with host lysosomes. We demonstrate that T. cruzi directly binds to LDLr, and inhibition or disruption of LDLr significantly decreases parasite entry. Additionally, we have determined that this cross-linking triggers the accumulation of LDLr and phosphotidylinositol phosphates in coated pits, which initiates a signaling cascade that results in the recruitment of lysosomes, possibly via the sorting motif in the cytoplasmic tail of LDLr, to the site of adhesion/invasion. Studies of infected CD1 mice demonstrate that LDLs accumulate in infected heart and that LDLr co-localize with internalized parasites. Overall, this study demonstrates that LDLr and its family members, engaged mainly in lipoprotein transportation, are also involved in T. cruzi entry into host cells and this interaction likely contributes to the progression of chronic cardiomyopathy

Physics opportunities at RHIC and LHC

Nonequilibrium models (three-fluid hydrodynamics, UrQMD, and quark molecular dynamics) are used to discuss the uniqueness of often proposed experimental signatures for quark matter formation in relativistic heavy ion collisions from the SPS via RHIC to LHC. It is demonstrated that these models - although they do treat the most interesting early phase of the collisions quite differently (thermalizing QGP vs. coherent color fields with virtual particles) -- all yield a reasonable agreement with a large variety of the available heavy ion data. Hadron/hyperon yields, including J/Psi meson production/suppression, strange matter formation, dileptons, and directed flow (bounce-off and squeeze-out) are investigated. Observations of interesting phenomena in dense matter are reported. However, we emphasize the need for systematic future measurements to search for simultaneous irregularities in the excitation functions of several observables in order to come close to pinning the properties of hot, dense QCD matter from data. The role of future experiments with the STAR and ALICE detectors is pointed out

Predicting the influence of a p2-symmetric substrate on molecular self-organization with an interaction-site model

An interaction-site model can a priori predict molecular selforganisation on a new substrate in Monte Carlo simulations. This is experimentally confirmed with scanning tunnelling microscopy on Fre´chet dendrons of a pentacontane template. Local and global ordering motifs, inclusion molecules and a rotated unit cell are correctly predicted