Silicification patterns in wheat leaves related to ontogeny and soil silicon availability under field conditions

Plant and Soil - Silicon (Si) accumulation is an important strategy for plant defense against biotic and abiotic stress. Solid amorphous silica (ASi) deposits have been found to protect plants...     

Translation of an esophagus histopathological FT‐IR imaging model to a fast quantum cascade laser modality

The technical progress in fast quantum cascade laser (QCL) microscopy offers a platform where chemical imaging becomes feasible for clinical diagnostics. QCL systems allow the integration of previously developed FT‐IR‐based pathology recognition models in a faster workflow. The translation of such models requires a systematic approach, focusing only on the spectral frequencies that carry crucial information for discrimination of pathologic features. In this study, we optimize an FT‐IR‐based histopathological method for esophageal cancer detection to work with a QCL system. We explore whether the classifier's performance is affected by paraffin presence from tissue blocks compared to removing it chemically. Working with paraffin‐embedded samples reduces preprocessing time in the lab and allows samples to be archived after analysis. Moreover, we test, whether the creation of a QCL model requires a preestablished FTIR model or can be optimized using solely QCL measurements.     

Synthesis of peptidomimetics: An evaluation of the p-nitrophenyl carbamate of ethylenediamine

The application of p-nitrophenyl carbamate of Boc-ethylenediamine forthe solid-phase synthesis of peptidomimetics was examined. The per step yield of coupling was estimated using mass spectrometry, based on the repeated coupling of the same monomer in the synthesis of alkylurea oligomers. Introduction of the urea moiety at the terminus of the chain adjacent to the resin was accomplished by the use of the BHA resin in the assembly of the chain and liquid HF in the cleavage step. In addition, an alkylurea oligomer was treated with bis(p-nitrophenyl) carbonate followed by ammonolysis in order to obtain a urea moiety at the terminus distant from the resin. Aside from the expected oligomer, a product was obtained in which the terminal alkylurea had undergone cyclization. Finally, four peptidomimetics, analogues of 1–4 enkephalin fragment, containing up to four alkylurea units instead of glycine residues, were synthesized. Two of these peptidomimetics were examined for opioid activity and turned out to be active in the guinea pig ileum assay.     

4-Amino-4-deoxy-l-arabinose in LPS of enterobacterial R-mutants and its possible role for their polymyxin reactivity

Abstract The content of 4-amino-4-deoxy- l -arabinopyranose ( l -Arap4N) and the phosphate substitution pattern of the LPS of various strains from Salmonella minnesota, Yersinia enterocolitica and Proteus mirabilis was determined by GC/MS, HPLC and ³¹P-NMR. These data allowed us to examine the possible role of these components for the polymyxin B-binding capacity of LPS and for the minimal inhibiting concentration (MIC) and the minimal bactericidal concentration (MBC) of polymyxins B and E towards the respective R-mutants. Contrary to other investigated Re-, Rd- and Rc-mutants of S. minnesota , strain R595 (Re-mutant) showed about a 90% substitution of the ester-linked phosphate-group with l -Arap4N, whereas the l -Arap4N content of the other S. minnesota strains amounted to 17–25%. Neither the binding capacity of LPS to polymyxin B, determined by a bioassay, nor the MIC- and MBC-values of the R-mutants were significantly affected by this alteration. Similar results were obtained after using the temperature-dependent changes in the l -Ara p4N-content and phosphate substitution pattern of Y. enterocolitica 75R . In order to explore the relevant polymyxin B binding site, lipid A samples with or without substitution of their ester-linked phosphate group were prepared and subjected to the polymyxin-binding assay. The results obtained so far indicated that the inner core bound l -Arap4N, detected in all resistant strains investigated, may play a decisive role in the decreased binding of polymyxin B, responsible for the bacterial resistance towards polymyxin(s).     

Probiotic meat products and human nutrition

Raw cured and ripened meat products have been traditionally manufactured using the fermentation of native or added carbohydrates by lactic acid bacteria found in meat or in its environment. The commercial application of probiotic microorganisms in dry fermented meat products is not yet common. Probiotic bacterial strains that can be used in the manufacturing of dry fermented meat products should be capable of surviving in conditions found in fermented products; furthermore, they should dominate other microorganisms found in the finished product. The initial number of microorganisms in sausage filling or on the surface of ham or loin cannot be reduced as in milk pasteurization, for example. Therefore, the choice of appropriate microorganisms is important. Probiotic meat products are a relatively new and not very well recognized field of meat industry, but the most important issue is to find a compromise between technological aspects, safety, quality and health-beneficial effects of food. Therefore, the object of this review is on the one hand to analyze technological possibilities and quality parameters of probiotic meat products, and on the other hand to discuss risks and benefits of probiotic meat used in human nutrition.