Platinum(II) complexes with 2,4-diaminobutyric acid,ornithine, lysine and 4,5-diaminovaleric acid

L-2,4-Diaminobutyric acid (Dab) reacts with K₂PtCl₄ yielding PtCl₂(N,O-Dab), which rearranges to PtCl₂(N,N-Dab). Reaction with L-ornithine and L-lysine yields the corresponding PtCl₂(N,O-Orn) and PtCl₂(N,O-Lys), respectively, whereas reaction with 4,5-diaminovaleric acid (Dav) yields PtCl₂(N,N- Dav).     

The effects of amphotericin B on lipid metabolism in cultured human skin fibroblasts

Summary Amphotericin B inhibits hydroxymethylglutarylcoenzyme A (HMGCoA) reductase activity and incorporation of [³H]acetate into sterols and fatty acids of human skin fibroblasts. Delivery of cholesterol to cells via the low density lipoprotein receptor pathway is not altered. The effects of amphotericin B on cell lipid metabolism are partially reversed by both potassium and insulin. Portions of this work were presented at the Southern Regional Meeting of the American Federation for Clinical Research, January 1983.     

Decline of Potentillo albae-Quercetum Libb. 1933 phytocoenoses in Poland

The historical process of the decline of the thermophilous oak forest was studied at 11 selected localities within the whole area of the association in Poland. The comparative analysis of phytosociological data from the periods of 1929–1981 and 1987–1991 has shown the total decline of Potentillo albae-Quercetum at nine localities as well as symptoms of regression at two localities. It has been stated that in Eastern Pomerania and in Greater Poland in the places of Potentillo albae-Quercetum phytocoenoses the communities of Galio-Carpinetum and Calamagrostio-Quercetum have appeared. In the central, north-east, south-east and southern part of the country, the thermophilous oak forest has changed into Tilio-Carpinetum phytocoenoses. The results of the study indicate that the recession of Potentillo albae-Quercetum is taking place in the whole area of the association in Poland. The size of the area is changing, the number of localities is decreasing. The consequence of the thermophilous oak forest decline is the unification and impoverishment of woodland vegetation and flora. These localities of the association which exist up to date are refuges for many interesting helio- and thermophilous species. Their presence to a great extent determines the genetic pool and diversity of Polish flora.Abbreviations Acc accompanying - FB Festuco-Brometea - Fg Fagetalia sylvaticae - MA Molinio-Arrhenatheretea - QF Querco-Fagetea - Qp Quercetalia pubescentis - SN Sedo-Scleranthetea and Nardo-Callunetea - TG Trifolio-Geranietea sanguinei - VP Vaccinio-Piceetea     

Dissecting the influence of Mg2+ on 3D architecture and ligand-binding of the guanine-sensing riboswitch aptamer domain

Long-range tertiary interactions determine the three-dimensional structure of a number of metabolite-binding riboswitch RNA elements and were found to be important for their regulatory function. For the guanine-sensing riboswitch of the Bacillus subtilis xpt-pbuX operon, our previous NMR-spectroscopic studies indicated pre-formation of long-range tertiary contacts in the ligand-free state of its aptamer domain. Loss of the structural pre-organization in a mutant of this RNA (G37A/C61U) resulted in the requirement of Mg²⁺ for ligand binding. Here, we investigate structural and stability aspects of the wild-type aptamer domain (Gsw) and the G37A/C61U-mutant (Gsw^loop) of the guanine-sensing riboswitch and their Mg²⁺-induced folding characteristics to dissect the role of long-range tertiary interactions, the link between pre-formation of structural elements and ligand-binding properties and the functional stability. Destabilization of the long-range interactions as a result of the introduced mutations for Gsw^loop or the increase in temperature for both Gsw and Gsw^loop involves pronounced alterations of the conformational ensemble characteristics of the ligand-free state of the riboswitch. The increased flexibility of the conformational ensemble can, however, be compensated by Mg²⁺. We propose that reduction of conformational dynamics in remote regions of the riboswitch aptamer domain is the minimal pre-requisite to pre-organize the core region for specific ligand binding.     

3D printing in biotechnology—An insight into miniaturized and microfluidic systems for applications from cell culture to bioanalytics

Since its invention in the 1980s, 3D printing has evolved into a versatile technique for the additive manufacturing of diverse objects and tools, using various materials. The relative flexibility, straightforwardness, and ability to enable rapid prototyping are tremendous advantages offered by this technique compared to conventional methods for miniaturized and microfluidic systems fabrication (such as soft lithography). The development of 3D printers exhibiting high printer resolution has enabled the fabrication of accurate miniaturized and microfluidic systems—which have, in turn, substantially reduced both device sizes and required sample volumes. Moreover, the continuing development of translucent, heat resistant, and biocompatible materials will make 3D printing more and more useful for applications in biotechnology in the coming years. Today, a wide variety of 3D‐printed objects in biotechnology—ranging from miniaturized cultivation chambers to microfluidic lab‐on‐a‐chip devices for diagnostics—are already being deployed in labs across the world. This review explains the 3D printing technologies that are currently used to fabricate such miniaturized microfluidic devices, and also seeks to offer some insight into recent developments demonstrating the use of these tools for biotechnological applications such as cell culture, separation techniques, and biosensors.     

Kinetic modeling of the time course of N-butyryl-homoserine lactone concentration during batch cultivations of Pseudomonas aeruginosa PAO1

Quorum sensing affects the regulation of more than 300 genes in Pseudomonas aeruginosa, influencing growth, biofilm formation, and the biosynthesis of several products. The quorum sensing regulation mechanisms are mostly described in a qualitative character. Particularly, in this study, the kinetics of N-butyryl-homoserine lactone (C4-HSL) and rhamnolipid formation in P. aeruginosa PAO1 were of interest. In this system, the expression of the rhamnolipid biosynthesis genes rhlAB is directly coupled to the C4-HSL concentration via the rhl system. Batch cultivations in a bioreactor with sunflower oil have been used for these investigations. 3-oxo-dodecanoyl-homoserine lactone (3o-C12-HSL) displayed a lipophilic character and accumulated in the hydrophobic phase. Degradation of C4-HSL has been found to occur in the aqueous supernatant of the culture by yet unknown extracellular mechanisms, and production was found to be proportional to biomass concentration rather than by autoinduction mechanisms. Rhamnolipid production rates, as determined experimentally, were shown to correlate linearly with the concentration of autoinducer C4-HSL. These findings were used to derive a simple model, wherein a putative, extracellular protein with C4-HSL degrading activity was assumed (putative C4-HSL acylase). The model is based on data for catalytic efficiency of HSL-acylases extracted from literature (k _cat/K _m), experimentally determined basal C4-HSL production rates (q _C4?-?HSL ^basal), and two fitted parameters which describe the formation of the putative acylase and is therefore comparatively simple.     

Supramolecular ligands: Monomer structure and protein ligation capability

The aim of this work was to define the chemical structure of compounds self-assembling in water solutions, which appear to interact with proteins as single ligands with their supramolecular nature preserved. For this purpose the ligation to proteins of his azo dyes, represented by Congo red and its derivatives with designed structural alterations, were tested. The three parameters which characterize the reactivity of supramolecular material were determined in the same conditions for all studied dyes. These were: A) stability of the assembly products; B) binding to heat-denatured protein (human IgG); and C) binding to native protein (rabbit antibodies in the immune complex) measured by the enhancement of hemagglutination. The structural differences between the Congo red derivatives concerned the symmetry of the molecule and the structure of its non-polar component, which occupies the central part of the dye molecule and is thought to be crucial for self-assembly. Other dyes were also studied for the same purpose: Evans blue and Trypan blue, bis-ANS and ANS, as well as a group of compounds with a structural design unlike that of bis azo dyes. Compounds with rigid elongated symmetric molecules with a large non-polar middle fragment are expected to form a ribbon-like supramolecular organization in assembling. They appeared to have ligation properties related to their self-assembling tendency. The compounds with different structures, not corresponding to his azo dyes, did not reveal ligation capability, at least in respect to native protein. The conditions of binding to denatured proteins seem less restrictive than the conditions of binding to native molecules. The molten hydrophobic protein interior becomes a new binding area allowing for complexation of even non-assembled molecules.     

Phenology of cryptomonads and the CRY1 lineage in a coastal brackish lagoon (Vistula Lagoon,Baltic Sea)

Cryptomonadales have acquired their plastids by secondary endosymbiosis. A novel clade—CRY1—has been discovered at the base of the Cryptomonadales tree, but it remains unknown whether it contains plastids. Cryptomonadales are also an important component of phytoplankton assemblages. However, they cannot be readily identified in fixed samples, and knowledge on dynamics and distribution of specific taxa is scarce. We investigated the phenology of the CRY1 lineage, three cryptomonadales clades and a species Proteomonas sulcata in a brackish lagoon of the Baltic Sea (salinity 0.3–3.9) using fluorescence in situ hybridization. A newly design probe revealed that specimens of the CRY1 lineage were aplastidic. This adds evidence against the chromalveolate hypothesis, and suggests that the evolution of cryptomonadales’ plastids might have been shorter than is currently assumed. The CRY1 lineage was the most abundant cryptomonad clade in the lagoon. All of the studied cryptomonads peaked in spring at the most freshwater station, except for P. sulcata that peaked in summer and autumn. Salinity and concentration of dissolved inorganic nitrogen most significantly affected their distribution and dynamics. Our findings contribute to the ecology and evolution of cryptomonads, and may advance understanding of evolutionary relationships within the eukaryotic tree of life.