Geography and ecology of invasive Pseudosuccinea columella (Gastropoda: Lymnaeidae) and implications in the transmission of Fasciola species (Digenea: Fasciolidae) – a review

Pseudosuccinea columella is considered invasive and has become an important intermediate host of both Fasciola species in many regions of the world. This systematic review assessed the geographical distribution of P. columella, and its implications in the transmission of Fasciola hepatica and Fasciola gigantica, globally. A literature search was conducted on Google Scholar, JSTOR and PubMed databases using Boolean operators in combination with predetermined search terms for thematic analysis. Results show that P. columella has been documented in 22 countries from Europe (3), Africa (8), Oceania (2), North America (3) and South America (6). Furthermore, this snail species has shown to adapt to and inhabit a vast array of freshwater bodies including thermal lakes and ditches with acidic soils. Studies showed that P. columella transmits F. hepatica, with natural and experimental infections documented in sub-Saharan Africa, Europe, South America and North America. Experimental infection studies in Cuba showed the presence of P. columella populations resistant to F. hepatica infection. Furthermore, some populations of this invasive snail collected from F. hepatica endemic locations in Brazil, Venezuela, Australia, South Africa, Colombia and Argentina were found without Fasciola infection. As a result, the role played by this snail in the transmission of Fasciola spp. in these endemic areas is still uncertain. Therefore, further studies to detect natural infections are needed in regions/countries where the snail is deemed invasive to better understand the veterinary and public health importance of this snail species in Fasciola-endemic areas and determine the global dispersion of resistant populations of P. columella.

Homocysteinylation and sulfhydration in diseases

: Homocysteine (Hcy) is an important intermediate in methionine metabolism and generation of one-carbon unit, and its dysfunction is associated with many pathological states. Although Hcy is a non-protein amino acid, many studies have demonstrated protein-related homocysteine metabolism and possible mechanisms underlying homocysteinylation. Homocysteinylated proteins lose their original biological function and have a negative effect on the various disease phenotypes. Hydrogen sulfide (H2S) has been recognized as an important gaseous signaling molecule with mounting physiological properties. H2S modifies small molecules and proteins via sulfhydration, which is supposed to be essential in the regulation of biological functions and signal transduction in human health and disorders. This review briefly introduces Hcy and H2S, further discusses pathophysiological consequences of homocysteine modification and sulfhydryl modification, and ultimately makes a prediction that H2S might exert a protective effect on the toxicity of homocysteinylation of target protein via sulfhydration. The highlighted information here yields new insights for the role of protein modification by Hcy and H2S in diseases.

Boron Hydrogen Compounds: Hydrogen Storage and Battery Applications

About 25 years ago, Bogdanovic and Schwickardi (B. Bogdanovic, M. Schwickardi: J. Alloys Compd. 1–9, 253 (1997) discovered the catalyzed release of hydrogen from NaAlH4. This discovery stimulated a vast research effort on light hydrides as hydrogen storage materials, in particular boron hydrogen compounds. Mg(BH4)2, with a hydrogen content of 14.9 wt %, has been extensively studied, and recent results shed new light on intermediate species formed during dehydrogenation. The chemistry of B3H8−, which is an important intermediate between BH4− and B12H122−, is presented in detail. The discovery of high ionic conductivity in the high-temperature phases of LiBH4 and Na2B12H12 opened a new research direction. The high chemical and electrochemical stability of closo-hydroborates has stimulated new research for their applications in batteries. Very recently, an all-solid-state 4 V Na battery prototype using a Na4(CB11H12)2(B12H12) solid electrolyte has been demonstrated. In this review, we present the current knowledge of possible reaction pathways involved in the successive hydrogen release reactions from BH4− to B12H122−, and a discussion of relevant necessary properties for high-ionic-conduction materials.

The Flavonoid Biosynthesis Network in Plants

Flavonoids are an important class of secondary metabolites widely found in plants, contributing to plant growth and development and having prominent applications in food and medicine. The biosynthesis of flavonoids has long been the focus of intense research in plant biology. Flavonoids are derived from the phenylpropanoid metabolic pathway, and have a basic structure that comprises a C15 benzene ring structure of C6-C3-C6. Over recent decades, a considerable number of studies have been directed at elucidating the mechanisms involved in flavonoid biosynthesis in plants. In this review, we systematically summarize the flavonoid biosynthetic pathway. We further assemble an exhaustive map of flavonoid biosynthesis in plants comprising eight branches (stilbene, aurone, flavone, isoflavone, flavonol, phlobaphene, proanthocyanidin, and anthocyanin biosynthesis) and four important intermediate metabolites (chalcone, flavanone, dihydroflavonol, and leucoanthocyanidin). This review affords a comprehensive overview of the current knowledge regarding flavonoid biosynthesis, and provides the theoretical basis for further elucidating the pathways involved in the biosynthesis of flavonoids, which will aid in better understanding their functions and potential uses.

Phylogeographic reconstruction of the marbled crayfish origin

The marbled crayfish (Procambarus virginalis) is a triploid and parthenogenetic freshwater crayfish species that has colonized diverse habitats around the world. Previous studies suggested that the clonal marbled crayfish population descended as recently as 25 years ago from a single specimen of P. fallax, the sexually reproducing parent species. However, the genetic, phylogeographic, and mechanistic origins of the species have remained enigmatic. We have now constructed a new genome assembly for P. virginalis to support a detailed phylogeographic analysis of the diploid parent species, Procambarus fallax. Our results strongly suggest that both parental haplotypes of P. virginalis were inherited from the Everglades subpopulation of P. fallax. Comprehensive whole-genome sequencing also detected triploid specimens in the same subpopulation, which either represent evolutionarily important intermediate genotypes or independent parthenogenetic lineages arising among the sexual parent population. Our findings thus clarify the geographic origin of the marbled crayfish and identify potential mechanisms of parthenogenetic speciation.

Survey-based evaluation of the awareness of pharmaceutical specialists on the pharmacotherapy of climacteric syndrome

Objective: to evaluate the awareness of pharmaceutical specialists on the pharmacotherapy of climacteric syndrome based on survey results.Material and methods. The authors analyzed 394 surveys of pharmaceutical specialists in Saint-Petersburg. The survey consisted of 13 questions, covered the personal characteristics of the participants (age, education, professional experience) and their knowledge about special medicines and food supplements to control climacteric symptoms, indications, and contraindications.Results. The results showed that pharmaceutical specialists saw the difference between combined oral contraceptives and menopausal hormone therapy, but they do not know about the protective cardiovascular effects of menopausal hormone therapy. Most specialists consider menopausal hormone therapy more effective than phytoestrogens, but they have no idea how it works. For most of them, there is hardly any difference between various classes of phytoestrogens. In their opinion, medical representatives and scientific conferences are the main providers of medical information.Conclusion. The analysis of the level of awareness of pharmaceutical specialists about the pharmacotherapy of menopausal syndrome based on the results of the survey revealed insufficient knowledge among pharmacy workers on a number of fundamental issues. Therefore, it is necessary to develop methodological recommendations on menopausal hormone therapy preparations and phytoestrogens-based drugs for pharmaceutical specialists who act as an important intermediate between a doctor and a patient.

Formation and characterization of an Al-rich metastable phase in the Al–B phase diagram

Vacuum heat treatment of mechanically alloyed powders of boron and aluminium leads to the formation of a metastable Al-rich phase, which can be quenched. Its structure, composition and thermal stability are established. With the chemical formula Al1.28B the rhombohedral phase is unusually rich in Al. The parameters of the unit cell determined from X-ray powder diffraction are a = 18.3464 (19), c = 8.9241 (9) Å, V = 2601.3 (6) Å3, space group R 3. It is stable on heating to 630°C. It is suggested that this phase is an important intermediate step in the formation of AlB2 and, eventually, of other borides; its nucleation and thermal stability are explained by high elastic energy hindering the formation of equilibrium phases at low temperatures.

Transcriptome and Metabolite Insights Into Domestication Process of Cultivated Barley in China

Background Barley is one of the earliest domesticated crops and regarded as one of the founder of Neolithic transition in the Near East Fertile Crescent. Domestication process of cultivated barley (especially east-Asian cultivated barley) has been under debate because of the controversial origin centers of barley, which caused by widely dispersal of wild barley. What’s more, no comprehensive study regarding alteration in metabolism during domestication has been delineated in barley so far. Results Transcriptomic and non-targeted metabolic analyses were performed for two wild barley populations (wild barley of Near East Fertile Crescent (Wb-NE), and wild barley of Tibetan Plateau (Wb-T)), and one cultivated barley population (cultivated barley of China (Cb-C)), the results revealed two stages of the domestication process of Cb-C, first from Wb-NE to Wb-T, and then from Wb-T to Cb-C. The Wb-T played an important intermediate role in the domestication from Wb-NE to Cb-C, and had made more genetic contribution than Wb-NE to Cb-C. Meanwhile, we found continuous gene flow, a large number of selective genes and metabolites during domestication. Divergent metabolites of alkaloids and phenylpropanoids were specific targeted in stages from Wb-NE to Wb-T and from Wb-T to Cb-C, respectively. The key missense SNPs in genes HORVU6Hr1G027650 and HORVU4Hr1G072150 might be related to the divergence of metabolites of alkaloids and phenylpropanoids during domestication. Conclusions Our results revealed that two stages of the domestication process of Cb-C, and distinct sets of metabolites were targeted by selection during the evolution from wild barley of the Near East Fertile Crescent to Tibetan wild barley to cultivated barley of China. Our findings not only provided genetic and metabolic insights into domestication process of barley but also highlighted the power of combining omics data for trait dissection.

Chlorobenzene Removal Using DBD Coupled with CuO/γ-Al2O3 Catalyst

The removal of chlorobenzene using a dielectric barrier discharge (DBD) reactor coupled with CuO/γ-Al2O3 catalysts was investigated in this paper. The coupling of CuO enhanced the chlorobenzene degradation and complete oxidation ability of the DBD reactor, especially under low voltage conditions. The characterization of catalyst was carried out to understand the interaction between catalyst and plasma discharge. The effects of flow rate and discharge power on the degradation of chlorobenzene and the interaction between these parameters were analyzed using the response surface model (RSM). The analysis of variance was applied to evaluate the significance of the independent variables and their interactions. The results show that the interactions between flow rate and discharge power are not negligible for the degradation of chlorobenzene. Moreover, based on the analysis of byproducts, 4-chlorophenol was discriminated as the important intermediate of chlorobenzene degradation, and the speculative decomposition mechanism of chlorobenzene is explored.