Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR

Pathomechanisms underlying vascular calcification biogenesis are still incompletely understood. Biomineral from human atherosclerotic intimal plaques; human, equine, and bovine medial vascular calcifications; and human and equine bone was released from collagenous organic matrix by sodium hydroxide/sodium hypochlorite digestion. Solid-state (13)C NMR of intimal plaque mineral shows signals from cholesterol/cholesteryl esters and fatty acids. In contrast, in mineral from pure medial calcifications and bone mineral, fatty acid signals predominate. Refluxing (chloroform/methanol) intimal plaque calcifications removes the cholesterylic but not the fatty acyl signals. The lipid composition of this refluxed mineral now closely resembles that of the medial and bone mineral, which is unchanged by reflux. Thus, intimal and medial vascular calcifications and bone mineral have in common a pool of occluded mineral-entrained fatty acyl-rich lipids. This population of fatty acid may contain methyl-branched fatty acids, possibly representing lipoprotein particle remnants. Cell signaling and mechanistic parallels between physiological (orthotopic) and pathological (ectopic) calcification are also reflected thus in the NMR spectroscopic fingerprints of mineral-associated and mineral-entrained lipids. Additionally the atherosclerotic plaque mineral alone shows a significant independent pool of cholesterylic lipids. Colocalization of mineral and lipid may be coincidental, but it could also reflect an essential mechanistic component of biomineralization.     

Gene Duplication and Positive Selection Explains Unusual Physiological Roles of the Relaxin Gene in the European Rabbit

The relaxin gene family is a group of genes involved in different physiological roles, most of them related to reproduction. In vertebrates the genes in this family are located in three separate chromosomal locations, and have been called relaxin family locus (RFL) A, B, and C. Among mammals the RFLA and RFLC are the most conserved as no gene copy-number variation has been observed thus far. The RFLB locus is also conserved on most mammals other than primates, where there are several gene gains and losses. Interestingly, the relaxin gene found on the RFLB locus in the European rabbit has acquired a novel role. In addition to the classical reproductive roles, this gene is expressed in tracheobronchial epithelial cells and its expression has been linked to squamous differentiation. We reconstructed the evolutionary history of the European rabbit RFLB locus using the tools of comparative genomics and molecular evolution. We found that the European rabbit possess a RFLB locus which is unique among mammals in that there are five tandemly arranged relaxin gene copies, which contrast with the single relaxin copy gene found in most mammals. In addition we also found that the ancestral pre-duplication gene was subject to the action of positive selection, and several amino acid sites were identified under the action of natural selection including the sites B12 and B13 which are part of the receptor recognition and binding site.     

Extracellular production of <Emphasis Type="Italic">Streptomyces exfoliatus</Emphasis> poly(3-hydroxybutyrate) depolymerase in <Emphasis Type="Italic">Rhodococcus</Emphasis> sp. T104: determination of optimal biocatalyst conditions

The phaZ _Sex gene encoding poly(3-hydroxybutyrate) depolymerase from Streptomyces exfoliatus has been successfully cloned and expressed in Rhodococcus sp. T104 for the first time. Likewise, the recombinant enzyme was efficiently produced as an extracellular active form and purified to homogeneity by two hydrophobic chromatographic steps. MALDI-TOF analysis showed that the native enzyme is a monomer. Circular dichroism studies have revealed a secondary structure showing 25.6% α-helix, 21.4% β-sheet, 17.1% β-turns, and 35.2% random coil, with a midpoint transition temperature (T _m) of 55.8 °C. Magnesium and calcium ions enhanced the enzyme activity, whereas manganese inhibited it. EDTA moderately decreased the activity, and the enzyme was completely deactivated at 3 M NaCl. Chemical modification studies indicated the presence of the catalytic triad serine–histidine–carboxylic acid in the active site. High-performance liquid chromatography (HPLC)–mass spectrometry (MS) analysis of PHB products of enzymatic hydrolysis showed monomers and dimers of 3-hydroxybutyric acid, demonstrating that PHB depolymerase is an exo-hydrolase. Addition of methyl-β-cyclodextrin simultaneously increased the activity as well as preserved the enzyme during lyophilization. Finally, thermoinactivation studies showed that the enzyme is highly stable at 40 °C. All these features support the potential industrial application of this recombinant enzyme in the production of (R)-3-hydroxyalkanoic acid derivatives as well as in the degradation of bioplastics.     

Complete genome sequence of Bifidobacterium breve CECT 7263, a strain isolated from human milk

Bifidobacterium breve is an actinobacterium frequently isolated from colonic microbiota of breastfeeding babies. Here, we report the complete and annotated genome sequence of a B. breve strain isolated from human milk, B. breve CECT 7263. The genome sequence will provide new insights into the biology of this potential probiotic organism and will allow the characterization of genes related to beneficial properties.     

Development of new plasmid DNA vaccine vectors with R1-based replicons

ABSTRACT: BACKGROUND: There has been renewed interest in biopharmaceuticals based on plasmid DNA (pDNA) in recent years due to the approval of several veterinary DNA vaccines, on-going clinical trials of human pDNA-based therapies, and significant advances in adjuvants and delivery vehicles that have helped overcome earlier efficacy deficits. With this interest comes the need for high-yield, cost-effective manufacturing processes. To this end, vector engineering is one promising strategy to improve plasmid production. RESULTS: In this work, we have constructed a new DNA vaccine vector, pDMB02-GFP, containing the runaway R1 origin of replication. The runaway replication phenotype should result in plasmid copy number amplification after a temperature shift from 30degreesC to 42degreesC. However, using Escherichia coli DH5alpha as a host, we observed that the highest yields of pDMB02-GFP were achieved during constant-temperature culture at 30degreesC, with a maximum yield of approximately 19 mg pDNA/g DCW being observed. By measuring mRNA and protein levels of the R1 replication initiator protein, RepA, we determined that RepA may be limiting pDMB02-GFP yield at 42degreesC. A mutant plasmid, pDMB-ATG, was constructed by changing the repA start codon from the sub-optimal GTG to ATG. In cultures of DH5alpha[pDMB-ATG], temperature-induced plasmid amplification was more dramatic than that observed with pDMB02-GFP, and RepA protein was detectable for several hours longer than in cultures of pDMB02-GFP at 42degreesC. CONCLUSIONS: Overall, we have demonstrated that R1-based plasmids can produce high yields of high-quality pDNA without the need for a temperature shift, and have laid the groundwork for further investigation of this class of vectors in the context of plasmid DNA production.     

Generalization of the dynamic clamp concept in neurophysiology and behavior

The idea of closed-loop interaction in in vitro and in vivo electrophysiology has been successfully implemented in the dynamic clamp concept strongly impacting the research of membrane and synaptic properties of neurons. In this paper we show that this concept can be easily generalized to build other kinds of closed-loop protocols beyond (or in addition to) electrical stimulation and recording in neurophysiology and behavioral studies for neuroethology. In particular, we illustrate three different examples of goal-driven real-time closed-loop interactions with drug microinjectors, mechanical devices and video event driven stimulation. Modern activity-dependent stimulation protocols can be used to reveal dynamics (otherwise hidden under traditional stimulation techniques), achieve control of natural and pathological states, induce learning, bridge between disparate levels of analysis and for a further automation of experiments. We argue that closed-loop interaction calls for novel real time analysis, prediction and control tools and a new perspective for designing stimulus-response experiments, which can have a large impact in neuroscience research.     

Extensive genetic diversity, unique population structure and evidence of genetic exchange in the sexually transmitted parasite Trichomonas vaginalis

Background

Trichomonas vaginalis is the causative agent of human trichomoniasis, the most common non-viral sexually transmitted infection world-wide. Despite its prevalence, little is known about the genetic diversity and population structure of this haploid parasite due to the lack of appropriate tools. The development of a panel of microsatellite makers and SNPs from mining the parasite''s genome sequence has paved the way to a global analysis of the genetic structure of the pathogen and association with clinical phenotypes.

Methodology/Principal Findings

Here we utilize a panel of T. vaginalis-specific genetic markers to genotype 235 isolates from Mexico, Chile, India, Australia, Papua New Guinea, Italy, Africa and the United States, including 19 clinical isolates recently collected from 270 women attending New York City sexually transmitted disease clinics. Using population genetic analysis, we show that T. vaginalis is a genetically diverse parasite with a unique population structure consisting of two types present in equal proportions world-wide. Parasites belonging to the two types (type 1 and type 2) differ significantly in the rate at which they harbor the T. vaginalis virus, a dsRNA virus implicated in parasite pathogenesis, and in their sensitivity to the widely-used drug, metronidazole. We also uncover evidence of genetic exchange, indicating a sexual life-cycle of the parasite despite an absence of morphologically-distinct sexual stages.

Conclusions/Significance

Our study represents the first robust and comprehensive evaluation of global T. vaginalis genetic diversity and population structure. Our identification of a unique two-type structure, and the clinically relevant phenotypes associated with them, provides a new dimension for understanding T. vaginalis pathogenesis. In addition, our demonstration of the possibility of genetic exchange in the parasite has important implications for genetic research and control of the disease.     

Genetic diversity in commercial wineries: effects of the farming system and vinification management on wine yeasts

Aims: Analysis of the diversity and distribution of wine yeasts isolated from organically and conventionally grown grapes, and during the subsequent fermentation with or without starter cultures in six different commercial wineries. Methods and Results: PCR‐RFLP screening of isolates revealed the involvement of ten different species. Saccharomyces cerevisiae, scarcely isolated from grapes, was the dominant species during the latter phases of fermentation, identifying 108 different genotypes by means of SSR analysis. Species and strains’ diversity and presence were strongly influenced by the farming system used to grow the grapes and the system of vinification. Conclusions: Organic farming management was more beneficial in terms of diversity and abundance than the conventional one. Induced fermentation generated a great replacement of native yeasts. Although winery‐resident yeasts resulted to be predominant in the process, some noncommercial strains originally in the vineyard were found in final stages of the fermentation, confirming that autochthonous strains of S. cerevisiae are capable to conduct the fermentation process up to its end. Significance and Impact of the Study: The study of natural yeast communities from commercial vineyards and wineries is an important step towards the preservation of native genetic resources. Our results have special relevance because it is the first time that the real situation of the yeast ecology of alcoholic fermentation in commercial wineries belonging to the relevant wine‐producing Appellation of Origin ‘Vinos de Madrid’ is shown.     

Development of resistance in Cronobacter sakazakii ATCC 29544 to thermal and nonthermal processes after exposure to stressing environmental conditions

Aims: The objective was to study the response of Cronobacter sakazakii ATCC 29544 cells to heat, pulsed electric fields (PEF), ultrasound under pressure (Manosonication, MS) and ultraviolet light (UV‐C) treatments after exposure to different sublethal stresses that may be encountered in food‐processing environments. Methods and Results: Cronobacter sakazakii stationary growth‐phase cells (30°C, 24 h) were exposed to acid (pH 4·5, 1 h), alkaline (pH 9·0, 1 h), osmotic (5% NaCl, 1 h), oxidative (0·5 mmol l^?1 H₂O₂, 1 h), heat (47·5°C, 1 h) and cold (4°C, 4 h) stress conditions and subjected to the subsequent challenges: heat (60°C), PEF (25 kV cm^?1, 35°C), MS (117 μm, 200 kPa, 35°C) and UV‐C light (88·55 mW cm^?2, 25°C) treatments. The inactivation kinetics of C. sakazakii by the different technologies did not change after exposure to any of the stresses. The combinations of sublethal stress and lethal treatment that were protective were: heat shock–heat, heat shock–PEF and acid pH–PEF. Conversely, the alkaline shock sensitized the cells to heat and UV‐C treatments, the osmotic shock to heat treatments and the oxidative shock to UV‐C treatments. The maximum adaptive response was observed when heat‐shocked cells were subjected to a heat treatment, increasing the time to inactivate 99·9% of the population by 1·6 times. Conclusions: Cronobacter sakazakii resistance to thermal and nonthermal preservation technologies can increase or decrease as a consequence of previous exposure to stressing conditions. Significance and Impact of the Study: The results help in understanding the physiology of the resistance of this emerging pathogen to traditional and novel preservation technologies.