Standing Tall, the Stiletto Heel as Material Memory: A Contemporary

Employing a material culture analysis, this dissertation functions as a general compendium on the stiletto heel, as it recounts the history of the stiletto from its introduction as a technological marvel in the post-WWII period to its present-day manifestations as a glamourous accessory. It surveys womens relations to stiletto heels and the reasons why women wear, and do not wear, them. Through a comparative cross-cultural analysis, the study examines a group of Canadian and Italian womens uses and perceptions of stiletto heels, and reveals cultural distinctions manifested in their uses and interpretations of stilettos. The womens personal relations to and cultural interpretations of the stiletto were measured through a phenomenological analysis of material collected through surveys, interviews and online forums. The study also considers the general sentiments stilettos engender in regard to the portrayal of women in society and the feminist discourses that the stiletto challenges and reinforces

INTERNATIONALIZATION AND INNOVATION: THE CHALLENGES FOR EUROPE IN A CHANGING WORLD

A large part of the economic literature is unanimous in believing technological progress and openness to foreign trade are key variables to trigger the processes of stable and persistent economic growth. An in-depth analysis of these factors, thus, becomes necessary both to meet the challenges of the international market, and to strengthen the European integration process. This paper aims to provide an empirical analysis of the interaction between foreign trade and technological progress by performing a multidimensional scaling. This technique is used to produce a graphical representation of the 27 EU member states, in accordance to the degree of similarity or dissimilarity between them. The indicators used, and the indexes calculated, reflect the different degree of internationalization of each country's economy, the regulation of trade flows, investment in specific R&D and technological progress.International trade, integration, technological progress

Chemical communication between synthetic and natural cells: a possible experimental design

The bottom-up construction of synthetic cells is one of the most intriguing and interesting research arenas in synthetic biology. Synthetic cells are built by encapsulating biomolecules inside lipid vesicles (liposomes), allowing the synthesis of one or more functional proteins. Thanks to the in situ synthesized proteins, synthetic cells become able to perform several biomolecular functions, which can be exploited for a large variety of applications. This paves the way to several advanced uses of synthetic cells in basic science and biotechnology, thanks to their versatility, modularity, biocompatibility, and programmability. In the previous WIVACE (2012) we presented the state-of-the-art of semi-synthetic minimal cell (SSMC) technology and introduced, for the first time, the idea of chemical communication between synthetic cells and natural cells. The development of a proper synthetic communication protocol should be seen as a tool for the nascent field of bio/chemical-based Information and Communication Technologies (bio-chem-ICTs) and ultimately aimed at building soft-wet-micro-robots. In this contribution (WIVACE, 2013) we present a blueprint for realizing this project, and show some preliminary experimental results. We firstly discuss how our research goal (based on the natural capabilities of biological systems to manipulate chemical signals) finds a proper place in the current scientific and technological contexts. Then, we shortly comment on the experimental approaches from the viewpoints of (i) synthetic cell construction, and (ii) bioengineering of microorganisms, providing up-to-date results from our laboratory. Finally, we shortly discuss how autopoiesis can be used as a theoretical framework for defining synthetic minimal life, minimal cognition, and as bridge between synthetic biology and artificial intelligence.Comment: In Proceedings Wivace 2013, arXiv:1309.712

Sicily and Sicilians in Cataldo Parisio Siculo’s ‘Epistole et Orationes quedam Cataldi Siculi’

El artículo tiene como objetivo el análisis y comentario de una selección de 16 cartas que forman parte de la obra del humanista siciliano Cataldo Parisio Sículo Epistole et Orationes quedam Cataldi Siculi. Dichas epístolas se encuentran en la primera parte de la obra, impresa el 21 de febrero de 1500 en Lisboa (Portugal). El criterio de selección de los textos ha sido la relación de los mismos con Sicilia, bien desde el punto de vista temático, bien desde el punto de vista del origen de los destinatarios.This article aims to analize and comment a collection of 16 letters that are part of the Sicilian humanist Cataldo Parisio Siculo’s work Epistole et Orationes quedam Cataldi Siculi. These letters are included in the first part of this book, printed on 21 February 1500 in Lisbon (Portugal). The selection criteria about these texts was their relation with Sicily, both from the thematic point of view and from the recipients’ common origin

The genetic variability of the Podolica cattle breed from the Gargano area. Preliminary results

The Podolica cattle breed is autochthonous of Southern Italy and denoted by its particular rusticity. This study presents the preliminary results of the genetic characterization of the Podolica breed using DNA STR markers. A total of 20 microsatellite loci were analysed in 79 individuals reared in the Gargano area. Number of polymorphisms, allele fre- quencies, deviations from Hardy-Weinberg proportions, linkage disequilibrium between loci and genetic similarities between animals were calculated. The results showed a high deficiency of heterozygotes, the observed mean of het- erozygosis being 0.449, whereas the expected mean was 0.766. Many markers showed also deviations from the Hardy- Weinberg proportions and significant linkage disequilibrium between loci. However the genetic similarity within the pop- ulation was low (0.281) and the average number of alleles per locus was high (10), representing a high genetic vari- ability. In order to explain these results, a stratification of the breed in sub-populations with a high interior genetic homo- geneity but markedly differentiated one from each other could be hypothesized; this situation probably derived from non- random mating within each herd (consanguinity) and from the lack of exchange of genetic material between the herds. A further study is needed on a wider sample and extending the analysis to FAO-ISAG microsatellite panel in order to con- firm this hypothesis. This could eventually provide the information necessary for the correct management of the repro- ductive schemes and for genomic traceability of meat production

Focal nodular hyperplasia of the liver: an unusual association with diabetes mellitus in a child and review of literature

Hepatic hemangioma, adenoma and focal nodular hyperplasia are the most frequent benign lesions of the liver, but they are all infrequent among pediatric population. The reports of focal nodular hyperplasia in children have recently increased in number, with many cases associated to drug intake, particularly to chemotherapy. We here describe, to our knowledge, the first case of focal nodular hyperplasia in association with diabetes mellitus in childhood

Measurement and Numerical Modeling of Cell-Free Protein Synthesis: Combinatorial Block-Variants of the PURE System

Protein synthesis is at the core of bottom-up construction of artificial cellular mimics. Intriguingly, several reports have revealed that when a transcription–translation (TX–TL) kit is encapsulated inside lipid vesicles (or water-in-oil droplets), high between-vesicles diversity is observed in terms of protein synthesis rate and yield. Stochastic solute partition can be a major determinant of these observations. In order to verify that the variation of TX–TL components concentration brings about a variation of produced protein rate and yield, here we directly measure the performances of the 'PURE system' TX–TL kit variants. We report and share the kinetic traces of the enhanced Green Fluorescent Protein (eGFP) synthesis in bulk aqueous phase, for 27 combinatorial block-variants. The eGFP production is a sensitive function of TX–TL components concentration in the explored concentration range. Providing direct evidence that protein synthesis yield and rate actually mirror the TX–TL composition, this study supports the above-mentioned hypothesis on stochastic solute partition, without excluding, however, the contribution of other factors (e.g., inactivation of components)

Indigenous enzymes and leukocyte in sheep milk are markers of health status and physiology of the mammary gland

Plasmin, plasminogen and plasminogen activator in ewe bulk milk were not significantly affected by stage of lactation probably as a consequence of the good health of the ewe udders throughout lactation as indicated by SCC which never exceeded 600,000 cells/mL. Elastase content increased significantly during lactation whereas cathepsin showed the highest content in mid lactation. Changes in macrophages and neutrophyls levels in ewe bulk milk during lactation were also investigated. Macrophages minimally contributed to leukocyte cell count in milk and had the highest levels at the beginning of lactation. An opposite trend was recorded for polymorphonuclear leukocytes (PMNL) that increased throughout lactation showing the highest value in late lactation. The increase of PMNL percentage and elastase content in milk, in spite of relatively low SCC, suggests that PMNL and elastase underwent a physiological increase associated to the remodelling of mammary gland in late lactation

Extrinsic stochastic factors (solute partition) in gene expression inside lipid vesicles and lipid-stabilized water-in-oil droplets: a review

Abstract The encapsulation of transcription–translation (TX–TL) machinery inside lipid vesicles and water-in-oil droplets leads to the construction of cytomimetic systems (often called 'synthetic cells') for synthetic biology and origins-of-life research. A number of recent reports have shown that protein synthesis inside these microcompartments is highly diverse in terms of rate and amount of synthesized protein. Here, we discuss the role of extrinsic stochastic effects (i.e. solute partition phenomena) as relevant factors contributing to this pattern. We evidence and discuss cases where between-compartment diversity seems to exceed the expected theoretical values. The need of accurate determination of solute content inside individual vesicles or droplets is emphasized, aiming at validating or rejecting the predictions calculated from the standard fluctuations theory. At the same time, we promote the integration of experiments and stochastic modeling to reveal the details of solute encapsulation and intra-compartment reactions

Complex dynamics in simplified neuronal models: reproducing Golgi cell electroresponsiveness

Brain neurons exhibit complex electroresponsive properties – including intrinsic subthreshold oscillations and pacemaking, resonance and phase-reset – which are thought to play a critical role in controlling neural network dynamics. Although these properties emerge from detailed representations of molecular-level mechanisms in “realistic” models, they cannot usually be generated by simplified neuronal models (although these may show spike-frequency adaptation and bursting). We report here that this whole set of properties can be generated by the extended generalized leaky integrate-and-fire (E-GLIF) neuron model. E-GLIF derives from the GLIF model family and is therefore mono-compartmental, keeps the limited computational load typical of a linear low-dimensional system, admits analytical solutions and can be tuned through gradient-descent algorithms. Importantly, E-GLIF is designed to maintain a correspondence between model parameters and neuronal membrane mechanisms through a minimum set of equations. In order to test its potential, E-GLIF was used to model a specific neuron showing rich and complex electroresponsiveness, the cerebellar Golgi cell, and was validated against experimental electrophysiological data recorded from Golgi cells in acute cerebellar slices. During simulations, E-GLIF was activated by stimulus patterns, including current steps and synaptic inputs, identical to those used for the experiments. The results demonstrate that E-GLIF can reproduce the whole set of complex neuronal dynamics typical of these neurons – including intensity-frequency curves, spike-frequency adaptation, post-inhibitory rebound bursting, spontaneous subthreshold oscillations, resonance, and phase-reset – providing a new effective tool to investigate brain dynamics in large-scale simulations