Knowledge, innovative activities and industrial evolution

We argue that the distinction between tacit and codified knowledgeis indeed very important, but it constitutes only a part ofthe categorization of the dimensions of knowledge relevant forunderstanding innovative activities and firms' and industrialevolution. In particular, we emphasize the relevance of thenotion of competencies and of some further properties of knowledge,like technological regimes (opportunities, accessibility andcumulativeness), domains of knowledge (in terms of technology,demand and applications) and knowledge complementarities (andthe related issues of coordination and integration of thesecomplementarities).     

Application of indicial functions in bridge deck aeroelasticity

This contribution deals with some recent studies on numerical and analytical models for the evaluation of aeroelastic response of cross-section models of long span bridges. The time-domain indicial approach, whose validity has been only partially investigated in the past, is selected for the modeling of self-excited forces. Sets of indicial function coefficients are estimated for rectangular cross-sections, and their applicability is proven, through time-domain simulations and comparison with experimental tests. Critical flutter condition and dynamic pre-critical and post-critical behaviors are evaluated.     

Visualization of single proteins from stripped native cell membranes: A protocol for high‐resolution atomic force microscopy

Atomic force microscopy (AFM) proved to be able to obtain high‐resolution three‐dimensional images of single‐membrane proteins, isolated, crystallized, or included in reconstructed model membranes. The extension of this technique to native systems, such as the protein immersed in a cell membrane, needs a careful manipulation of the biological sample to meet the experimental constraints for high‐resolution AFM imaging. In this article, a general protocol for sample preparation is presented, based on the mechanical stretch of the cell membrane. The effectiveness for AFM imaging has been tested on the basis of an integrated optical and AFM approach and the proposed method has been applied to cells expressing cystic fibrosis transmembrane conductance regulator, a channel involved in cystic fibrosis, showing the possibility to identify and analyze single proteins in the plasma membrane. Microsc. Res. Tech. 76:723–732, 2013. © 2013 Wiley Periodicals, Inc.     

Synthesis of Fluorescent PMMA‐Based Nanoparticles

The synthesis of PMMA‐based nanoparticles (NPs) covalently labeled with a fluorescent dye is investigated for imaging applications such as cell uptake and biodistribution. Batch emulsion polymerization (BEP) and monomer‐starved semi‐batch emulsion polymerization (MSSEP) are adopted using SDS. Fluorescent properties are added to these NPs using Rhodamine‐B (RhB) as a fluorescent dye covalently bonded to 2‐hyroxyethyl‐acrylate. The resulting HEMA‐RhB monomer is copolymerized with MMA via BEP and MSSEP to synthesize fluorescent NPs. Subsequently, SDS is substituted with a biocompatible surfactant, Tween80, through ionic‐exchange resins. ζ‐Potential measurements confirmed the complete surfactant exchange that leads to biocompatible fluorescent NPs with tunable size and narrow size distribution.

     

Composition and Physical Stability of the Colloidal Dispersion in Veiled Virgin Olive Oil

Veiled virgin olive oil (VOO) samples of nine different olive cultivars are chosen to have a wide range of physicochemical and biological properties of colloidal dispersions. The contents of proteins and phospholipids range from 40 to 190 mg kg⁻¹ and from 70 to 200 mg kg⁻¹, respectively. The effect of lab-scale centrifugation on cloudy appearance is studied measuring the decrease of turbidity grade values. The time to obtain unveiled oils (20 NTU) is modeled by a logistic equation, and a clear relationship between the initial water content and the above time is observed with a different trend between two groups of the VOO samples. Four VOO samples are selected to study the aggregation phenomena of microdroplets of water, pulp particles, and olive stone fragments via optical microscopy and dynamic light scattering during lab-scale gravity sedimentation. All VOOs are unstable with the cloudiness disappearing within the 230 days of investigation due to an overall diameter increase of cloudy components which is modeled by a power-law equation. The VOO samples, characterized by both small diameter values of dispersed components (150–250 nm) and high values of water content, show the fastest aggregation kinetics, but they have the longest time of cloudiness stability. Practical Applications: Water content and size distribution of VOO cloudy components can be key factors to control the colloidal stability. If removal of cloudy appearance is required, centrifugation can be applied to obtain a fast oil clarification which shows a power law relationship of water content with time. Instead, if physical stability of the colloidal dispersion is required, the aggregation phenomena should be slow down through VOO processing to obtain small diameters of the cloudy components. Tuning both the water content and dispersed phase diameter in the VOO can be the first step towards the control of phenomena related to the colloidal dispersion for every olive oil processing organization, above and beyond the simple removal of cloudy appearance by filtration.     

Decoration of Nanovesicles with pH (Low) Insertion Peptide (pHLIP) for Targeted Delivery

Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend on tumor perfusion, thus it may serve as a general biomarker for targeting tumor cells. We used the pH (low) insertion peptide (pHLIP) for decoration of liposomes and niosomes. pHLIP senses pH at the surface of cancer cells and inserts into the membrane of targeted cells, and brings nanomaterial to close proximity of cellular membrane. DMPC liposomes and Tween 20 or Span 20 niosomes with and without pHLIP in their coating were fully characterized in order to obtain fundamental understanding on nanocarrier features and facilitate the rational design of acidity sensitive nanovectors. The samples stability over time and in presence of serum was demonstrated. The size, ζ-potential, and morphology of nanovectors, as well as their ability to entrap a hydrophilic probe and modulate its release were investigated. pHLIP decorated vesicles could be useful to obtain a prolonged (modified) release of biological active substances for targeting tumors and other acidic diseased tissues.     

Selenoglutathione-Mediated Rescue of Kinetically Trapped Intermediates in Oxidative Protein Folding

Selenoglutathione has been shown to have considerable potential as a catalyst of oxidative protein folding. Here we examine how this reagent modulates the folding pathway of bovine pancreatic trypsin inhibitor (BPTI) and show that the diselenide increases the efficiency of this process primarily by accelerating the conversion of a kinetically trapped folding intermediate.