58 research outputs found
Characterization and Determination of Interesterification Markers (Triacylglycerol Regioisomers) in Confectionery Oils by Liquid Chromatography-Mass Spectrometry
Interesterification is an industrial transformation process aiming to change the physico-chemical properties of vegetable oils by redistributing fatty acid position within the original constituent of the triglycerides. In the confectionery industry, controlling formation degree of positional isomers is important in order to obtain fats with the desired properties. Silver ion HPLC (High Performance Liquid Chromatography) is the analytical technique usually adopted to separate triglycerides (TAGs) having different unsaturation degrees. However, separation of TAG positional isomers is a challenge when the number of double bonds is the same and the only difference is in their position within the triglyceride molecule. The TAG positional isomers involved in the present work have a structural specificity that require a separation method tailored to the needs of confectionery industry. The aim of this work was to obtain a chromatographic resolution that might allow reliable qualitative and quantitative evaluation of TAG positional isomers within reasonably rapid retention times and robust in respect of repeatability and reproducibility. The resulting analytical procedure was applied both to confectionery raw materials and final products
Selective bacterial colonization processes on polyethylene waste samples in an abandoned landfill site
The microbial colonization of plastic wastes has been extensively studied in marine environments, while studies on aged terrestrial wastes are scarce, and mostly limited to the isolation of plastic-degrading microorganisms. Here we have applied a multidisciplinary approach involving culturomics, next-generation sequencing analyses and fine-scale physico-chemical measurements to characterize plastic wastes retrieved in landfill abandoned for more than 35 years, and to assess the composition of bacterial communities thriving as biofilms on the films’ surfaces. All samples were characterized by different colors but were all of polyethylene; IR and DSC analyses identified different level of degradation, while FT-Raman spectroscopy and X-ray fluorescence further assessed the degradation level and the presence of pigments. Each plastic type harbored distinct bacterial communities from the others, in agreement with the differences highlighted by the physico-chemical analyses. Furthermore, the most degraded polyethylene films were found to host a bacterial community more similar to the surrounding soil as revealed by both α- and β-diversity NGS analyses. This work confirms the novel hypothesis that different polyethylene terrestrial waste samples select for different bacterial communities, and that structure of these communities can be correlated with physico-chemical properties of the plastics, including the degradation degree
Antioxidant and Anti-Inflammatory Effect of Cinnamon (Cinnamomum verum J. Presl) Bark Extract after In Vitro Digestion Simulation
Cinnamon bark is widely used for its organoleptic features in the food context and growing evidence supports its beneficial effect on human health. The market offers an increasingly wide range of food products and supplements enriched with cinnamon extracts which are eliciting beneficial and health-promoting properties. Specifically, the extract of Cinnamomum spp. is rich in antioxidant, anti-inflammatory and anticancer biomolecules. These include widely reported cinnamic acid and some phenolic compounds, such asproanthocyanidins A and B, and kaempferol. These molecules are sensitive to physical-chemical properties (such as pH and temperature) and biological agents that act during gastric digestion, which could impair molecules' bioactivity. Therefore, in this study, the cinnamon's antioxidant and anti-inflammatory bioactivity after simulated digestion was evaluated by analyzing the chemical profile of the pure extract and digested one, as well as the cellular effect in vitro models, such as Caco2 and intestinal barrier. The results showed that the digestive process reduces the total content of polyphenols, especially tannins, while preserving other bioactive compounds such as cinnamic acid. At the functional level, the digested extract maintains an antioxidant and anti-inflammatory effect at the cellular level
Chronic administration of saturated fats and fructose differently affect SREBP activity resulting in different modulation of Nrf2 and Nlrp3 inflammasome pathways in mice liver
The overconsumption of both saturated fats and fructose in the modern society has been related to the development of nonalcoholic fatty liver disease (NAFLD). However, the specific contribution of individual dietary components on the progression of NAFLD to nonalcoholic steatohepatitis (NASH) has been poorly investigated.Therefore, the aim of our study was to investigate the dissimilar effects of these two dietary components on selected proinflammatory and antioxidant pathways in the liver of C57BL/6 mice fed a standard (SD), a 45% saturated fat (HFAT) or a 60% fructose (HFRT) diet for 12 weeks. HFAT diet evoked systemic metabolic alterations and overweight, not observed in HFRT mice. However, HFRT mice had a greater hepatic triglyceride deposition with increased ratio of triacylglycerols containing the palmitic acid compared to HFAT, as assessed by liquid chromatography-mass spectrometry analysis. This effect is due to the higher activation of the SCAP/SREBP1c lipogenic pathway by HFRT feeding. In addition, we found inhibition of Keap1/Nrf2 antioxidant signaling and more robust stimulation of the Nlrp3 inflammasome pathway in the livers of HFRT-fed mice when compared with HFAT-fed mice, which is consistent with the recent finding that palmitate and SREBP1c are implicated in hepatic oxidative stress and inflammation. These effects were associated with increased hepatic inflammation, as confirmed by high expression of markers of leukocyte infiltration in the HFRT group. Thus, we hypothesize an amplifying loop among lipogenesis, palmitate, Nrf2 and Nlrp3 that leads to a higher risk of NAFLD progression to NASH in a high-fructose diet compared to a high-saturated fat intake. (C) 2017 Elsevier Inc. All rights reserved
Extracellular Vesicles and Epidermal Growth Factor Receptor Activation: Interplay of Drivers in Cancer Progression
Extracellular vesicles (EVs) are of great interest to study the cellular mechanisms of cancer development and to diagnose and monitor cancer progression. EVs are a highly heterogeneous population of cell derived particles, which include microvesicles (MVs) and exosomes (EXOs). EVs deliver intercellular messages transferring proteins, lipids, nucleic acids, and metabolites with implications for tumour progression, invasiveness, and metastasis. Epidermal Growth Factor Receptor (EGFR) is a major driver of cancer. Tumour cells with activated EGFR could produce EVs disseminating EGFR itself or its ligands. This review provides an overview of EVs (mainly EXOs and MVs) and their cargo, with a subsequent focus on their production and effects related to EGFR activation. In particular, in vitro studies performed in EGFR-dependent solid tumours and/or cell cultures will be explored, thus shedding light on the interplay between EGFR and EVs production in promoting cancer progression, metastases, and resistance to therapies. Finally, an overview of liquid biopsy approaches involving EGFR and EVs in the blood/plasma of EGFR-dependent tumour patients will also be discussed to evaluate their possible application as candidate biomarkers
Delineation and Diagnostic Criteria of Oral-Facial-Digital Syndrome Type VI
Oral-Facial-Digital Syndrome type VI (OFD VI) represents a rare phenotypic subtype of Joubert syndrome and related disorders (JSRD). In the original report polydactyly, oral findings, intellectual disability, and absence of the cerebellar vermis at post-mortem characterized the syndrome. Subsequently, the molar tooth sign (MTS) has been found in patients with OFD VI, prompting the inclusion of OFD VI in JSRD. We studied the clinical, neurodevelopmental, neuroimaging, and genetic findings in a cohort of 16 patients with OFD VI. We derived the following inclusion criteria from the literature: 1) MTS and one oral finding and polydactyly, or 2) MTS and more than one typical oral finding. The OFD VI neuroimaging pattern was found to be more severe than in other JSRD subgroups and includes severe hypoplasia of the cerebellar vermis, hypoplastic and dysplastic cerebellar hemispheres, marked enlargement of the posterior fossa, increased retrocerebellar collection of cerebrospinal fluid, abnormal brainstem, and frequently supratentorial abnormalities that occasionally include characteristic hypothalamic hamartomas. Additionally, two new JSRD neuroimaging findings (ascending superior cerebellar peduncles and fused thalami) have been identified. Tongue hamartomas, additional frenula, upper lip notch, and mesoaxial polydactyly are specific findings in OFD VI, while cleft lip/palate and other types of polydactyly of hands and feet are not specific. Involvement of other organs may include ocular findings, particularly colobomas. The majority of the patients have absent motor development and profound cognitive impairment. In OFD VI, normal cognitive functions are possible, but exceptional. Sequencing of known JSRD genes in most patients failed to detect pathogenetic mutations, therefore the genetic basis of OFD VI remains unknown. Compared with other JSRD subgroups, the neurological findings and impairment of motor development and cognitive functions in OFD VI are significantly worse, suggesting a correlation with the more severe neuroimaging findings. Based on the literature and this study we suggest as diagnostic criteria for OFD VI: MTS and one or more of the following: 1) tongue hamartoma(s) and/or additional frenula and/or upper lip notch; 2) mesoaxial polydactyly of one or more hands or feet; 3) hypothalamic hamartoma
Enabling FAIR research in Earth Science through research objects
Data-intensive science communities are progressively adopting FAIR practices that enhance the
visibility of scientific breakthroughs and enable reuse. At the core of this movement, research objects
contain and describe scientific information and resources in a way compliant with the FAIR principles
and sustain the development of key infrastructure and tools. This paper provides an account of
the challenges, experiences and solutions involved in the adoption of FAIR around research objects
over several Earth Science disciplines. During this journey, our work has been comprehensive, with
outcomes including: an extended research object model adapted to the needs of earth scientists;
the provisioning of digital object identifiers (DOI) to enable persistent identification and to give due
credit to authors; the generation of content-based, semantically rich, research object metadata through natural language processing, enhancing visibility and reuse through recommendation systems and
third-party search engines; and various types of checklists that provide a compact representation of
research object quality as a key enabler of scientific reuse. All these results have been integrated in
ROHub, a platform that provides research object management functionality to a wealth of applications
and interfaces across different scientific communities. To monitor and quantify the community uptake
of research objects, we have defined indicators and obtained measures via ROHub that are also
discussed herein.Published550-5645IT. Osservazioni satellitariJCR Journa
GAINING INSIGHTS IN THE MICROBIAL DEGRADATION OF POLYETHYLENE PLASTICS
Il polietilene (PE) rappresenta più del 60% di tutte le plastiche derivate dal petrolio a livello mondiale, e si sta accumulando ad un tasso di diversi milioni di tonnellate per anno a causa della sua riluttanza alla degradazione biotica e abiotica. La degradazione microbica è stata proposta come possibile strada alternativa nella riduzione dei rifiuti plastici.
Lo scopo generale di questo lavoro è stata l'identificazione di ceppi batterici in grado di metabolizzare il PE e di identificare le vie metaboliche coinvolte in tale processo di biodegradazione.
Abbiamo analizzato mediante approccio metagenomico diversi campioni di plastica raccolti in una discarica abbandonata, ed è stata scoperta una forte relazione tra le proprietà della plastica (inclusa la presenza di coloranti) e la comunità microbica
Analizzando la comunità microbica esposta al PE nell’ ambiente, abbiamo isolato 10 ceppi batterici in grado di crescere utilizzando il PE come unica fonte di energia e di carbonio.
Uno di questi ceppi, Pseudomonas aeruginosa UC4003, ha mostrato la più alta capacità di crescere in terreno minimo e polietilene. Quando cresce su PE, questo ceppo produce un enzima extracellulare, proteina-attivatore per l’ossidazione degli n-alcani (PA), coinvolto nelle prime fasi di degradazione di polietilene.Plastics production, use and degradation are hot topics that have come to the forefront over recent years. Polyethylene (PE) represents more than 60% of all petroleum-derived plastics worldwide and is accumulating at rates of several millions of tons per year because of its strong recalcitrance to biotic and abiotic degradation. Microbial degradation has been proposed as a possible alternative way to reduce plastic wastes.
The general aim of this work was the identification of bacterial strains able to metabolize PE and to identify the biochemical pathways of this biodegradation process.
In an abandoned landfill we collected different plastic samples; using a metagenomic approach, we found a strong relationship between the plastic properties (including the presence of colorants) and the microbial community
By screening the natural microbial community exposed to PE in environment, we isolated 10 bacteria which revealed the ability to grow on PE as only energy and carbon source.
A bacterium, Pseudomonas aeruginosa UC4003, showed the highest growth rate in minimal salt medium and polyethylene. When grown on PE, this strain produced an extracellular enzyme, protein-like activator for n-alkane oxidation (PA), involved in the first step of polyethylene degradation
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