Your search keyword '"Di Gioia, Diana"' showing total 43 results

1. Application of a robust MALDI mass spectrometry approach for bee pollen investigation

Author

Braglia, Chiara, Alberoni, Daniele, Di Gioia, Diana, Giacomelli, Alessandra, Bocquet, Michel, and Bulet, Philippe

Published

2024

2. From food waste to eco-friendly functionalized polymer composites: Investigation of orange peels as active filler

Author

Pagliarini, Elia, Minichiello, Carmen, Sisti, Laura, Totaro, Grazia, Baffoni, Loredana, Di Gioia, Diana, and Saccani, Andrea

Published

2024

3. The gut microbiome of solitary bees is mainly affected by pathogen assemblage and partially by land use

Author

Fernandez De Landa, Gregorio, Alberoni, Daniele, Baffoni, Loredana, Fernandez De Landa, Mateo, Revainera, Pablo Damian, Porrini, Leonardo Pablo, Brasesco, Constanza, Quintana, Silvina, Zumpano, Francisco, Eguaras, Martìn Javier, Maggi, Matias Daniel, and Di Gioia, Diana

Published

2023

4. The ground beetle Pseudoophonus rufipes gut microbiome is influenced by the farm management system

Author

Magagnoli, Serena, Alberoni, Daniele, Baffoni, Loredana, Martini, Antonio, Marini, Francesca, Di Gioia, Diana, Mazzon, Martina, Marzadori, Claudio, Campanelli, Gabriele, and Burgio, Giovanni

Published

2022

5. Vairimorpha (Nosema) ceranae can promote Serratia development in honeybee gut: an underrated threat for bees?

Author

Braglia, Chiara, Alberoni, Daniele, Garrido, Paula Melisa, Porrini, Martin Pablo, Baffoni, Loredana, Scott, Dara, Eguaras, Martin Javier, Di Gioia, Diana, and Mifsud, David

Subjects

SERRATIA, HONEYBEES, SERRATIA marcescens, BEES, VARROA destructor, GENE targeting, BIFIDOBACTERIUM

Abstract

The genus Serratia harbors opportunistic pathogenic species, among which Serratia marcescens is pathogenic for honeybees although little studied. Recently, virulent strains of S. marcescens colonizing the Varroa destructor mite's mouth were found vectored into the honeybee body, leading to septicemia and death. Serratia also occurs as an opportunistic pathogen in the honeybee's gut with a low absolute abundance. The Serratia population seems controlled by the host immune system, but its presence may represent a hidden threat, ready to arise when honeybees are weakened by biotic and abiotic stressors. To shed light on the Serratia pathogen, this research aims at studying Serratia's development dynamics in the honeybee body and its interactions with the co-occurring fungal pathogen Vairimorpha ceranae. Firstly, the degree of pathogenicity and the ability to permeate the gut epithelial barrier of three Serratia strains, isolated from honeybees and belonging to different species (S. marcescens, Serratia liquefaciens, and Serratia nematodiphila), were assessed by artificial inoculation of newborn honeybees with different Serratia doses (104, 106, and 108 cells/mL). The absolute abundance of Serratia in the gut and in the hemocoel was assessed in qPCR with primers targeting the luxS gene. Moreover, the absolute abundance of Serratia was assessed in the gut of honeybees infected with V. ceranae at different development stages and supplied with beneficial microorganisms and fumagillin. Our results showed that all tested Serratia strains could pass through the gut epithelial barrier and proliferate in the hemocoel, with S. marcescens being the most pathogenic. Moreover, under cage conditions, Serratia better proliferates when a V. ceranae infection is co-occurring, with a positive and significant correlation. Finally, fumagillin and some of the tested beneficial microorganisms could control both Serratia and Vairimorpha development. Our findings suggest a correlation between the two pathogens under laboratory conditions, a co-occurring infection that should be taken into consideration by researches when testing antimicrobial compounds active against V. ceranae, and the related honeybees survival rate. Moreover, our findings suggest a positive control of Serrata by the environmental microorganism Apilactobacillus kunkeei in a in vivo model, confirming the potential of this specie as beneficial bacteria for honeybees. [ABSTRACT FROM AUTHOR]

Published

2024

6. Elastomeric/antibacterial properties in novel random Ricinus communis based-copolyesters

Author

Totaro, Grazia, Sisti, Laura, Cionci, Nicole Bozzi, Martinez, Gonzalo A., Di Gioia, Diana, and Celli, Annamaria

Published

2020

7. A prospective longitudinal study on the microbiota composition in amyotrophic lateral sclerosis

Author

Di Gioia, Diana, Bozzi Cionci, Nicole, Baffoni, Loredana, Amoruso, Angela, Pane, Marco, Mogna, Luca, Gaggìa, Francesca, Lucenti, Maria Ausiliatrice, Bersano, Enrica, Cantello, Roberto, De Marchi, Fabiola, and Mazzini, Letizia

Published

2020

8. Synthesis of castor oil-derived polyesters with antimicrobial activity

Author

Totaro, Grazia, Cruciani, Letizia, Vannini, Micaela, Mazzola, Giuseppe, Di Gioia, Diana, Celli, Annamaria, and Sisti, Laura

Published

2014

9. Application of an Exhausted Fermentation Broth Obtained from Biohydrogen Production in an Apple Orchard: Assessment of Fruit Quality.

Author

Galiano, Michele, Perulli, Giulio Demetrio, Morandi, Brunella, and Di Gioia, Diana

Subjects

FRUIT quality, APPLE orchards, ORCHARDS, FERMENTATION, SUSTAINABILITY, FRUIT ripening

Abstract

About 95% of global hydrogen production is made by fossil fuels using different technologies which are all characterized by high energy consumption and high carbon emissions. Alternatively, more sustainable production methods, such as biological fermentation processes, are under study. Dark fermentation, also called acidogenesis, entails the transformation of a great variety of organic substances into a mixture of organic and inorganic products, as well as gases (H2 and CO2). In this study we tested an exhausted fermentation broth, derived after Clostridium fermentation for H2 production, as a biostimulant via foliar application in an intensive apple orchard. Two different doses were applied upon dilution of the broth in water (100 mL L−1 and 10 mL L−1), evaluating the main fruit quality parameters (fresh weight, fruit diameter, dry matter, firmness, soluble solid content, color lightness, DA index) in addition to macro- and micro-nutrients and heavy metals concentrations. Chemical characterization of the broth showed a high amount of low-MW polypeptides (Trp-Glu-Lys, Ile-Pro-Ile, Phe-Pro-Lys, His-Pro) and organic acids (formic acid, butyric acid, butanedioic acid); moreover, quantitative analyses of inorganic ions showed no heavy metal detection but high concentrations of nitrogen, phosphorus and potassium, compatible with use in agriculture. The fruit quality parameters showed significantly higher mean fruit weight compared to the untreated trees, as well as higher dry matter. No statistical differences were recorded among the treatments for fruit firmness, diameter and yield. Soluble solids content in both treatments were significantly lower than the controls, whereas the DA index mean values were higher in both treatments compared to the controls, indicating a delay in fruit ripening probably due to the high nitrogen broth concentration. Regarding the chemical analyses of fruits, no particular differences were found among the treatments, except for Fe, which showed a significantly higher amount upon treatment with the lower dose. As concerns leaves, no phytotoxic symptoms were detected in both treatments, making the described exhausted broth a candidate for its use as a plant biostimulant. Additional studies are needed to evaluate the ideal application dose, identify further action targets and implement appropriate strategies to concentrate the biostimulant active compounds. [ABSTRACT FROM AUTHOR]

Published

2023

10. Environment or genetic isolation? An atypical intestinal microbiota in the Maltese honey bee Apis mellifera spp. ruttneri.

Author

Gaggìa, Francesca, Jakobsen, Rasmus Riemer, Alberoni, Daniele, Baffoni, Loredana, Cutajar, Simone, Mifsud, David, Nielsen, Dennis Sandris, and Di Gioia, Diana

Subjects

BEES, HONEYBEES, REPRODUCTIVE isolation, GUT microbiome, MICROBIAL communities, BACTERIAL genes, LACTOBACILLACEAE, COLD adaptation

Abstract

Introduction: Apis mellifera evolved mainly in African, Asian, and European continents over thousands of years, leading to the selection of a considerable number of honey bees subspecies that have adapted to various environments such as hot semi-desert zones and cold temperate zones. With the evolution of honey bee subspecies, it is possible that environmental conditions, food sources, and microbial communities typical of the colonized areas have shaped the honey bee gut microbiota. Methods: In this study the microbiota of two distinct lineages (mitochondrial haplotypes) of bees Apis mellifera ruttneri (lineage A) and Apis mellifera ligustica and carnica (both lineage C) were compared. Honey bee guts were collected in a dry period in the respective breeding areas (the island of Malta and the regions of Emilia-Romagna and South Tyrol in Italy). Microbial DNA from the honey bee gut was extracted and amplified for the V3-V4 regions of the 16S rRNA gene for bacteria and for ITS2 for fungi. Results: The analyses carried out show that the Maltese lineage A honey bees have a distinctive microbiota when compared to Italian lineage C honey bees, with the most abundant genera being Bartonellaceae and Lactobacillaceae, respectively. Lactobacillaceae in Maltese Lineage A honey bees consist mainly of Apilactobacillus instead of Lactobacillus and Bombilactobacillus in the lineage C. Lineage A honey bee gut microbiota also harbors higher proportions of Arsenophonus, Bombella, Commensalibacter, and Pseudomonas when compared to lineage C. Discussion: The environment seems to be the main driver in the acquisition of these marked differences in the gut microbiota. However, the influence of other factors such as host genetics, seasonality or geography may still play a significant role in the microbiome shaping, in synergy with the environmental aspects. [ABSTRACT FROM AUTHOR]

Published

2023

11. Yield and Nutraceutical Value of Lettuce and Basil Improved by a Microbial Inoculum in Greenhouse Experiments.

Author

Pagliarini, Elia, Gaggìa, Francesca, Quartieri, Maurizio, Toselli, Moreno, and Di Gioia, Diana

Subjects

LETTUCE, GREENHOUSES, BASIL, BACILLUS (Bacteria), PLANT growth, COPPER

Abstract

Members of Bacillus spp. have been widely used to enrich the soil/root interface to provide plant growth promoting activities. A new isolate, namely to Bacillus sp. VWC18, has been tested under greenhouse conditions in lettuce (Lactuca sativa L.) pots at different concentrations (103, 105, 107, and 109 CFU·mL−1) and application time (single inoculum at transplant and multiple inoculum every ten days) to evaluate the best application dose and frequency. Analysis of foliar yield, main nutrients, and minerals evidenced a significant response for all applications. The lowest (103 CFU·mL−1) and the highest doses (109 CFU·mL−1), applied every ten days until harvest, had the greatest efficacy; the nutrient yield (N, K, P, Na, Ca, Fe, Mg, Mn, Cu, and B) increased more than twice. A new randomized block design with three replicates was then performed in lettuce and basil (Ocinum basilicum L.), with the two best performing concentrations applied every ten days. In addition to previous analysis, root weight, chlorophyll, and carotenoids were also examined. Both experiments confirmed the previous results: inoculation of the substrate with Bacillus sp. VWC18 promoted plant growth, chlorophyll, and mineral uptake in both crop species. Root weight duplicated or triplicated compared to control plants, and chlorophyll concentration reached even higher values. Both parameters had a dose-dependent increase. [ABSTRACT FROM AUTHOR]

Published

2023

12. Millet Fermented by Different Combinations of Yeasts and Lactobacilli: Effects on Phenolic Composition, Starch, Mineral Content and Prebiotic Activity.

Author

Balli, Diletta, Cecchi, Lorenzo, Pieraccini, Giuseppe, Venturi, Manuel, Galli, Viola, Reggio, Marta, Di Gioia, Diana, Furlanetto, Sandra, Orlandini, Serena, Innocenti, Marzia, and Mulinacci, Nadia

Subjects

MILLETS, STARCH, PEARL millet, YEAST, ENZYMES, CORNSTARCH, LACTOBACILLUS, INULIN

Abstract

Millet is the sixth-highest yielding grain in the world and a staple crop for millions of people. Fermentation was applied in this study to improve the nutritional properties of pearl millet. Three microorganism combinations were tested: Saccharomyces boulardii (FPM1), Saccharomyces cerevisiae plus Campanilactobacillus paralimentarius (FPM2) and Hanseniaspora uvarum plus Fructilactobacillus sanfranciscensis (FPM3). All the fermentation processes led to an increase in minerals. An increase was observed for calcium: 254 ppm in FPM1, 282 ppm in FPM2 and 156 ppm in the unfermented sample. Iron increased in FPM2 and FPM3 (approx. 100 ppm) with respect the unfermented sample (71 ppm). FPM2 and FPM3 resulted in richer total phenols (up to 2.74 mg/g) compared to the unfermented sample (2.24 mg/g). Depending on the microorganisms, it was possible to obtain different oligopeptides with a mass cut off ≤10 kDalton that was not detected in the unfermented sample. FPM2 showed the highest resistant starch content (9.83 g/100 g) and a prebiotic activity on Bifidobacterium breve B632, showing a significant growth at 48 h and 72 h compared to glucose (p < 0.05). Millet fermented with Saccharomyces cerevisiae plus Campanilactobacillus paralimentarius can be proposed as a new food with improved nutritional properties to increase the quality of the diet of people who already use millet as a staple food. [ABSTRACT FROM AUTHOR]

Published

2023

13. Characterization of Lactic Acid Bacteria Isolated from Spontaneously Fermented Sausages: Bioprotective, Technological and Functional Properties.

Author

Nikodinoska, Ivana, Tabanelli, Giulia, Baffoni, Loredana, Gardini, Fausto, Gaggìa, Francesca, Barbieri, Federica, and Di Gioia, Diana

Subjects

LACTIC acid bacteria, SAUSAGES, OSMOTIC pressure, CLOSTRIDIA, DRUG resistance in bacteria, LISTERIA monocytogenes

Abstract

Fermentation is one of the most ancient strategies to improve safety and extend shelf-life of the products. Starter cultures are mainly represented by lactic acid bacteria (LAB), which may also be bioprotective agents controlling the fermentation process, the native microbiota and pathogen outgrowth. This work aimed to select new LAB strains from spontaneously fermented sausages produced in different areas of Italy, which can be effective as starter cultures and bioprotective agents in fermented salami. The strains, mainly belonging to the Latilactobacillus sakei species, were characterized for their ability to inhibit major meat pathogens, the presence of antibiotic resistances and amine production. Moreover, technological performances, such as growth and acidification kinetics at increasing NaCl concentrations, were studied. As a result, new autochthonous Lat. sakei strains were obtained, lacking antibiotic resistance, possessing antimicrobial activity against Clostridium sporogenes, Listeria monocytogenes, Salmonella and Escherichia coli and with high growth performance under osmotic pressure. These strains have the potential for future application to improve the safety of fermented meats, even under conditions in which chemical preservatives are reduced or eliminated. Moreover, studies on autochthonous cultures are pivotal for guaranteeing specific characteristics of traditional products that represent an important cultural heritage. [ABSTRACT FROM AUTHOR]

Published

2023

14. In-process real-time probiotic phenotypic strain identity tracking: The use of Fourier transform infrared spectroscopy.

Author

Deidda, Francesca, Cordovana, Miriam, Cionci, Nicole Bozzi, Graziano, Teresa, Di Gioia, Diana, and Pane, Marco

Abstract

Probiotic bacteria, capable of conferring benefits to the host, can present challenges in design, development, scale-up, manufacturing, commercialization, and life cycle management. Strain identification is one of the main quality parameters; nevertheless, this task can be challenging since established methodologies can lack resolution at the strain level for some microorganisms and\or are labor-intensive and time-consuming. Fourier transform infrared spectroscopy (FTIRS) has been largely used for the investigation of pathogenic species in the clinical field, whereas only recently has been proposed for the identification of probiotic strains. Within the probiotic industrial production, bacterial strains can be subjected to stressful conditions that may affect genomic and phenotypic characteristics; therefore, real-time monitoring of all the sequential growth steps is requested. Considering the fast, low-cost, and high-throughput features, FTIRS is an innovative and functional technology for typing probiotic strains from benchtop experiments to large-scale industrial production, allowing the monitoring of stability and identity of probiotic strains. In this study, the discriminatory power of FTIRS was assessed for four Lactiplantibacillus plantarum probiotic strains grown under different conditions, including temperatures (30 and 37◦C) and medium (broth and agar), after consecutive sub-culturing steps. A comparison between the generated spectra with pulsed-field gel electrophoresis (PFGE) profiles was also performed. FTIRS was not only able to distinguish the strains of L. plantarum under different growth conditions but also to prove the phenotypic stability of L. plantarum type strain LP-CT after six growing steps. Regardless of the growth conditions, FTIRS spectra related to LP-CT constituted a unique hierarchical cluster, separated from the other L. plantarum strains. These results were confirmed by a PFGE analysis. In addition, based on FTIRS data, broth cultures demonstrated a higher reproducibility and discriminatory power with respect to agar ones. These results support the introduction of FTIRS in the probiotic industry, allowing for the step-by-step monitoring of massive microbial production while also guaranteeing the stability and purity of the probiotic strain. The proposed novel approach can constitute an impressive improvement in the probiotic manufacturing process. [ABSTRACT FROM AUTHOR]

Published

2022

15. Selection of Acetic Acid Bacterial Strains and Vinegar Production From Local Maltese Food Sources.

Author

Mizzi, Joseph, Gaggìa, Francesca, Cionci, Nicole Bozzi, Di Gioia, Diana, and Attard, Everaldo

Subjects

ACETIC acid, VINEGAR, LOCAL foods, ACETOBACTER, OPUNTIA, PRODUCE trade

Abstract

This study investigates the isolation, identification, and fermentation performance of autochthonous acetic acid bacteria (AAB) from local niche habitats on the Island of Gozo (Malta) and their further use for vinegar production, employing local raw materials. The bacteria were isolated from grapevine berries and vinegar produced in the cottage industry. Following phenotype and genotype identification, the AAB were ascribed to the genera Acetobacter, Gluconobacter, and Komagataeibacter. A mixture of selected AAB was tested as an inoculum for vinegar production in bench fermenters, under different conditions and substrates, namely, grapes, honey, figs, onions, prickly pear, and tomatoes. The bench fermenters were operated under semi-continuous fermentation where working volumes were maintained by discharging and subsequent recharging accordingly to maintain the acidity in fermenters by adding 30--50 g/l of acetic acid for optimal Acetobacteraceae performance. Finally, the vinegar products obtained from the different substrates were evaluated for their quality, including organoleptic properties, which showed the superior quality of wood-treated vinegar samples with respect to neat vinegar samples. [ABSTRACT FROM AUTHOR]

Published

2022

16. Value Propositions for Improving the Competitiveness of Short Food Supply Chains Built on Technological and Non-Technological Innovations.

Author

SEBÖK, ANDRÁS, VARSANYI, KINGA, KUJANI, KATALIN, XHAKOLLARI, VILMA, FRICZ, AGNES SZEGEDYNE, CASTELLINI, ALESSANDRA, DI GIOIA, DIANA, GAGGIA, FRANCESCA, and CANAVARI, MAURIZIO

Subjects

SUPPLY chains, FOOD supply, FOOD chains, VALUE proposition, CONSUMPTION (Economics), TECHNOLOGICAL innovations

Abstract

There has been growing consumer demand for the products and services of the short food supply chains (SFSCs) in recent times. A procedure was developed to identify the technological and nontechnological innovations that can improve the performance and competitiveness of the SFSCs. The needs of the SFSCs for innovative solutions were collected by interviewing 18 SFSCs from 9 countries. An inventory was prepared to contain 136 technological and non-technological innovations, meeting these needs. The innovations were collected from the good practices of the 18 SFSCs, experiences of the project partners and state of the art. The success factors and bottlenecks of each short food supply chain operation and their current value propositions were identified. From the inventory, those innovations were selected for each short food chain case study which can be applied to eliminate or reduce the bottlenecks or enhance the success factors leading to new, upgraded value propositions with increased added value for the consumers. The new, upgraded value propositions can serve as a starting point for developing a strategy for improving the competitiveness of a short food chain organisation through the application of innovations. [ABSTRACT FROM AUTHOR]

Published

2022

17. Production of biovanillin from wheat bran

Author

Di Gioia, Diana, Sciubba, Luigi, Setti, Leonardo, Luziatelli, Francesca, Ruzzi, Maurizio, Zanichelli, Dario, and Fava, Fabio

Published

2007

18. Structures of homologous composite transposons carrying cbaABC genes from Europe and North America

Author

Di Gioia, Diana, Peel, Michelle, Fava, Fabio, and Wyndham, R. Campbell

Subjects

Transposons -- Research, Biodegradation -- Research, Bacteria -- Research, Genomes -- Research, Biological sciences

Abstract

The structure and environmental distribution of Tn5271-like elements in bacteria strains found in the Niagara River watershed and elsewhere are described. Transposons formed from homologous components of the insertion element IS1071 and the operon cbaABC were observed on Tn5271 of strains in Niagara Falls, NY, and on pCPE3 of strains in Bologna, Italy. Differences in the junction sequences between the internal DNA and the IS1071L and IS1071R elements indicate that the transposons were formed independent of each other on the two plasmids.

Published

1998

19. Aggregation-based cooperation during bacterial aerobic degradation of polyethoxylated nonylphenols

Author

Di Gioia, Diana, Fambrini, Laura, Coppini, Ester, Fava, Fabio, and Barberio, Claudia

Published

2004

20. Bifidobacteria Strain Typing by Fourier Transform Infrared Spectroscopy.

Author

Deidda, Francesca, Bozzi Cionci, Nicole, Cordovana, Miriam, Campedelli, Ilenia, Fracchetti, Fabio, Di Gioia, Diana, Ambretti, Simone, and Pane, Marco

Subjects

FOURIER transform infrared spectroscopy, BIFIDOBACTERIUM, TIME-of-flight mass spectrometry, PULSED-field gel electrophoresis, BIFIDOBACTERIUM longum, INFRARED absorption, PHENOTYPIC plasticity

Abstract

Fourier transform infrared (FTIR) spectroscopy, a technology traditionally used in chemistry to determine the molecular composition of a wide range of sample types, has gained growing interest in microbial typing. It is based on the different vibrational modes of the covalent bonds between atoms of a given sample, as bacterial cells, induced by the absorption of infrared radiation. This technique has been largely used for the study of pathogenic species, especially in the clinical field, and has been proposed also for the typing at different subspecies levels. The high throughput, speed, low cost, and simplicity make FTIR spectroscopy an attractive technique also for industrial applications, in particular, for probiotics. The aim of this study was to compare FTIR spectroscopy with established genotyping methods, pulsed-field gel electrophoresis (PFGE), whole-genome sequencing (WGS), and multilocus sequence typing (MLST), in order to highlight the FTIR spectroscopy potential discriminatory power at strain level. Our study focused on bifidobacteria, an important group of intestinal commensals generally recognized as probiotics. For their properties in promoting and maintaining health, bifidobacteria are largely marketed by the pharmaceutical, food, and dairy industries. Strains belonging to Bifidobacterium longum subsp. longum and Bifidobacterium animalis subsp. lactis were taken into consideration together with some additional type strains. For B. longum subsp. longum , it was possible to discriminate the strains with all the methods used. Although two isolates were shown to be strictly phylogenetically related, constituting a unique cluster, based on PFGE, WGS, and MLST, no clustering was observed with FTIR. For B. animalis subsp. lactis group, PFGE, WGS, and MLST were non-discriminatory, and only one strain was easily distinguished. On the other hand, FTIR discriminated all the isolates one by one, and no clustering was observed. According to these results, FTIR analysis is not only equivalent to PFGE, WGS, and MLST, but also for some strains, in particular, for B. animalis subsp. lactis group, more informative, being able to differentiate strains not discernible with the other two methods based on phenotypic variations likely deriving from certain genetic changes. Fourier transform infrared spectroscopy has highlighted the possibility of using the cell surface as a kind of barcode making tracing strains possible, representing an important aspect in probiotic applications. Furthermore, this work constitutes the first investigation on bifidobacterial strain typing using FTIR spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2021

21. Antagonistic effect of Lactobacillus strains against gas-producing coliforms isolated from colicky infants

Author

Oggero Roberto, Di Gioia Diana, Locatelli Emanuela, Tarasco Valentina, Cordisco Lisa, Savino Francesco, and Matteuzzi Diego

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Infantile colic is a common disturb within the first 3 months of life, nevertheless the pathogenesis is incompletely understood and treatment remains an open issue. Intestinal gas production is thought to be one of the causes of abdominal discomfort in infants suffering from colic. However, data about the role of the amount of gas produced by infants' colonic microbiota and the correlation with the onset of colic symptoms are scanty. The benefit of supplementation with lactobacilli been recently reported but the mechanisms by which they exert their effects have not yet been fully defined. This study was performed to evaluate the interaction between Lactobacillus spp. strains and gas-forming coliforms isolated from stools of colicky infants. Results Strains of coliforms were isolated from stools of 45 colicky and 42 control breastfed infants in McConkey Agar and identified using PCR with species-specific primers, and the BBL™ Enterotube™ II system for Enterobacteriaceae. Gas-forming capability of coliforms was assessed in liquid cultures containing lactose as sole carbon source. The average count of total coliforms in colicky infants was significantly higher than controls: 5.98 (2.00-8.76) log10 vs 3.90 (2.50-7.10) CFU/g of faeces (p = 0.015). The following strains were identified: Escherichia coli, Klebsiella pneumoniae, Klebsiella oxytoca, Enterobacter aerogenes, Enterobacter cloacae and Enterococcus faecalis. Then, 27 Lactobacillus strains were tested for their antagonistic effect against coliforms both by halo-forming method and in liquid co-cultures. Lactobacillus delbrueckii subsp.delbrueckii DSM 20074 and L. plantarum MB 456 were able to inhibit all coliforms strains (halo-forming method), also in liquid co-cultures, thus demonstrating an antagonistic activity. Conclusions This study shows that two out of 27 strains of Lactobacillus examined possess an antimicrobial effect against six species of gas-forming coliforms isolated from colicky infants. Our findings may stimulate new researches to identify which Lactobacillus strains can improve colicky symptoms by acting on coliforms gut colonization.

Published

2011

22. Vanillin production using metabolically engineered Escherichia coli under non-growing conditions

Author

Fava Fabio, Di Gioia Diana, Barghini Paolo, and Ruzzi Maurizio

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Vanillin is one of the most important aromatic flavour compounds used in the food and cosmetic industries. Natural vanillin is extracted from vanilla beans and is relatively expensive. Moreover, the consumer demand for natural vanillin highly exceeds the amount of vanillin extracted by plant sources. This has led to the investigation of other routes to obtain this flavour such as the biotechnological production from ferulic acid. Studies concerning the use of engineered recombinant Escherichia coli cells as biocatalysts for vanillin production are described in the literature, but yield optimization and biotransformation conditions have not been investigated in details. Results Effect of plasmid copy number in metabolic engineering of E. coli for the synthesis of vanillin has been evaluated by the use of genes encoding feruloyl-CoA synthetase and feruloyl hydratase/aldolase from Pseudomonas fluorescens BF13. The higher vanillin production yield was obtained using resting cells of E. coli strain JM109 harbouring a low-copy number vector and a promoter exhibiting a low activity to drive the expression of the catabolic genes. Optimization of the bioconversion of ferulic acid to vanillin was accomplished by a response surface methodology. The experimental conditions that allowed us to obtain high values for response functions were 3.3 mM ferulic acid and 4.5 g/L of biomass, with a yield of 70.6% and specific productivity of 5.9 μmoles/g × min after 3 hours of incubation. The final concentration of vanillin in the medium was increased up to 3.5 mM after a 6-hour incubation by sequential spiking of 1.1 mM ferulic acid. The resting cells could be reused up to four times maintaining the production yield levels over 50%, thus increasing three times the vanillin obtained per gram of biomass. Conclusion Ferulic acid can be efficiently converted to vanillin, without accumulation of undesirable vanillin reduction/oxidation products, using E. coli JM109 cells expressing genes from the ferulic acid-degrader Pseudomonas fluorescens BF13. Optimization of culture conditions and bioconversion parameters, together with the reuse of the biomass, leaded to a final production of 2.52 g of vanillin per liter of culture, which is the highest found in the literature for recombinant strains and the highest achieved so far applying such strains under resting cells conditions.

Published

2007

23. Biodegradation of hydroxylated and methoxylated benzoic, phenylacetic and phenylpropenoic acids present in olive mill wastewaters by two bacterial strains

Author

Di Gioia, Diana, Bertin, Lorenzo, Fava, Fabio, and Marchetti, Leonardo

Published

2001

24. An aerobic fixed-phase biofilm reactor system for the degradation of the low-molecular weight aromatic compounds occurring in the effluents of anaerobic digestors treating olive mill wastewaters

Author

Bertin, Lorenzo, Majone, Mauro, Di Gioia, Diana, and Fava, Fabio

Published

2001

25. Editorial: Exploring the need to include microbiomes into EFSA's scientific assessments.

Author

Merten, Caroline, Schoonjans, Reinhilde, Di Gioia, Diana, Peláez, Carmen, Sanz, Yolanda, Maurici, Daniela, and Robinson, Tobin

Abstract

The communities of microorganisms and their genomes in a defined environment are collectively referred to as microbiomes (Marchesi and Ravel, 2015). They include representatives from the Bacteria, Archaea, lower and higher Eukarya, and viruses, and are found in most environments such as soils, aquatic habitats, surfaces and specific lumen of plants, animals and humans. According to ongoing studies, microbiome structures and dynamics across the food system can have both direct and indirect effects on human and animal health, in addition to their impact on food quality, safety and sustainability (CNBBSV concept paper, 2019). Moreover, recent research projects have offered new insights into the associations between microbiomes and a wide range of human diseases as well as their possible impact in modulating the exposure to environmental chemicals. As one of the core tasks of EFSA is to assess risks to human and animal health and/or the environment from substances linked to food and feed production, the increasing understanding of the role of microbiomes in health calls for a prospective mapping of their roles into regulatory scientific assessment processes with a view to understanding their potential health impact. [ABSTRACT FROM AUTHOR]

Published

2020

26. Effect of Bifidobacterium breve on the Intestinal Microbiota of Coeliac Children on a Gluten Free Diet: A Pilot Study.

Author

Quagliariello, Andrea, Aloisio, Irene, Bozzi Cionci, Nicole, Luiselli, Donata, D'Auria, Giuseppe, Martinez-Priego, Llúcia, Pérez-Villarroya, David, Langerholc, Tomaž, Primec, Maša, Mičetić-Turk, Dušanka, and Di Gioia, Diana

Abstract

Coeliac disease (CD) is associated with alterations of the intestinal microbiota. Although several Bifidobacterium strains showed anti-inflammatory activity and prevention of toxic gliadin peptides generation in vitro, few data are available on their efficacy when administered to CD subjects. This study evaluated the effect of administration for three months of a food supplement based on two Bifidobacterium breve strains (B632 and BR03) to restore the gut microbial balance in coeliac children on a gluten free diet (GFD). Microbial DNA was extracted from faeces of 40 coeliac children before and after probiotic or placebo administration and 16 healthy children (Control group). Sequencing of the amplified V3-V4 hypervariable region of 16S rRNA gene as well as qPCR of Bidobacterium spp., Lactobacillus spp., Bacteroides fragilis group Clostridium sensu stricto and enterobacteria were performed. The comparison between CD subjects and Control group revealed an alteration in the intestinal microbial composition of coeliacs mainly characterized by a reduction of the Firmicutes/Bacteroidetes ratio, of Actinobacteria and Euryarchaeota. Regarding the effects of the probiotic, an increase of Actinobacteria was found as well as a re-establishment of the physiological Firmicutes/Bacteroidetes ratio. Therefore, a three-month administration of B. breve strains helps in restoring the healthy percentage of main microbial components. [ABSTRACT FROM AUTHOR]

Published

2016

27. Early Gut Microbiota Perturbations Following Intrapartum Antibiotic Prophylaxis to Prevent Group B Streptococcal Disease.

Author

Mazzola, Giuseppe, Murphy, Kiera, Ross, R. Paul, Di Gioia, Diana, Biavati, Bruno, Corvaglia, Luigi T., Faldella, Giacomo, and Stanton, Catherine

Subjects

STREPTOCOCCAL disease prevention, ANTIBIOTIC prophylaxis, GUT microbiome, INTRAPARTUM care, STREPTOCOCCUS agalactiae, BREASTFEEDING

Abstract

The faecal microbiota composition of infants born to mothers receiving intrapartum antibiotic prophylaxis with ampicillin against group B Streptococcus was compared with that of control infants, at day 7 and 30 of life. Recruited newborns were both exclusive breastfed and mixed fed, in order to also study the effect of dietary factors on the microbiota composition. Massive parallel sequencing of the V3-V4 region of the 16S rRNA gene and qPCR analysis were performed. Antibiotic prophylaxis caused the most marked changes on the microbiota in breastfed infants, mainly resulting in a higher relative abundance of Enterobacteriaceae, compared with control infants (52% vs. 14%, p = 0.044) and mixed-fed infants (52% vs. 16%, p = 0.13 NS) at day 7 and in a lower bacterial diversity compared to mixed-fed infants and controls. Bifidobacteria were also particularly vulnerable and abundances were reduced in breastfed (p = 0.001) and mixed-fed antibiotic treated groups compared to non-treated groups. Reductions in bifidobacteria in antibiotic treated infants were also confirmed by qPCR. By day 30, the bifidobacterial population recovered and abundances significantly increased in both breastfed (p = 0.025) and mixed-fed (p = 0.013) antibiotic treated groups, whereas Enterobacteriaceae abundances remained highest in the breastfed antibiotic treated group (44%), compared with control infants (16%) and mixed-fed antibiotic treated group (28%). This study has therefore demonstrated the short term consequences of maternal intrapartum antibiotic prophylaxis on the infant faecal microbial population, particularly in that of breastfed infants. [ABSTRACT FROM AUTHOR]

Published

2016

28. Microbial inoculants for the biocontrol of Fusarium spp. in durum wheat.

Author

Baffoni, Loredana, Gaggia, Francesca, Dalanaj, Nereida, Prodi, Antonio, Nipoti, Paola, Pisi, Annamaria, Biavati, Bruno, and Di Gioia, Diana

Subjects

DURUM wheat, FUSARIUM diseases of plants, WHEAT fusarium culmorum head blight, MICROBIAL inoculants, PHYSIOLOGICAL control systems

Abstract

Background: Fusarium head blight (FHB) is a severe disease caused by different Fusarium species, which affects a wide range of cereal crops, including wheat. It determines from 10 to 30 % of yield loss in Europe. Chemical fungicides are mainly used to reduce the incidence of FHB, but low environmental impact solutions are looked forward. Applications of soil/rhizobacteria as biocontrol agents against FHB in wheat are described in literature, whereas the potential use of lactobacilli in agriculture has scarcely been explored. Results: The aim of this work was to study the inhibitory effect of two bacterial strains, Lactobacillus plantarum SLG17 and Bacillus amyloliquefaciens FLN13, against Fusarium spp. in vitro and to assess their efficacy in field, coupled to the study of the microbial community profile of wheat seeds. Antimicrobial assays were performed on agar plates and showed that the two antagonistic strains possessed antimicrobial activity against Fusarium spp. In the field study, a mixture of the two strains was applied to durum wheat i) weekly from heading until anthesis and ii) at flowering, compared to untreated and fungicide treated plots. The FHB index, combining both disease incidence and disease severity, was used to evaluate the extent of the disease on wheat. A mixture of the two microorganisms, when applied in field from heading until anthesis, was capable of reducing the FHB index. Microbial community profile of seeds was studied via PCR-DGGE, showing the presence of L. plantarum SLG17 in wheat seeds and thus underlining an endophytic behavior of the strain. Conclusions: L. plantarum SLG17 and B. amyloliquefaciens FLN13, applied as biocontrol agents starting from the heading period until anthesis of wheat plants, are promising agents for the reduction of FHB index. [ABSTRACT FROM AUTHOR]

Published

2015

29. Anti-Listeria Starters: In Vitro Selection and Production Plant Evaluation.

Author

RAIMONDI, STEFANO, POPOVIC, MINA, AMARETTI, ALBERTO, DI GIOIA, DIANA, and ROSSI, MADDALENA

Subjects

LISTERIA, LACTOBACILLUS delbrueckii, FERMENTATION, SALAMI, TASTE testing of food

Abstract

Anti-Listeria bacterial starters are highly demanded by the meat industry. Novel bioprotective anti-Listeria starters were searched among Lactobacillus species strains isolated from artisanal sausages. The screening confirmed that anti-Listeria activity is a strain-specific property and yielded only 1 strain (of 36) exhibiting a satisfactory level of inhibition, L. delbrueckii WC0286. This strain was compared with two commercial bioprotective starters, SafePro B-SF-43 and SafePro B-LC-20, in a model simulating in vitro the first step of the fermentation process. The presence of the bioprotective starters did not modify the pH in such a way that could affect the safety or organoleptic properties of the product. Both SafePro B-SF-43 and SafePro B-LC-20 effected an important reduction of Listeria counts (0.56 and 0.72 log CFU g-1, respectively, in 72 h), while the anti-Listeria effect of L. delbrueckii WC0286 was minor (0.15 log CFU g-1). These results discouraged the utilization of L. delbrueckii WC0286 for a challenge test in a pilot salami production, in favor of the best-performing bioprotective starter, SafePro B-LC-20. The test confirmed that SafePro B-LC-20 did not alter the acidification trend of sausages and was capable of inhibiting Listeria, which decreased by 1.21 log CFU g-1. This information is relevant to address research activity toward the development of new bioprotective starters. The data herein presented demonstrate that the efficacy in Listeria control of potentially bioprotective bacterial starters requires further validation in real meat matrixes, possibly by using in vitro meat fermentation experiments to narrow down the list of candidates before pilot scale challenge tests. [ABSTRACT FROM AUTHOR]

Published

2014

30. The Probiotic Bifidobacterium breve B632 Inhibited the Growth of Enterobacteriaceae within Colicky Infant Microbiota Cultures.

Author

Simone, Marta, Gozzoli, Caterina, Quartieri, Andrea, Mazzola, Giuseppe, Di Gioia, Diana, Amaretti, Alberto, Raimondi, Stefano, and Rossi, Maddalena

Abstract

Infant colic is a common gastrointestinal disorder of newborns, mostly related to imbalances in the composition of gut microbiota and particularly to the presence of gas-producing coliforms and to lower levels of Bifidobacteria and Lactobacilli. Probiotics could help to contain this disturbance, with formulations consisting of Lactobacillus strains being the most utilized. In this work, the probiotic strain Bifidobacterium breve B632 that was specifically selected for its ability to inhibit gas-producing coliforms, was challenged against the Enterobacteriaceae within continuous cultures of microbiota from a 2-month-old colicky infant. As confirmed by RAPD-PCR fingerprinting, B. breve B632 persisted in probiotic-supplemented microbiota cultures, accounting for the 64% of Bifidobacteria at the steady state. The probiotic succeeded in inhibiting coliforms, since FISH and qPCR revealed that the amount of Enterobacteriaceae after 18 h of cultivation was 0.42 and 0.44 magnitude orders lower (ρ < 0.05) in probioticsupplemented microbiota cultures than in the control ones. These results support the possibility to move to another level of study, that is, the administration of B. breve B632 to a cohort of colicky newborns, in order to observe the behavior of this strain in vivo and to validate its effect in colic treatment. [ABSTRACT FROM AUTHOR]

Published

2014

31. Antibiotic Exposure, Common Morbidities and Main Intestinal Microbial Groups in Very Preterm Neonates: A Pilot Study.

Author

Bozzi Cionci, Nicole, Lucaccioni, Laura, Pietrella, Elisa, Ficara, Monica, Spada, Caterina, Torelli, Paola, Bedetti, Luca, Lugli, Licia, Di Gioia, Diana, and Berardi, Alberto

Subjects

NEONATAL sepsis, ANTIBIOTICS, PREMATURE infants, NEWBORN infants, BACTEROIDES fragilis, PATENT ductus arteriosus

Abstract

Prematurity exposes newborns to increased risks of infections and it is associated with critical morbidities. Preterm infants often require antibiotic therapies that can affect the correct establishment of gut microbiota. The aim of this study was to investigate targeted intestinal bacteria in preterm neonates with common morbidities and receiving antibiotic treatments of variable duration. Stool samples were collected after birth, at 15, 30 and 90 days of life. qPCR quantification of selected microbial groups (Bifidobacterium spp., Bacteroides fragilis group, Enterobacteriaceae, Clostridium cluster I and total bacteria) was performed and correlation between their levels, the duration of antibiotic treatment and different clinical conditions was studied. An increasing trend over time was observed for all microbial groups, especially for Bifdobacterium spp. Prolonged exposure to antibiotics in the first weeks of life affected Clostridium and B. fragilis levels, but these changes no longer persisted at 90 days of life. Variations of bacterial counts were associated with the length of hospital stay, feeding and mechanical ventilation. Late-onset sepsis and patent ductus arteriosus reduced the counts of Bifidobacterium, whereas B. fragilis was influenced by compromised respiratory conditions. This study can be a start point for the identification of microbial biomarkers associated with some common morbidities and tailored strategies for a healthy microbial development. [ABSTRACT FROM AUTHOR]

Published

2022

32. Identification of species belonging to the Bifidobacterium genus by PCR-RFLP analysis of a hsp60 gene fragment.

Author

Baffoni, Loredana, Stenico, Verena, Strahsburger, Erwin, Gaggìa, Francesca, Di Gioia, Diana, Modesto, Monica, Mattarelli, Paola, and Biavati, Bruno

Subjects

BIFIDOBACTERIUM, ACTINOBACTERIA genetics, RECOMBINANT DNA, MOLECULAR structure of ribosomal RNA, TAXONOMY, GENE amplification, BACTERIA

Abstract

Background: Bifidobacterium represents one of the largest genus within the Actinobacteria, and includes at present 32 species. These species share a high sequence homology of 16S rDNA and several molecular techniques already applied to discriminate among them give ambiguous results. The slightly higher variability of the hsp60 gene sequences with respect to the 16S rRNA sequences offers better opportunities to design or develop molecular assays, allowing identification and differentiation of closely related species. hsp60 can be considered an excellent additional marker for inferring the taxonomy of the members of Bifidobacterium genus. Results: This work illustrates a simple and cheap molecular tool for the identification of Bifidobacterium species. The hsp60 universal primers were used in a simple PCR procedure for the direct amplification of 590 bp of the hsp60 sequence. The in silico restriction analysis of bifidobacterial hsp60 partial sequences allowed the identification of a single endonuclease (HaeIII) able to provide different PCR-restriction fragment length polymorphism (RFLP) patterns in the Bifidobacterium spp. type strains evaluated. The electrophoretic analyses allowed to confirm the different RFLP patterns. Conclusions: The developed PCR-RFLP technique resulted in efficient discrimination of the tested species and subspecies and allowed the construction of a dichotomous key in order to differentiate the most widely distributed Bifidobacterium species as well as the subspecies belonging to B. pseudolongum and B. animalis. [ABSTRACT FROM AUTHOR]

Published

2013

33. Bactericidal Activity of Aqueous Acrylic Paint Dispersion for Wooden Substrates Based on TiO2 Nanoparticles Activated by Fluorescent Light.

Author

Zuccheri, Tommaso, Colonna, Martino, Stefanini, Ilaria, Santini, Cecilia, and Di Gioia, Diana

Subjects

NANOPARTICLES, ELECTRON microscopy, PSEUDOMONAS aeruginosa, MICROCOCCACEAE, ESCHERICHIA coli

Abstract

The photocatalytic effect of TiO2 has great potential for the disinfection of surfaces. Most studies reported in the literature use UV activation of TiO2, while visible light has been used only in a few applications. In these studies, high concentrations of TiO2, which can compromise surface properties, have been used. In this work, we have developed an acrylic-water paint dispersion containing low TiO2 content (2 vol %) for the inactivation of microorganisms involved in hospital-acquired infections. The nanoparticles and the coating have been characterized using spectroscopic techniques and transmission electron microscopy, showing their homogenous dispersion in the acrylic urethane coating. A common fluorescent light source was used to activate the photocatalytic activity of TiO2. The paint dispersion showed antimicrobial activity against Escherichia coli, Staphylococcus aureus and Pseudomonas aeruginosa. The coating containing the TiO2 nanoparticles maintained good UV stability, strong adhesion to the substrate and high hardness. Therefore, the approach used is feasible for paint formulation aimed at disinfection of healthcare surfaces. [ABSTRACT FROM AUTHOR]

Published

2013

34. Genotoxicity of 4-nonylphenol and nonylphenol ethoxylate mixtures by the use of Saccharomyces cerevisiae D7 mutation assay and use of this text to evaluate the efficiency of biodegradation treatments.

Author

Frassinetti, Stefania, Barberio, Claudia, Caltavuturo, Leonardo, Fava, Fabio, and Di Gioia, Diana

Subjects

GENETIC toxicology, NONYLPHENOL & the environment, ETHOXYLATES, SACCHAROMYCES cerevisiae, BIOLOGICAL assay, GENETIC mutation, BIODEGRADATION, EFFICIENCY of sewage disposal plants, MUTAGENICITY testing, ENDOCRINE disruptors

Abstract

Nonylphenol ethoxylates (NPnEOs, where n is the number of ethoxylic units in the molecule) are non-ionic surfactants widely used for domestic and industrial purposes. 4-Nonylphenol (4-NP), the main product of NPnEO biodegradation, is a toxic xenobiotic compound classified as endocrine disrupter. While numerous studies reported the toxicity and oestrogenic activity of nonylphenols, little is known about the mutagenicity of these compounds. In this paper, the genotoxicity of 4-NP and NPnEO mixtures was evaluated by using the D7 strain of Saccharomyces cerevisiae as experimental model. The same genotoxicity tests were applied to effluents deriving from experimental packed-bed bioreactors, developed for the treatment of NPnEO contaminated wastewater, in order to evaluate the residual genotoxic potential with respect to the influent waste. The target compounds fed to the bioreactors were 4-NP and NPnEO mixtures possessing an average of 5 or 1.5 ethoxylic units (Igepal CO-520 and Igepal CO-210, respectively). The results showed that 4-NP induced significant cytotoxic effect on S. cerevisiae cells at 50mg/L, as well as mutagenic effects at the lowest tested concentrations (12 and 25mg/L). 4-NP was the most genotoxic compound among those assayed, followed by Igepal CO-210, whereas Igepal CO-520 did not induce genotoxicity at any of the assayed concentrations. The genotoxic effects of 4-NP on yeast cells disappeared after the treatment of 4-NP artificially contaminated water in the bioreactor. This indicates that the biological treatment is capable of removing not only the pollutant, but also the toxicity associated to the compound and its degradation metabolites. This study represents, to the best of our knowledge, the first report that evaluates the genotoxicity of both 4-NP, NPnEOs and their potential aerobic degradation products on an eukaryotic organism. The obtained results suggest that the S. cerevisiae D7 strain is a very effective model microorganism to study the induction of genotoxic damage by the compounds under study. Moreover, this yeast assay has been proved effective to evaluate the detoxification effect deriving from biotreatment processes. [Copyright &y& Elsevier]

Published

2011

35. Metabolic engineering of Pseudomonas fluorescens for the production of vanillin from ferulic acid

Author

Di Gioia, Diana, Luziatelli, Francesca, Negroni, Andrea, Ficca, Anna Grazia, Fava, Fabio, and Ruzzi, Maurizio

Subjects

*PSEUDOMONAS fluorescens, *VANILLIN, *FUNGUS-bacterium relationships, *FLAVOR biotechnology, *FOOD industry, *ESCHERICHIA coli, *PHENOLS

Abstract

Abstract: Vanillin is one of the most important flavors in the food industry and there is great interest in its production through biotechnological processes starting from natural substrates such as ferulic acid. Among bacteria, recombinant Escherichia coli strains are the most efficient vanillin producers, whereas Pseudomonas spp. strains, although possessing a broader metabolic versatility, rapidly metabolize various phenolic compounds including vanillin. In order to develop a robust Pseudomonas strain that can produce vanillin in high yields and at high productivity, the vanillin dehydrogenase (vdh)-encoding gene of Pseudomonas fluorescens BF13 strain was inactivated via targeted mutagenesis. The results demonstrated that engineered derivatives of strain BF13 accumulate vanillin if inactivation of vdh is associated with concurrent expression of structural genes for feruloyl-CoA synthetase (fcs) and hydratase/aldolase (ech) from a low-copy plasmid. The conversion of ferulic acid to vanillin was enhanced by optimization of growth conditions, growth phase and parameters of the bioconversion process. The developed strain produced up to 8.41mM vanillin, which is the highest final titer of vanillin produced by a Pseudomonas strain to date and opens new perspectives in the use of bacterial biocatalysts for biotechnological production of vanillin from agro-industrial wastes which contain ferulic acid. [Copyright &y& Elsevier]

Published

2010

36. Screening of Dietary Ingredients against the Honey Bee Parasite Nosema ceranae.

Author

Braglia, Chiara, Alberoni, Daniele, Porrini, Martin Pablo, Garrido, Paula Melisa, Baffoni, Loredana, and Di Gioia, Diana

Subjects

NOSEMA ceranae, FOOD waste, HONEYBEES, ORGANIC acids, WASTE products, ACETIC acid, BEES, BEEKEEPING

Abstract

Nosema ceranae is a major pathogen in the beekeeping sector, responsible for nosemosis. This disease is hard to manage since its symptomatology is masked until a strong collapse of the colony population occurs. Conversely, no medicaments are available in the market to counteract nosemosis, and only a few feed additives, with claimed antifungal action, are available. New solutions are strongly required, especially based on natural methods alternative to veterinary drugs that might develop resistance or strongly pollute honey bees and the environment. This study aims at investigating the nosemosis antiparasitic potential of some plant extracts, microbial fermentation products, organic acids, food chain waste products, bacteriocins, and fungi. Honey bees were singularly infected with 5 × 10 4 freshly prepared N. ceranae spores, reared in cages and fed ad libitum with sugar syrup solution containing the active ingredient. N. ceranae in the gut of honey bees was estimated using qPCR. The results showed that some of the ingredients administered, such as acetic acid at high concentration, p-coumaric acid, and Saccharomyces sp. strain KIA1, were effective in the control of nosemosis. On the other hand, wine acetic acid strongly increased the N. ceranae amount. This study investigates the possibility of using compounds such as organic acids or biological agents including those at the base of the circular economy, i.e., wine waste production, in order to improve honeybee health. [ABSTRACT FROM AUTHOR]

Published

2021

37. Honeybees Exposure to Natural Feed Additives: How Is the Gut Microbiota Affected?

Author

Alberoni, Daniele, Baffoni, Loredana, Braglia, Chiara, Gaggìa, Francesca, Di Gioia, Diana, and Seifert, Jana

Subjects

GUT microbiome, HONEYBEES, BEEHIVES, LACTOBACILLACEAE, BARTONELLA, SOCIAL skills, FEED additives

Abstract

The role of a balanced gut microbiota to maintain health and prevent diseases is largely established in humans and livestock. Conversely, in honeybees, studies on gut microbiota perturbations by external factors have started only recently. Natural methods alternative to chemical products to preserve honeybee health have been proposed, but their effect on the gut microbiota has not been examined in detail. This study aims to investigate the effect of the administration of a bacterial mixture of bifidobacteria and Lactobacillaceae and a commercial product HiveAliveTM on honeybee gut microbiota. The study was developed in 18 hives of about 2500 bees, with six replicates for each experimental condition for a total of three experimental groups. The absolute abundance of main microbial taxa was studied using qPCR and NGS. The results showed that the majority of the administered strains were detected in the gut. On the whole, great perturbations upon the administration of the bacterial mixture and the plant-based commercial product were not observed in the gut microbiota. Significant variations with respect to the untreated control were only observed for Snodgrassella sp. for the bacterial mixture, Bartonella sp. in HiveAliveTM and Bombilactobacillus sp. for both. Therefore, the studied approaches are respectful of the honeybee microbiota composition, conceivably without compromising the bee nutritional, social and ecological functions. [ABSTRACT FROM AUTHOR]

Published

2021

38. Olive Mill Wastewater Valorization in Multifunctional Biopolymer Composites for Antibacterial Packaging Application.

Author

Sisti, Laura, Totaro, Grazia, Bozzi Cionci, Nicole, Di Gioia, Diana, Celli, Annamaria, Verney, Vincent, and Leroux, Fabrice

Subjects

OLIVE oil, POLYMERIC composites, ANTIBACTERIAL agents, GEL permeation chromatography, X-ray diffraction

Abstract

Olive mill wastewater (OMW) is the aqueous waste derived from the production of virgin olive oil. OMW typically contains a wide range of phenol-type molecules, which are natural antioxidants and/or antibacterials. In order to exploit the bioactive molecules and simultaneously decrease the environmental impact of such a food waste stream, OMW has been intercalated into the host structure of ZnAl layered double hydroxide (LDH) and employed as an integrative filler for the preparation of poly(butylene succinate) (PBS) composites by in situ polymerization. From the view point of the polymer continuous phase as well as from the side of the hybrid filler, an investigation was performed in terms of molecular and morphological characteristics by gel permeation chromatography (GPC) and X-ray diffraction (XRD); also, the thermal and mechanical properties were evaluated by thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), and dynamic thermomechanical analysis (DMTA). Antibacterial properties have been assessed against a Gram-positive and a Gram-negative bacterium, Staphylococcus aureus and Escherichia coli, respectively, as representatives of potential agents of foodborne illnesses. [ABSTRACT FROM AUTHOR]

Published

2019

39. Study on a Fermented Whole Wheat: Phenolic Content, Activity on PTP1B Enzyme and In Vitro Prebiotic Properties.

Author

Balli, Diletta, Bellumori, Maria, Paoli, Paolo, Pieraccini, Giuseppe, Di Paola, Monica, De Filippo, Carlotta, Di Gioia, Diana, Mulinacci, Nadia, Innocenti, Marzia, Wang, Mingfu, and Zhao, Yueliang

Subjects

WHEAT, FERMENTATION, PROTEIN-tyrosine kinases, PREBIOTICS, HYDROLYSIS, PHENOLS, ANTIOXIDANTS

Abstract

Fermented cereals, staple foods in Asia and Africa, are recently receiving a growing interest in Western countries. The object of this work is the characterization of a fermented wheat used as a food ingredient and dietary supplement. To this aim, the phenolic composition, the activity on protein tyrosine phosphatase 1B (PTP1B), an enzyme overexpressed in type-II diabetes, the in vitro prebiotic properties on Lactobacillusreuteri and the microbial composition were investigated. Basic and acidic hydrolysis were tested for an exhaustive recovery of bound phenols: the acidic hydrolysis gave best yields. Methyl ferulate and neocarlinoside were identified for the first time in wheat. The inhibitory power of the extracts of several batches were investigated on PTP1B enzyme. The product was not able to inhibit the enzyme, otherwise, for the first time, a complete inhibition was observed for schaftoside, a major C-flavonoid of wheat. The microbial composition was assessed identifying Lactobacillus, Enterococcus, and Pediococcus as the main bacterial species. The fermented wheat was a suitable substrate for the grown of L. reuteri, recognized for its health properties in the human gut. The proposed method for phenols is easier compared to those based on strong basic hydrolysis; our results assessed the bound phenols as the major fraction, differently from that suggested by the literature for fermented cereals. [ABSTRACT FROM AUTHOR]

Published

2019

40. Kombucha Beverage from Green, Black and Rooibos Teas: A Comparative Study Looking at Microbiology, Chemistry and Antioxidant Activity.

Author

Gaggìa, Francesca, Baffoni, Loredana, Galiano, Michele, Nielsen, Dennis Sandris, Jakobsen, Rasmus Riemer, Castro-Mejía, Josue Leonardo, Bosi, Sara, Truzzi, Francesca, Musumeci, Federica, Dinelli, Giovanni, and Di Gioia, Diana

Abstract

Kombucha is usually obtained from the fermentation of black or green tea by a consortium of acetic acid bacteria and yeasts. In this study, kombucha was prepared from the same starter consortium using green and black teas as well as, for the first time, an infusion of rooibos leaves (Aspalathus linearis). Microbial diversity was analysed during fermentation both in the biofilm and in the corresponding kombuchas, using culture-dependent and -independent methods. Polyphenols, flavonoids, ethanol, and acids were quantified and anti-oxidant activities were monitored. All of the Kombuchas showed similarity in bacterial composition, with the dominance of Komagataeibacter spp. Beta diversity showed that the yeast community was significantly different among all tea substrates, between 7 and 14 days of fermentation and between biofilm and kombucha, indicating the influence of the substrate on the fermenting microbiota. Kombucha from rooibos has a low ethanol concentration (1.1 mg/mL), and a glucuronic acid amount that was comparable to black tea. Although antioxidant activity was higher in black and green kombucha compared to rooibos, the latter showed an important effect on the recovery of oxidative damage on fibroblast cell lines against oxidative stress. These results make rooibos leaves interesting for the preparation of a fermented beverage with health benefits. [ABSTRACT FROM AUTHOR]

Published

2019

41. Therapeutic Microbiology: The Role of Bifidobacterium breve as Food Supplement for the Prevention/Treatment of Paediatric Diseases.

Author

Bozzi Cionci, Nicole, Baffoni, Loredana, Gaggìa, Francesca, and Di Gioia, Diana

Abstract

The human intestinal microbiota, establishing a symbiotic relationship with the host, plays a significant role for human health. It is also well known that a disease status is frequently characterized by a dysbiotic condition of the gut microbiota. A probiotic treatment can represent an alternative therapy for enteric disorders and human pathologies not apparently linked to the gastrointestinal tract. Among bifidobacteria, strains of the species Bifidobacterium breve are widely used in paediatrics. B. breve is the dominant species in the gut of breast-fed infants and it has also been isolated from human milk. It has antimicrobial activity against human pathogens, it does not possess transmissible antibiotic resistance traits, it is not cytotoxic and it has immuno-stimulating abilities. This review describes the applications of B. breve strains mainly for the prevention/treatment of paediatric pathologies. The target pathologies range from widespread gut diseases, including diarrhoea and infant colics, to celiac disease, obesity, allergic and neurological disorders. Moreover, B. breve strains are used for the prevention of side infections in preterm newborns and during antibiotic treatments or chemotherapy. With this documentation, we hope to increase knowledge on this species to boost the interest in the emerging discipline known as "therapeutic microbiology". [ABSTRACT FROM AUTHOR]

Published

2018

42. Soil CO2 emission partitioning, bacterial community profile and gene expression of Nitrosomonas spp. and Nitrobacter spp. of a sandy soil amended with biochar and compost.

Author

Sorrenti, Giovambattista, Buriani, Giampaolo, Gaggìa, Francesca, Baffoni, Loredana, Spinelli, Francesco, Di Gioia, Diana, and Toselli, Moreno

Subjects

*SANDY soils, *GENE expression, *NITROSOMONAS, *NITRIFYING bacteria, *BIOCHAR, *AMMONIA monooxygenase

Abstract

We performed a 18-month experiment on 0.496 m 3 pots filled with a sandy soil in which 1-year old nectarine trees were grown. With four replicates, the following amendment strategies were compared: a) unamended control; b) biochar (20 g fw kg −1 ); c) compost (76.8 g fw kg −1 ) and d) biocompost (mixing biochar and compost at the same rates of the previous two strategies). Amendments were applied at planting and only unamended and merely biochar-amended soils were fertilized with mineral inputs. Soil mineral N availability was regularly measured and at the end of the experiment, we determined total C and N concentration of soils and aged biochar fragments. Total soil respiration (R TOT ) was separated into soil organic-C derived (R SOC ) and rhizosphere (R R ) respiration by the trenching method. Total soil DNA was extracted from samples collected after 6 and 18 months and bacterial community analysis was carried out by denaturing gradient gel electrophoresis (DGGE). Expression of nitrification key genes of ammonia monooxygenase (AMO) and nitrite oxidoreductase (NOR) and the relative abundance of specific bacterial community ( Nitrosomonas spp. and Nitrobacter spp.) were determined by Real Time PCR on soil samples collected at 6, 12, 15, 16 and 18 months since amendments incorporation. The addition of compost significantly promoted soil mineral N, bacterial diversity and the relative expression of nitrification process related key genes. Furthermore, compost enhanced R SOC likely due to the stimulation of the microbial community by providing labile C sources. Conversely, changes due to the mere addition of biochar were negligible. However, biochar had no detrimental effects, rather it promoted gene expression involved in the nitrification process. A synergic effect between the two amendments emerged in the total soil C and N concentration and in the R SOC , leading to a significantly higher cumulative CO 2 . Although the source of the additional CO 2 rate remains uncertain, a priming effect induced by biochar on the labile compost-derived C-fractions is hypothesized. Compost reduced the relative richness of Arthrobacter spp. in soil, while Actinomadura flavalba , Saccharomonospora viridis , Thermosporomyces composti and Enterobacter spp. were peculiar of the biocompost profile which increased band richness. Biocompost significantly increased the relative abundance of Nitrosomonas spp. and Nitrobacter spp. and both AMO and NOR key genes expression levels. The mixture of biochar and compost seems effective to induce agronomical benefits, although environmental concerns (e.g. additional CO 2 emissions) require further investigations. [ABSTRACT FROM AUTHOR]

Published

2017

43. Comparison of different pilot scale bioreactors for the treatment of a real wastewater from the textile industry

Author

Papadia, Simone, Rovero, Giorgio, Fava, Fabio, and Di Gioia, Diana

Subjects

*BIOREACTORS, *INDUSTRIAL waste purification, *TEXTILE industry, *FIXED bed reactors, *FLUID dynamics, *STRAINS & stresses (Mechanics), *CHEMICAL oxygen demand, *MICROORGANISMS

Abstract

Abstract: Wastewater from textile industry usually undergoes activated sludge biotreatment ahead of refining treatments, final discharge or reuse. To identify the most effective bioreactor typology for the secondary treatment of a wastewater resulting from a textile industry of the Biella district (Italy), four pilot units characterized by a different configuration and fluid dynamics (i.e., Bioflotation®, Fixed Bed Biofilm Reactor (FBBR), flow-jet aeration and standard aerobic sludge reactors) were operated in parallel, inoculated with the same microbial consortium and fed with identical streams of wastewater discharged from wet textile processes of the industy. COD, TC and non-ionic surfactants were monitored in effluents of the compared bioreactors working under continuous mode and the cultivable heterotrophic microorganisms prevailing in each of them were isolated and characterized as the end of the study. The results demonstrated that the air supply system greatly influenced the treatment efficiency which reached the highest value in the case of Bioflotation® and FBBR technology. A highly specialized bacterial biomass mostly composed by strains of the Pseudomonas, Stenotrophomonas and Ochrobactrum genera was isolated in such reactors, thus suggesting that a direct correlation between reactor configuration, decontamination performances and microbial biomass composition exist. [Copyright &y& Elsevier]

Published

2011