Your search keyword '"Agostinetto, G"' showing total 8 results

1. Fermented food products in the era of globalization: tradition meets biotechnology innovations

Author

Giulia Agostinetto, Lorenzo Guzzetti, Massimo Labra, Maurizio Casiraghi, Andrea Galimberti, Antonia Bruno, Galimberti, A, Bruno, A, Agostinetto, G, Casiraghi, M, Guzzetti, L, and Labra, M

Subjects

Fermentation, Machine Learning, Food safety, Food traceability, 0106 biological sciences, 0303 health sciences, Internationality, Food security, Exploit, business.industry, Biomedical Engineering, food and beverages, Bioengineering, Food safety, 01 natural sciences, 03 medical and health sciences, Microbial ecosystem, Globalization, 010608 biotechnology, Fermentation, Food Microbiology, Biochemical engineering, Fermented Foods, business, Fermentation in food processing, Ecosystem, 030304 developmental biology, Biotechnology

Abstract

Omics tools offer the opportunity to characterize and trace traditional and industrial fermented foods. Bioinformatics, through machine learning, and other advanced statistical approaches, are able to disentangle fermentation processes and to predict the evolution and metabolic outcomes of a food microbial ecosystem. By assembling microbial artificial consortia, the biotechnological advances will also be able to enhance the nutritional value and organoleptics characteristics of fermented food, preserving, at the same time, the potential of autochthonous microbial consortia and metabolic pathways, which are difficult to reproduce. Preserving the traditional methods contributes to protecting the hidden value of local biodiversity, and exploits its potential in industrial processes with the final aim of guaranteeing food security and safety, even in developing countries.

Published

2021

2. Sedative Effects of Intramuscular Dexmedetomidine and Ketamine at Sub-Anesthetic Dose Alone or in Combination with Methadone in Healthy Dogs

Author

Alessandra M. Carotenuto, Daniela Gioeni, Eleonora Lazzarini, Federica Alessandra Brioschi, Giulia Agostinetto, Giulia Del Prete, Lazzarini, E, Gioeni, D, Del Prete, G, Brioschi, F, Agostinetto, G, and Carotenuto, A

Subjects

ketamine, medicine.drug_class, Sedation, methadone, sub-anesthetic dose, Dogs, Heart rate, medicine, Animals, Hypnotics and Sedatives, Ketamine, Dexmedetomidine, Small Animals, Anesthetics, business.industry, dexmedetomidine, sedation, Anesthesia, Sedative, Anesthetic, dog, medicine.symptom, Intramuscular injection, Propofol, business, medicine.drug

Abstract

The aim of the present study was to compare sedation quality and cardiorespiratory parameters in healthy dogs after intramuscular injection of dexmedetomidine and ketamine with or without methadone. Forty client-owned dogs were randomly divided into two groups and received IM dexmedetomidine (5 µg kg−1) and ketamine (1 mg kg−1), associated (DKM group) or not (DK group) with methadone (0.2 mg kg−1). Sedation, heart rate (HR), respiratory rate (ƒR), mucous membrane and rectal temperature were recorded at baseline (T0) and after 5 (T5), 10 (T10) and 20 (T20) minutes. From T10, cardiac rhythm was monitored with a continuous lead II electrocardiogram. Ease of venous catheter placement, total propofol dose and any apnea episodes were recorded. Sedation was significantly greater in the DKM group, and a significant increase from T5 to T20 within DKM (P = .0002) and DK (P = .008) was also observed. Within each group, HR was significantly lower at all time points compared to baseline. No significant differences between groups were found in the number of arrhythmogenic events (atrioventricular blocks). In both group ƒR decreased over time. The propofol dose required for anesthesia induction was significantly lower (P = .027) in the DKM group. In conclusion, a good level of sedation was achieved in both groups, although this was greater in DKM. Smooth animal-operator interaction and ease of venous catheter placement showed that DK was a useful sedative protocol in healthy patients.

Published

2021

3. ExTaxsI: an exploration tool of biodiversity molecular data

Author

Bachir Balech, Anna Sandionigi, Dario Pescini, Brusati A, Parladori E, Maurizio Casiraghi, Chahed A, Antonia Bruno, Giulia Agostinetto, Agostinetto, G, Brusati, A, Sandionigi, A, Chahed, A, Parladori, E, Balech, B, Bruno, A, Pescini, D, and Casiraghi, M

Subjects

Metadata, molecular data, Computer science, business.industry, Biodiversity, Health Informatics, Genomics, computer.software_genre, Data science, Computer Science Applications, Visualization, taxonomy gap, Data visualization, Metagenomics, data visualization, Taxonomy (biology), business, data integration, computer, database, Data integration

Abstract

Background The increasing availability of multi-omics data is leading to regularly revised estimates of existing biodiversity data. In particular, the molecular data enable novel species to be characterized and the information linked to those already observed to be increased with new genomics data. For this reason, the management and visualization of existing molecular data, and their related metadata, through the implementation of easy-to-use IT tools have become a key point to design future research. The more users are able to access biodiversity-related information, the greater the ability of the scientific community to expand its knowledge in this area. Results In this article we focus on the development of ExTaxsI (Exploring Taxonomy Information), an IT tool that can retrieve biodiversity data stored in NCBI databases and provide a simple and explorable visualization. We use 3 case studies to show how an efficient organization of the available data can lead to obtaining new information that is fundamental as a starting point for new research. Using this approach highlights the limits in the distribution of data availability, a key factor to consider in the experimental design phase of broad-spectrum studies such as metagenomics. Conclusions ExTaxsI can easily retrieve molecular data and its metadata with an explorable visualization, with the aim of helping researchers to improve experimental designs and highlight the main gaps in the coverage of available data.

Published

2020

4. DNA-Based Herbal Teas’ Authentication: An ITS2 and psbA-trnH Multi-Marker DNA Metabarcoding Approach

Author

Massimo Labra, Jessica Frigerio, Giulia Agostinetto, Antonia Bruno, Fabrizio De Mattia, Valerio Mezzasalma, Frigerio, J, Agostinetto, G, Mezzasalma, V, De Mattia, F, Labra, M, and Bruno, A

Subjects

food fraud, herbal teas, ITS2, Plant Science, Biology, Barcode, DNA barcoding, DNA metabarcoding, law.invention, Identification rate, chemistry.chemical_compound, law, Medicinal plants, Ecology, Evolution, Behavior and Systematics, Ecology, business.industry, Herbal tea, Botany, psbA-trnH, Tincture, Psba trnh, PsbA‐trnH, Biotechnology, genomic DNA, chemistry, QK1-989, HTS, business, DNA

Abstract

Medicinal plants have been widely used in traditional medicine due to their therapeutic properties. Although they are mostly used as herbal infusion and tincture, employment as ingredients of food supplements is increasing. However, fraud and adulteration are widespread issues. In our study, we aimed at evaluating DNA metabarcoding as a tool to identify product composition. In order to accomplish this, we analyzed fifteen commercial products with DNA metabarcoding, using two barcode regions: psbA-trnH and ITS2. Results showed that on average, 70% (44–100) of the declared ingredients have been identified. The ITS2 marker appears to identify more species (n = 60) than psbA-trnH (n = 35), with an ingredients’ identification rate of 52% versus 45%, respectively. Some species are identified only by one marker rather than the other. Additionally, in order to evaluate the quantitative ability of high-throughput sequencing (HTS) to compare the plant component to the corresponding assigned sequences, in the laboratory, we created six mock mixtures of plants starting both from biomass and gDNA. Our analysis also supports the application of DNA metabarcoding for a relative quantitative analysis. These results move towards the application of HTS analysis for studying the composition of herbal teas for medicinal plants’ traceability and quality control.

Published

2021

5. Impact of land use intensification and local features on plants and pollinators in Sub-Saharan smallholder farms

Author

Henry Kenneth Njovu, Marcell K. Peters, Andrea Tapparo, Giulia Agostinetto, Julius Vincent Lasway, Nicola Tommasi, Lorenzo Guzzetti, Massimo Labra, Ingolf Steffan-Dewenter, Paolo Biella, Andrea Galimberti, Tommasi, N, Biella, P, Guzzetti, L, Lasway, J, Njovu, H, Tapparo, A, Agostinetto, G, Peters, M, Steffan-Dewenter, I, Labra, M, and Galimberti, A

Subjects

Ecology, Land use, Pollination, Ecosystem service, Agroforestry, business.industry, Biodiversity, Plant-pollinator interaction, DNA metabarcoding, Ecosystem services, Hoverflie, Geography, Sustainability, Agricultural land, Pollinator, Agriculture, Animal Science and Zoology, Species richness, business, Bee, Agronomy and Crop Science

Abstract

Sub-Saharan African crop production largely relies on smallholder farms, located both in urban and agricultural landscapes. In this context, the investigation of plant and pollinator diversity and their interactions is of primary importance since both these factors are threatened by land use intensification and the consequent loss of natural habitats. In this study, we evaluated for the first time how plant and pollinator insect assemblages and interactions in Sub-Saharan farming conditions are shaped by land use intensification. To do that, we complemented biodiversity field surveys in Northern Tanzania with a modern DNA metabarcoding approach to characterize the foraged plants and thus built networks describing plant-pollinator interactions at the individual insect level. Moreover, we coupled this information with quantitative traits of landscape composition and floral availability surrounding each farm. We found that pollinator richness decreased with increasing impervious and agricultural cover in the landscape, whereas the flower density at each farm correlated with pollinator richness. The intensification of agricultural land use and urbanization correlated with a higher foraging niche overlap among pollinators due to convergence of individuals’ flower visiting strategies. Furthermore, within farms, the higher availability of floral resources drove lower niche overlap among individuals, while a greater flower visitors abundance shaped higher generalization at the networks level (H2′), possibly due to increased competition. These mechanistic understandings leading to individuals’ foraging niche overlap and generalism at the network level, could imply stability of interactions and of the pollination ecosystem service. Our integrative survey proved that plant-pollinator systems are largely affected by land use intensification and by local factors in smallholder farms of Sub-Saharan Africa. Thus, policies promoting nature-based solutions, among which the introduction of more pollinator-friendly practices by smallholder farmers, could be effective in mitigating the intensification of both urban and rural landscapes in this region, as well as in similar Sub-Saharan contexts.

Published

2021

6. Food Tracking Perspective: DNA Metabarcoding to Identify Plant Composition in Complex and Processed Food Products

Author

Massimo Labra, Anna Sandionigi, Antonia Bruno, Maurizio Casiraghi, Giulia Agostinetto, Lorenzo Bernabovi, Jessica Frigerio, Bruno, A, Sandionigi, A, Agostinetto, G, Bernabovi, L, Frigerio, J, Casiraghi, M, and Labra, M

Subjects

0301 basic medicine, lcsh:QH426-470, Traceability, Food Handling, Sample (material), herbal products, Food Contamination, Molecular marker, Biology, Raw material, food tracking, 01 natural sciences, DNA sequencing, Article, DNA metabarcoding, processed food, 03 medical and health sciences, food matrices, trnL, Genetics, DNA Barcoding, Taxonomic, Genetics (clinical), Plant Proteins, Herbal product, food matrice, business.industry, molecular markers, High Throughput Sequencing, High Throughput Sequencing, 010401 analytical chemistry, High-Throughput Nucleotide Sequencing, Food composition data, Sequence Analysis, DNA, Contamination, Plants, 0104 chemical sciences, Biotechnology, Food contaminant, lcsh:Genetics, 030104 developmental biology, Food processing, food contaminants, business

Abstract

One of the main goals of the quality control evaluation is to identify contaminants in raw material, or contamination after a food is processed and before it is placed on the market. During the treatment processes, contamination, both accidental and economically motivated, can generate incongruence between declared and real composition. In our study, we evaluated if DNA metabarcoding is a suitable tool for unveiling the composition of processed food, when it contains small trace amounts. We tested this method on different types of commercial plant products by using tnrL marker and we applied amplicon-based high-throughput sequencing techniques to identify plant components in different food products. Our results showed that DNA metabarcoding can be an effective approach for food traceability in different type of processed food. Indeed, the vast majority of our samples, we identified the species composition as the labels reported. Although some critical issues still exist, mostly deriving from the starting composition (i.e., variable complexity in taxa composition) of the sample itself and the different processing level (i.e., high or low DNA degradation), our data confirmed the potential of the DNA metabarcoding approach also in quantitative analyses for food composition quality control.

Published

2019

7. Tasting the differences: Microbiota analysis of different insect-based novel food

Author

Andrea Galimberti, Massimo Labra, Jessica Frigerio, Giulia Agostinetto, Antonia Bruno, Fabrizio De Mattia, Frigerio, J, Agostinetto, G, Galimberti, A, De Mattia, F, Labra, M, and Bruno, A

Subjects

Mealworm, Insecta, Traceability, Food Handling, 030309 nutrition & dietetics, media_common.quotation_subject, Context (language use), Novel food, Insect, Raw material, DNA metabarcoding, 03 medical and health sciences, 0404 agricultural biotechnology, Edible Insects, Animals, DNA barcoding, High throughput sequencing, Tenebrio, media_common, 0303 health sciences, biology, Processed food, business.industry, Microbiota, fungi, 04 agricultural and veterinary sciences, Food safety, BIO/19 - MICROBIOLOGIA GENERALE, biology.organism_classification, 040401 food science, Biotechnology, Food processing, business, Food quality, Food Science

Abstract

Traceability, quality and safety of edible insects are important both for the producers and the consumers. Today, alongside the burst of edible insects in western countries, we are facing a gap of knowledge of insect microbiota associated with the microbial ecosystems of insect-based products. Recent studies suggest that the insect microbiota can vary between insect species and that can be shaped by additional factors, such as rearing conditions. Also, the production processes of raw materials (i.e. insect flour) into final food products can affect the insect microbiota too. This has consequences for the evaluation of food safety and food traceability. In this context, High-Throughput DNA Sequencing (HTS) techniques can give insight into the carryover of insect microbiota into final food products. In this study, we investigated the microbiota composition of insect-based commercial food products, applying HTS techniques coupled with bioinformatic analysis. The aim of this work was to analyse the microbiota variability of different categories of insect-based products made of A. domesticus (house cricket), T. molitor (mealworm beetle), and A. diaperinus (lesser mealworm or litter beetle), including commercial raw materials and processed food items, purchased via e-commerce from different companies. Our data revealed that samples cluster per insect species based on microbiota profile and preliminary results suggested that a small number of prevalent bacteria formed a “core microbiota” characterizing the products depending on the insect, suggesting that a resident microbiota is conserved. This microbial signature can be recognized despite the different food processing levels, rearing conditions selling companies. We showed that differences exist when comparing raw vs processed food made of the same insect, or similar products produced by different companies as well, laying the groundwork for further analyses. These results support the application of HTS analysis for studying the composition of processed insect food in a wider perspective, for food traceability and food quality control.

Published

2020

8. The hidden ‘plant side’ of insect novel foods: A DNA-based assessment

Author

Valerio Mezzasalma, Andrea Galimberti, Anna Sandionigi, Giulia Agostinetto, Massimo Labra, Jessica Frigerio, Maurizio Casiraghi, Nadia Maria Berterame, Frigerio, J, Agostinetto, G, Sandionigi, A, Mezzasalma, V, Berterame, N, Casiraghi, M, Labra, M, and Galimberti, A

Subjects

Food Handling, 030309 nutrition & dietetics, media_common.quotation_subject, Flour, Enzyme-Linked Immunosorbent Assay, Food Contamination, Context (language use), Insect, Biology, DNA barcoding, DNA sequencing, DNA metabarcoding, 03 medical and health sciences, 0404 agricultural biotechnology, Plant allergen, Edible Insects, Screening method, Animals, DNA Barcoding, Taxonomic, High throughput sequencing, Quality (business), media_common, Insect farming, 0303 health sciences, Processed food, business.industry, fungi, 04 agricultural and veterinary sciences, biology.organism_classification, 040401 food science, Biotechnology, Food processing, Insect flour, business, Food Hypersensitivity, Food Science

Abstract

In the context of novel foods, a category for which the market demand is increasing worldwide, the consumption of edible insects and related insect-based products is expected to grow in the next years. Insects represent an important source of energy for the human diet but there is a lack of scientific knowledge about their processing to ensure safe food items to the consumer. In this study we adopted a combined DNA-based approach to verify the identity of the declared species in five categories of commercial insect-based products (mt COI DNA barcoding) and to characterize plant declared ingredients or contaminants (nu ITS2 DNA metabarcoding) with particular attention to putative elements of allergenic concern belonging, for example to the insect rearing substrate. Moreover, the same approach has been used to assess its sensitivity to cases of contamination and counterfeits to insect flour with low cost (and potentially allergenic) vegetable flours like wheat and soybean. Results show the success of insect DNA barcoding authentication even for highly processed products. Furthermore, the DNA metabarcoding analysis revealed a high efficacy as a screening method to identify both plant ingredients and vegetal traces belonging to insect farming or possible adulteration events, also acting as an early warning strategy for the occurrence of allergens of human concern. This approach could support the development of new risk assessment procedures for novel foods by regulatory authorities to ensure their quality, safety, and acceptance which will become more required in order to face the challenge of feeding the world population in the next decades.

Published

2020