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8. Putrescine-1,4-dicinnamide from Pholiota spumosa (Basidiomycetes) inhibits cell growth of human prostate cancer cells

Author

Russo, A., Piovano, M., Clericuzio, M., Lombardo, L., Tabasso, S., Chamy, M.C., Vidari, G., Cardile, V., Vita-Finzi, P., and Garbarino, J.A.

Subjects
Prostate cancer -- Drug therapy, Mushrooms -- Health aspects, Biological sciences, Health, Science and technology
Abstract

Abstract Previously, it was isolated from the fruiting bodies of the gilled mushroom Pholiota spumosa (Basidiomycetes, Strophariaceae), putrescine-1,4-dicinnamide, a phenylpropanoid derivative conjugated with polyamine putrescine never isolated before as a [...]

Published
2007

9. Integrated biochemical and chemical processing of municipal bio-based waste to obtain bio based products for multiple uses. The case of soil remediation

Author

Tabasso, S, Ginepro, M, Tomasso, L, Montoneri, E, Nistico', R, Francavilla, M, Tabasso, S, Ginepro, M, Tomasso, L, Montoneri, E, Nistico', R, and Francavilla, M

Abstract

In line with the Green Supply Chain Management, Sustainable Supply Chain Management and Natural-Resource-Based Views (NRBV), the present study is as further step of a long range research program initiated in 2004. The project aims to demonstrate municipal bio-waste (MBW) as feedstock to produce bio based chemicals alternative to fossil sourced products. Previous work demonstrated MBW as source of polymeric biosurfactants (BPS) with multiple properties for use in chemical and agriculture sectors. The present paper reports now a new BPS feature, i.e. that BPS are efficient active principles for soil remediation. The study involves three BPS obtained by alkaline hydrolysis from different streams of an MBW treatment plant: the anaerobic digestate of food kitchen waste (FORSUD), the compost (CV) of gardening residues and the compost (CVDF) of a mix of gardening residues, digestate and sewage sludge. The BPS have 5 to over 750 kg/mol molecular weight, characterized by the presence of aliphatic C chains substituted by aromatic moieties and several different acid and basic functional groups. They were used at 0.1–100 g L−1 in aqueous solution to wash soil sampled from an Italian metal polluted site. Collected data statistical analysis was carried out by ANOVA. The recovered washing solutions were analyzed for Cu, Cr, Ni, Zn, Pb. The 50–100 g/L CVDF BPS solutions exhibited 98-81% extraction efficiency, compared to 70-60% for CV and FORSUD. Compared to conventional commercial extractants, CVDF BPS extraction efficiency ranked as CVDF = diethylene triamine pentaacetic acid > ethylene diamine tetraacetic acid > sodium dodecyl sulphate. A new two steps process was studied: (1) use of BPS solution for washing the polluted soil; (2) treating the recovered solution by acidification and membrane filtration to separate a pollutant concentrate from water for further use. Results indicate membrane filtration more efficient and/or sustainable. They confirm BPS as value added produ

Published
2020

12. Reactive hypersaline route: One-pot synthesis of porous photoactive nanocomposites

Author

Nistico', R, Tabasso, S, Magnacca, G, Jordan, T, Shalom, M, Fechler, N, NISTICO', ROBERTO, Tabasso, Silvia, Magnacca, Giuliana, Jordan, Thomas, Shalom, Menny, Fechler, Nina, Nistico', R, Tabasso, S, Magnacca, G, Jordan, T, Shalom, M, Fechler, N, NISTICO', ROBERTO, Tabasso, Silvia, Magnacca, Giuliana, Jordan, Thomas, Shalom, Menny, and Fechler, Nina

Abstract

Herein, porous photoactive nanocomposites are prepared by a simple one-pot synthesis approach using a salt and aqueous media. Within this reactive hypersaline route, the salt not only serves in the structuring of the composite but also becomes an integral active part of it. Here, the addition of sodium thiocyanate to a titania precursor guides, on the one hand, the formation of needleshaped nanoparticles and, on the other hand, forms yellow compound isoperthiocyanic acid, which is homogeneously incorporated into the porous nanocomposite. Compared to a pure titania reference, this material reveals a 7-fold-increased photodegradation rate of Rhodamine B as a model compound. This reveals the reactive hypersaline route to be a promising and facile synthesis route toward photoactive porous materials.

Published
2017

13. Advanced physico-chemical characterization of chitosan by means of TGA coupled on-line with FTIR and GCMS: Thermal degradation and water adsorption capacity

Author

Corazzari, I, Nistico', R, Turci, F, Faga, M, Franzoso, F, Tabasso, S, Magnacca, G, Corazzari, Ingrid, NISTICO', ROBERTO, Turci, Francesco, Faga, Maria G., Franzoso, Flavia, Tabasso, Silvia, Magnacca, Giuliana, Corazzari, I, Nistico', R, Turci, F, Faga, M, Franzoso, F, Tabasso, S, Magnacca, G, Corazzari, Ingrid, NISTICO', ROBERTO, Turci, Francesco, Faga, Maria G., Franzoso, Flavia, Tabasso, Silvia, and Magnacca, Giuliana

Abstract

In this study, chitosan, a commercially-available linear polysaccharide mainly used as antibacterial agent, functional coating and drug-delivery system, is investigated to enlighten both water interactions and its thermal stability by using a set of complementary advanced thermal techniques, rarely applied in polysaccharides characterizations. DSC and TGA, here coupled with FTIR and GCMS analysis of the exhausted gas, were used to reveal thermal events and identify degradation products as a function of the temperature: three main steps in chitosan (N-deacetylation degree, DD = 78%) thermal degradation were highlighted and mechanism proposed. In order to make a comparison with other analogous polymeric systems and validate the results obtained, a medical grade chitosan (DD > 93%) and a commercial chitin were investigated too. Moreover, the water adsorption capacity of chitosan (DD = 78%) was followed by using thermo-microgravimetry (TMG) and the distinction between weight losses of both physically and chemically adsorbed water molecules was achieved. The approach followed allows a complete characterization of the thermal behaviors of the chitosan and highlights the need for complementary advanced thermal techniques in the detailed characterization of complex biopolymers.

Published
2015

14. Magnetic materials prepared from natural sources: synthesis, characterization and environmental applications

Author

Franzoso, F, Nisticò, R, Bianco Prevot, A, Tabasso, S, Magnacca, G, Franzoso, Flavia, Nisticò, Roberto, Bianco Prevot, Alessandra, Tabasso, Silvia, Magnacca, Giuliana, Franzoso, F, Nisticò, R, Bianco Prevot, A, Tabasso, S, Magnacca, G, Franzoso, Flavia, Nisticò, Roberto, Bianco Prevot, Alessandra, Tabasso, Silvia, and Magnacca, Giuliana

Abstract

Iron-based nanomaterials have found many applications in several technologic fields, including drug delivery systems or waste-water treatments [1], due to their unique magnetic properties. The main advantage related to the use of iron salts and oxides is their relatively low toxicity and cheapness. In addition, the production of materials containing magnetic nanoparticles (m-NPs) offers advantages over the non-magnetic ones because they can be easily separated from liquid and solid media applying an external magnetic field. However, problems related to this system is that m-NPs tend to easily aggregate and oxidize into the non-magnetic hematite, thus m-NPs need to be stabilized in order to preserve their behaviors. This can be obtained covering m-NPs with protective coatings, such as organic and/or polymeric matrices. Magnetic materials consisting of iron oxide particles (typically magnetite and/or maghemite) dispersed in organic matrices received great attention as a new generation of magnetic-responsive hybrid materials, which combine the features of both components [2]. Chitosans (biopolymers derived from fish industry wastes) and soluble bio-based products (SBOs, macromolecules obtained from green wastes composted) are considered potential candidates for the production of magnetic composites for their very limited cost and for the wastes valorization. Thanks to their complex and versatile structures, these classes of compounds were used and tested in the waste water purification from heavy metals and/or dyes, in marine water bioremediation from oil spills, in membrane technologies, etc. [3,4]. Aim of this study is the synthesis of hybrid systems obtained by alkaline coprecipitation method from Fe (II) and Fe (III) salts in aqueous media in the presence of different amount of chitosans and SBOs [5]. The resulting hybrid magnetic systems are physico-chemical characterized by means of microscopic, diffractometric, spectroscopic, gas-volumetric and thermo-gravimetri

Published
2015

20. Integrated biochemical and chemical processing of municipal bio-based waste to obtain bio based products for multiple uses. The case of soil remediation

Author

Silvia Tabasso, Enzo Montoneri, Roberto Nisticò, Marco Ginepro, Lorenzo Tomasso, Matteo Francavilla, Tabasso, S, Ginepro, M, Tomasso, L, Montoneri, E, Nistico', R, and Francavilla, M

Subjects
Biopolymer, CHIM/03 - CHIMICA GENERALE ED INORGANICA, Strategy and Management, Raw material, engineering.material, Industrial and Manufacturing Engineering, law.invention, Biopolymers, law, Filtration, General Environmental Science, Pollutant, Soil washing, Renewable Energy, Sustainability and the Environment, Compost, Extraction (chemistry), Municipal bio-waste, Heavy metals, Pulp and paper industry, Heavy metal, Digestate, engineering, Environmental science, Value added, Sludge
Abstract

In line with the Green Supply Chain Management, Sustainable Supply Chain Management and Natural-Resource-Based Views (NRBV), the present study is as further step of a long range research program initiated in 2004. The project aims to demonstrate municipal bio-waste (MBW) as feedstock to produce bio based chemicals alternative to fossil sourced products. Previous work demonstrated MBW as source of polymeric biosurfactants (BPS) with multiple properties for use in chemical and agriculture sectors. The present paper reports now a new BPS feature, i.e. that BPS are efficient active principles for soil remediation. The study involves three BPS obtained by alkaline hydrolysis from different streams of an MBW treatment plant: the anaerobic digestate of food kitchen waste (FORSUD), the compost (CV) of gardening residues and the compost (CVDF) of a mix of gardening residues, digestate and sewage sludge. The BPS have 5 to over 750 kg/mol molecular weight, characterized by the presence of aliphatic C chains substituted by aromatic moieties and several different acid and basic functional groups. They were used at 0.1–100 g L−1 in aqueous solution to wash soil sampled from an Italian metal polluted site. Collected data statistical analysis was carried out by ANOVA. The recovered washing solutions were analyzed for Cu, Cr, Ni, Zn, Pb. The 50–100 g/L CVDF BPS solutions exhibited 98-81% extraction efficiency, compared to 70-60% for CV and FORSUD. Compared to conventional commercial extractants, CVDF BPS extraction efficiency ranked as CVDF = diethylene triamine pentaacetic acid > ethylene diamine tetraacetic acid > sodium dodecyl sulphate. A new two steps process was studied: (1) use of BPS solution for washing the polluted soil; (2) treating the recovered solution by acidification and membrane filtration to separate a pollutant concentrate from water for further use. Results indicate membrane filtration more efficient and/or sustainable. They confirm BPS as value added products upgrading MBW from societal cost to source of benefits.

Published
2020

21. Urease inhibitory potential and soil ecotoxicity of novel 'polyphenols - Deep Eutectic Solvents' formulations

Author

Giorgio Grillo, Giancarlo Cravotto, Paola Galletti, Stefano Ciurli, Andrea Pasteris, Chiara Samorì, Luca Mazzei, Elena Guidi, Silvia Tabasso, Samori C., Mazzei L., Ciurli S., Cravotto G., Grillo G., Guidi E., Pasteris A., Tabasso S., and Galletti P.

Subjects
Deep eutectic solvent, Urease, General Chemical Engineering, anti-urease activity, phytotoxicity, earthworms, chemistry.chemical_compound, Deep eutectic solvents, polyphenols, grape by-products, anti-oxidant potential, Environmental Chemistry, Grape byproduct, biology, Antiurease activity, Renewable Energy, Sustainability and the Environment, Pomace, food and beverages, General Chemistry, Antioxidant potential, chemistry, Polyphenol, Earthworm, biology.protein, Urea, Phytotoxicity, Citric acid, Ethylene glycol, Nuclear chemistry, Choline chloride
Abstract

New formulations based on red grape pomace polyphenols and deep eutectic solvents (DES) have been here evaluated as inhibitors of urease of agricultural interest (jack bean urease, JBU). DES based on choline chloride (CHO) and betaine (BET), combined with ethylene glycol (EG), citric acid (CA), and urea (U), were used both as extracting and carrying agents for polyphenols, becoming active components of the formulations here obtained. Among the various DES combinations, U- and CA-based ones gave the best polyphenol extraction performances, 1.2-1.4-times higher than those of the hydroalcoholic mixture. Among the various DES-polyphenols formulations, the one composed by CHO-EG showed the best antioxidant potential and urease inhibition: 60-90% inhibition of the total JBU activity was achieved with a CHO concentration of 5-20 mM. Good results were also achieved with the BET-EG polyphenol formulation, which was able to inhibit ca. 50% of urease activity at 20 mM concentration of BET. Low phytotoxicity of DES and their polyphenol formulations tested at a concentration of 34 mM of CHO or BET was here observed on cress seedlings and the early growth of oat, in particular, for EG-based DES. On the other hand, tests performed on earthworms showed that CHO-based DES could impair the reproduction, and U-based DES caused severe mortality.

Published
2019

22. Advanced physico-chemical characterization of chitosan by means of TGA coupled on-line with FTIR and GCMS: Thermal degradation and water adsorption capacity

Author

Silvia Tabasso, Flavia Franzoso, Maria Giulia Faga, Roberto Nisticò, Francesco Turci, Ingrid Corazzari, Giuliana Magnacca, Corazzari, I, Nistico', R, Turci, F, Faga, M, Franzoso, F, Tabasso, S, and Magnacca, G

Subjects
CHIM/03 - CHIMICA GENERALE ED INORGANICA, Biopolymer, Materials science, Polymers and Plastics, engineering.material, Hygroscopic property, Water loss, Chitosan, chemistry.chemical_compound, Adsorption, Coating, Chitin, Thermal degradation, Materials Chemistry, Organic chemistry, Thermal stability, Fourier transform infrared spectroscopy, Antibacterial agent, Condensed Matter Physics, chemistry, Chemical engineering, Mechanics of Materials, engineering, Degradation (geology), Water lo
Abstract

In this study, chitosan, a commercially-available linear polysaccharide mainly used as antibacterial agent, functional coating and drug-delivery system, is investigated to enlighten both water interactions and its thermal stability by using a set of complementary advanced thermal techniques, rarely applied in polysaccharides characterizations. DSC and TGA, here coupled with FTIR and GCMS analysis of the exhausted gas, were used to reveal thermal events and identify degradation products as a function of the temperature: three main steps in chitosan (N-deacetylation degree, DD = 78%) thermal degradation were highlighted and mechanism proposed. In order to make a comparison with other analogous polymeric systems and validate the results obtained, a medical grade chitosan (DD > 93%) and a commercial chitin were investigated too. Moreover, the water adsorption capacity of chitosan (DD = 78%) was followed by using thermo-microgravimetry (TMG) and the distinction between weight losses of both physically and chemically adsorbed water molecules was achieved. The approach followed allows a complete characterization of the thermal behaviors of the chitosan and highlights the need for complementary advanced thermal techniques in the detailed characterization of complex biopolymers.

Published
2015

23. Reactive hypersaline route: One-pot synthesis of porous photoactive nanocomposites

Author

Nina Fechler, Giuliana Magnacca, Silvia Tabasso, Menny Shalom, Roberto Nisticò, Thomas Jordan, Nistico', R, Tabasso, S, Magnacca, G, Jordan, T, Shalom, M, and Fechler, N

Subjects
CHIM/03 - CHIMICA GENERALE ED INORGANICA, One-pot synthesis, Salt (chemistry), Nanoparticle, 02 engineering and technology, 010402 general chemistry, Sodium thiocyanate, 01 natural sciences, chemistry.chemical_compound, Porous material, porous nanocomposite, one-pot synthesis, photoactivity, titania, sodium thiocyanate, Photodegradation, one-pot synthesis, Electrochemistry, Rhodamine B, Organic chemistry, titania, General Materials Science, Porous nanocomposite, Spectroscopy, chemistry.chemical_classification, Nanocomposite, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Model compound, 0104 chemical sciences, Photodegradation rate, Aqueous media, chemistry, Chemical engineering, Shaped nanoparticle, Titanium dioxide, One-pot synthesi, Facile synthesi, 0210 nano-technology, Porous medium, photoactivity
Abstract

Herein, porous photoactive nanocomposites are prepared by a simple one-pot synthesis approach using a salt and aqueous media. Within this reactive hypersaline route, the salt not only serves in the structuring of the composite but also becomes an integral active part of it. Here, the addition of sodium thiocyanate to a titania precursor guides, on the one hand, the formation of needle-shaped nanoparticles and, on the other hand, forms yellow compound isoperthiocyanic acid, which is homogeneously incorporated into the porous nanocomposite. Compared to a pure titania reference, this material reveals a 7-fold-increased photodegradation rate of Rhodamine B as a model compound. This reveals the reactive hypersaline route to be a promising and facile synthesis route toward photoactive porous materials.

Published
2017

24. Magnetic materials prepared from natural sources: synthesis, characterization and environmental applications

Author

Franzoso, Flavia, Nisticò, Roberto, Bianco Prevot, Alessandra, Tabasso, Silvia, Magnacca, Giuliana, Franzoso, F, Nisticò, R, Bianco Prevot, A, Tabasso, S, and Magnacca, G

Subjects
CHIM/03 - CHIMICA GENERALE ED INORGANICA, Magnetic materials
Abstract

Iron-based nanomaterials have found many applications in several technologic fields, including drug delivery systems or waste-water treatments [1], due to their unique magnetic properties. The main advantage related to the use of iron salts and oxides is their relatively low toxicity and cheapness. In addition, the production of materials containing magnetic nanoparticles (m-NPs) offers advantages over the non-magnetic ones because they can be easily separated from liquid and solid media applying an external magnetic field. However, problems related to this system is that m-NPs tend to easily aggregate and oxidize into the non-magnetic hematite, thus m-NPs need to be stabilized in order to preserve their behaviors. This can be obtained covering m-NPs with protective coatings, such as organic and/or polymeric matrices. Magnetic materials consisting of iron oxide particles (typically magnetite and/or maghemite) dispersed in organic matrices received great attention as a new generation of magnetic-responsive hybrid materials, which combine the features of both components [2]. Chitosans (biopolymers derived from fish industry wastes) and soluble bio-based products (SBOs, macromolecules obtained from green wastes composted) are considered potential candidates for the production of magnetic composites for their very limited cost and for the wastes valorization. Thanks to their complex and versatile structures, these classes of compounds were used and tested in the waste water purification from heavy metals and/or dyes, in marine water bioremediation from oil spills, in membrane technologies, etc. [3,4]. Aim of this study is the synthesis of hybrid systems obtained by alkaline coprecipitation method from Fe (II) and Fe (III) salts in aqueous media in the presence of different amount of chitosans and SBOs [5]. The resulting hybrid magnetic systems are physico-chemical characterized by means of microscopic, diffractometric, spectroscopic, gas-volumetric and thermo-gravimetric analyses and tested as adsorbent materials for the abatement of cationic dyes, representing model pollutants, in aqueous environment. [1] Boris I. Kharisov, et al., RSC Advances 2 (2012) 9325–9358. [2] S. Babel, et al.,J. Hazard. Mater. 97 (2003) 219-243. [3] W.S. Wan Ngah, et al., Carbohyd. Polym. 83 (2011) 1446-1456. [4] M.D. Baxter; et al., Industrial & engineering chemistry research 53 (2014) 3612-3621. [5] G. Magnacca, et al., ACS Sustainable Chem. Eng. 2 (2014) 1518-1524

Published
2015

25. Upgrading hazelnut skins: Green extraction of polyphenols from lab to semi-industrial scale.

Author

Capaldi G, Voss M, Tabasso S, Stefanetti V, Branciari R, Chaji S, Grillo G, Cravotto C, Tagliazucchi D, Fiego DPL, Marinucci MT, Roila R, Natalello A, Pravettoni D, Cravotto G, and Forte C

Subjects
Green Chemistry Technology, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents isolation & purification, Nuts chemistry, Corylus chemistry, Polyphenols chemistry, Polyphenols isolation & purification, Polyphenols pharmacology, Plant Extracts chemistry, Plant Extracts isolation & purification, Plant Extracts pharmacology, Antioxidants chemistry, Antioxidants pharmacology, Antioxidants isolation & purification
Abstract

Hazelnut skins (HS) are usually managed as waste; however, this by-product is a source of bioactive compounds, with potential applications in feed and food sectors. Phenolic compounds can be extracted using green protocols combining enabling technologies and green solvents. This work investigates subcritical water extraction (SWE) of bioactive compounds from HS. A laboratory-scale study was performed on four different batches, with significant batch-to-batch heterogeneity. The evaluation of polyphenolic profiles and antioxidant activities afforded promising results compared to the benchmark of reflux maceration. To evaluate process effectiveness, the extraction protocol was replicated on a semi-industrial plant that processed 8 kg of matrix. Downstream processes have been optimized for scale-up, demonstrating the effectiveness of SWE in retaining product concentration and bioactivity avoiding excipients in spray-drying phase. Hazelnut extracts exhibited antibacterial properties against animal- and food-borne pathogens, supporting their potential use as sustainable feed ingredients for improved hazelnut production and animal farming practices., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2025
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26. Batch and Flow Green Microwave-Assisted Catalytic Conversion Of Levulinic Acid to Pyrrolidones.

Author

Calcio Gaudino E, Manzoli M, Testa ML, La Parola V, Grillo G, Cravotto G, Acciardo E, and Tabasso S

Abstract

This paper reports a new sustainable protocol for the microwave-assisted catalytic conversion of levulinic acid into N-substituted pyrrolidones over tailor-made mono (Pd, Au) or bimetallic (PdAu) catalysts supported on either highly mesoporous silica (HMS) or titania-doped HMS, exploiting the advantages of dielectric heating. MW-assisted reductive aminations of levulinic acid with several amines were first optimized in batch mode under hydrogen pressure (5 bar) in solvent-free conditions. Good-to-excellent yields were recorded at 150 °C in 90 min over the PdTiHMS and PdAuTiHMS, that proved recyclable and almost completely stable after six reaction cycles. Aiming to scale-up this protocol, a MW-assisted flow reactor was used in combination with different green solvents. Cyclopentyl methyl ether (CPME) provided a 99 % yield of N-(4-methoxyphenyl) pyrrolidin-2-one at 150 °C over PdTiHMS. The described MW-assisted flow synthesis proves to be a safe procedure suitable for further industrial applications, while averting the use of toxic organic solvents., (© 2023 The Authors. ChemSusChem published by Wiley-VCH GmbH.)

Published
2024
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27. Leading Edge Technologies and Perspectives in Industrial Oilseed Extraction.

Author

Cravotto C, Claux O, Bartier M, Fabiano-Tixier AS, and Tabasso S

Subjects
Head, Industry, Plant Oils, Solvents, Ethanol, Food
Abstract

With the increase in the world's population and per capita wealth, oil producers must not only increase edible oil production but also meet the demand for a higher quality and variety of products. Recently, the focus has shifted from single processing steps to the entire vegetable oil production process, with an emphasis on introducing innovative technologies to improve quality and production efficiency. In this review, conventional methods of oilseed storage, processing and extraction are presented, as well as innovative processing and extraction techniques. Furthermore, the parameters most affecting the products' yields and quality at the industrial level are critically described. The extensive use of hexane for the extraction of most vegetable oils is undoubtedly the main concern of the whole production process in terms of health, safety and environmental issues. Therefore, special attention is paid to environmentally friendly solvents such as ethanol, supercritical CO 2 , 2-methyloxolane, water enzymatic extraction, etc. The state of the art in the use of green solvents is described and an objective assessment of their potential for more sustainable industrial processes is proposed.

Published
2023
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28. Food-Waste Valorisation: Synergistic Effects of Enabling Technologies and Eutectic Solvents on the Recovery of Bioactives from Violet Potato Peels.

Author

Grillo G, Tabasso S, Capaldi G, Radosevic K, Radojčić-Redovniković I, Gunjević V, Calcio Gaudino E, and Cravotto G

Abstract

The recovery of valuable bioactive compounds from the main underutilised by-products of the food industry is one of the greatest challenges to be addressed in circular economy. Potato peels are the largest waste generated during potato processing. However, they could be a potential source of valuable bioactive compounds, such as polyphenols, that can be reused as natural antioxidants. Currently, environmentally benign enabling technologies and new types of non-toxic organic solvents for the extraction of bioactive compounds may dramatically improve the sustainability of these processes. This paper focuses on the potential inherent in the valorisation of violet potato peels (VPPs) by recovering antioxidants using natural deep eutectic solvents (NaDES) under ultrasound (US)- and microwave (MW)-assisted extraction. Both the enabling technologies provided performances that were superior to those of conventional extractions in terms of antioxidant activity determined by the DPPH· (2,2-diphenyl-1-picrylhydrazyl) assay. In particular, the most promising approach using NaDES is proven to be the acoustic cavitation with a Trolox eq. of 1874.0 mmol TE /g Extr (40 °C, 500 W, 30 min), vs. the 510.1 mmol TE /g Extr of hydroalcoholic extraction (80 °C, 4 h). The shelf-life of both hydroalcoholic and NaDES-VPPs extracts have been assessed over a period of 24 months, and found that NaDES granted a 5.6-fold shelf-life extension. Finally, the antiproliferative activity of both hydroalcoholic and NaDES-VPPs extracts was evaluated in vitro using the MTS assay on human tumour Caco-2 cells and normal human keratinocyte cells (HaCaT). In particular, NaDES-VPPs extracts exhibited a significantly more pronounced antiproliferative activity compared to the ethanolic extracts without a noteworthy difference between effects on the two cell lines.

Published
2023
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29. Towards Substitution of Hexane as Extraction Solvent of Food Products and Ingredients with No Regrets.

Author

Cravotto C, Fabiano-Tixier AS, Claux O, Abert-Vian M, Tabasso S, Cravotto G, and Chemat F

Abstract

Hexane is a solvent used extensively in the food industry for the extraction of various products such as vegetable oils, fats, flavours, fragrances, colour additives or other bioactive ingredients. As it is classified as a "processing aid", it does not have to be declared on the label under current legislation. Therefore, although traces of hexane may be found in final products, especially in processed products, its presence is not known to consumers. However, hexane, and in particular the n -hexane isomer, has been shown to be neurotoxic to humans and has even been listed as a cause of occupational diseases in several European countries since the 1970s. In order to support the European strategy for a toxic-free environment (and toxic-free food), it seemed important to collect scientific information on this substance by reviewing the available literature. This review contains valuable information on the nature and origin of the solvent hexane, its applications in the food industry, its toxicological evaluation and possible alternatives for the extraction of natural products. Numerous publications have investigated the toxicity of hexane, and several studies have demonstrated the presence of its toxic metabolite 2,5-hexanedione (2,5-HD) in the urine of the general, non-occupationally exposed population. Surprisingly, a tolerable daily intake (TDI) has apparently never been established by any food safety authority. Since hexane residues are undoubtedly found in various foods, it seems more than necessary to clearly assess the risks associated with this hidden exposure. A clear indication on food packaging and better information on the toxicity of hexane could encourage the industry to switch towards one of the numerous other alternative extraction methods already developed.

Published
2022
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30. Lignin as a Natural Carrier for the Efficient Delivery of Bioactive Compounds: From Waste to Health.

Author

Verdini F, Gaudino EC, Canova E, Tabasso S, Behbahani PJ, and Cravotto G

Subjects
Antioxidants pharmacology, Excipients, Lignin chemistry
Abstract

Lignin is a fascinating aromatic biopolymer with high valorization potentiality. Besides its extensive value in the biorefinery context, as a renewable source of aromatics lignin is currently under evaluation for its huge potential in biomedical applications. Besides the specific antioxidant and antimicrobial activities of lignin, that depend on its source and isolation procedure, remarkable progress has been made, over the last five years, in the isolation, functionalization and modification of lignin and lignin-derived compounds to use as carriers for biologically active substances. The aim of this review is to summarize the current state of the art in the field of lignin-based carrier systems, highlighting the most important results. Furthermore, the possibilities and constraints related to the physico-chemical properties of the lignin source will be reviewed herein as well as the modifications and processing required to make lignin suitable for the loading and release of active compounds.

Published
2022
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31. Higher Yield and Polyphenol Content in Olive Pomace Extracts Using 2-Methyloxolane as Bio-Based Solvent.

Author

Cravotto C, Fabiano-Tixier AS, Claux O, Rapinel V, Tomao V, Stathopoulos P, Skaltsounis AL, Tabasso S, Jacques L, and Chemat F

Abstract

Despite its severe toxicity and negative environmental impact, hexane remain the solvent of choice for the extraction of vegetable oils. This is in contrast with the constantly growing demand for sustainable and green extraction processes. In recent years a variety of alternatives to hexane have been reported, among them 2-methyloxolane (2-MeOx), which has emerged as a promising bio-based alternative. This study evaluates the possibility of replacing hexane, in the extraction of olive pomace (OP), with 2-MeOx, both dry and saturated with water (4.5%), the latter of which is called 2-MeOx 95.5%. The three solvents have been compared in terms of extraction yield and quality, as well as the lipid and polyphenol profiles of the extracts. The work concluded that both dry 2-MeOx and 2-MeOx 95.5% can replace hexane in OP extraction, resulting in higher yields and extracts richer in phenolic compounds. This study should open the road to further semi-industrial scale investigations toward more sustainable production processes.

Published
2022
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32. Mechanochemical Applications of Reactive Extrusion from Organic Synthesis to Catalytic and Active Materials.

Author

Calcio Gaudino E, Grillo G, Manzoli M, Tabasso S, Maccagnan S, and Cravotto G

Abstract

In the past, the use of mechanochemical methods in organic synthesis was reported as somewhat of a curiosity. However, perceptions have changed over the last two decades, and this technology is now being appreciated as a greener and more efficient synthetic method. The qualified "offer" of ball mills that make use of different set-ups, materials, and dimensions has allowed this technology to mature. Nevertheless, the intrinsic batch nature of mechanochemical methods hinders industrial scale-ups. New studies have found, in reactive extrusion, a powerful technique with which to activate chemical reactions with mechanical forces in a continuous flow. This new environmentally friendly mechanochemical synthetic method may be able to miniaturize production plants with outstanding process intensifications by removing organic solvents and working in a flow mode. Compared to conventional processes, reactive extrusions display high simplicity, safety, and cleanliness, which can be exploited in a variety of applications. This paper presents perspective examples in the better-known areas of reactive extrusions, including oxidation reactions, polymer processing, and biomass conversion. This work should stimulate further developments, as it highlights the versatility of reactive extrusion and the huge potential of solid-phase flow chemistry.

Published
2022
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33. Sono- and mechanochemical technologies in the catalytic conversion of biomass.

Author

Calcio Gaudino E, Cravotto G, Manzoli M, and Tabasso S

Subjects
Catalysis, Cellulose chemistry, Hydrogenation, Oxidation-Reduction, Biomass, Sonication
Abstract

This tutorial review focuses on the valorisation of biomass by sonochemical and mechanochemical activation. Although several of the examples reported herein rely on the use of model compounds rather than native feedstocks, the conversion of lignocellulosic fractions into valuable compounds is a great opportunity with which to more sustainably exploit natural resources, from environmental, economic and social points of view. The use of non-conventional technologies that generate high-energy microenvironments can improve biomass deconstruction and the accessibility of catalysts, granting higher conversion and selectivity. The critical parameters in sonochemical and mechanochemical conversions have been analysed together with the most common devices and reactors, and the potential of sonocatalysis and mechanocatalysis as emerging tools for both catalytic and biocatalytic biomass conversion will be discussed. A SWOT (strengths, weaknesses, opportunities and threats) analysis will provide an overview of the effective feasibility of these approaches in a biorefinery context. Although these technologies offer indisputable advantages (mild reaction conditions, enhanced reaction rates and mass transfer), their mechanisms and the systematic adjustment of parameters to give optimal outcomes still require further investigation, which will pave the way for reproducible and scalable experiments. Indeed, process scale-up can be accomplished both in batch and flow mode. However, results are not particularly predictable, despite the accurate control of instrumental variables, because of the variability found in biomass sources and the complexity inherent in structures.

Published
2021
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34. Green Deep Eutectic Solvents for Microwave-Assisted Biomass Delignification and Valorisation.

Author

Grillo G, Calcio Gaudino E, Rosa R, Leonelli C, Timonina A, Grygiškis S, Tabasso S, and Cravotto G

Subjects
Green Chemistry Technology, Biomass, Lignin chemistry, Lignin isolation & purification, Microwaves, Solvents chemistry
Abstract

Aiming to fulfil the sustainability criteria of future biorefineries, a novel biomass pretreatment combining natural deep eutectic solvents (NaDESs) and microwave (MW) technology was developed. Results showed that NaDESs have a high potential as green solvents for lignin fractionation/recovery and sugar release in the following enzymatic hydrolysis. A new class of lignin derived NaDESs (LigDESs) was also investigated, showing promising effects in wheat straw delignification. MW irradiation enabled a fast pretreatment under mild condition (120 °C, 30 min). To better understand the interaction of MW with these green solvents, the dielectric properties of NaDESs were investigated. Furthermore, a NaDES using the lignin recovered from biomass pretreatment as hydrogen bond donor was prepared, thus paving the way for a "closed-loop" biorefinery process.

Published
2021
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35. Emerging Processing Technologies for the Recovery of Valuable Bioactive Compounds from Potato Peels.

Author

Calcio Gaudino E, Colletti A, Grillo G, Tabasso S, and Cravotto G

Abstract

Potato peel (PP) is the major underutilised by-product in the potato-processing industry and a potential source of valuable bioactive molecules. Among them, glycoalkaloids and polyphenols are important precursors for steroid hormones and natural antioxidants, respectively. Moreover, the huge quantities of industrial potato-peel waste that are produced are a rich source of primary metabolites, which principally include starch as well as non-starch polysaccharides, proteins, lipids, lignin and cellulose. All carbohydrates are prone to undergo fermentation to produce ethanol, lactic and acetic acid. Finally, the main portion of PP is made up of alcohol-insoluble matter with a dietary fibre content of approximatively 40%. The present review summarises the recent advances and emerging technologies in potato-peel extraction and further valorisation processing in the food industry.

Published
2020
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36. A smart use of biomass derivatives to template an ad hoc hierarchical SAPO-5 acid catalyst.

Author

Mariatti F, Miletto I, Paul G, Marchese L, Tabasso S, Manzoli M, Cravotto G, and Gianotti E

Abstract

A smart design of hierarchical SAPO-5 acid catalyst using biomass derived monosaccharides as sustainable and low-cost mesoporogens has been developed. The hierarchical SAPO-5 was characterized by several physico-chemical techniques to elucidate structure-properties relationships and was tested as a catalyst in the MW-assisted glucose transformation in 5-HMF using γ-valerolactone (GVL) as green solvent., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2020
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37. Microwave-Assisted Protocol for Green Functionalization of Thiophenes With a Pd/β-Cyclodextrin Cross-Linked Nanocatalyst.

Author

Tabasso S, Calcio Gaudino E, Acciardo E, Manzoli M, Bonelli B, and Cravotto G

Abstract

Microwaves (MW) are often the most efficient, in terms of heat exchange and conversion rate, of all the energy sources used to promote chemical reactions thanks to fast volumetric dielectric heating, and metal-catalyzed synthetic reactions under heterogeneous conditions are an eloquent example. We herein report a MW-assisted green protocol for the C-H arylation of thiophenes with substituted aryl halides. This sustainable protocol carried out in γ-valerolactone (GVL) is catalyzed by Pd nanoparticles embedded in cross-linked β-cyclodextrin. In view of the excellent results achieved with activated substrates, the one-pot synthesis of a 4( 3H )-quinazolinone derivative has been accomplished. A pressure-resistant MW reactor, equipped with multiple gas inlets, was used for sequential (i) C-H arylation, (ii) reduction, and (iii) carbonylation in the presence of the same catalyst, but under different gas atmospheres. The robust heterogeneous Pd catalyst showed limited metal leaching in GVL, making this an efficient MW-assisted process with high atom economy., (Copyright © 2020 Tabasso, Calcio Gaudino, Acciardo, Manzoli, Bonelli and Cravotto.)

Published
2020
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38. Cross-Linked Cyclodextrins Bimetallic Nanocatalysts: Applications in Microwave-Assisted Reductive Aminations.

Author

Calcio Gaudino E, Acciardo E, Tabasso S, Manzoli M, Cravotto G, and Varma RS

Subjects
Amination, Amines chemistry, Benzaldehydes chemistry, Catalysis, Copper chemistry, Palladium chemistry, beta-Cyclodextrins chemistry, Cross-Linking Reagents chemistry, Cyclodextrins chemistry, Metals chemistry, Microwaves, Nanoparticles chemistry
Abstract

The optimization of sustainable protocols for reductive amination has been a lingering challenge in green synthesis. In this context, a comparative study of different metal-loaded cross-linked cyclodextrins (CDs) were examined for the microwave (MW)-assisted reductive amination of aldehydes and ketones using either H 2 or formic acid as a hydrogen source. The Pd/Cu heterogeneous nanocatalyst based on Pd (II) and Cu (I) salts embedded in a β-CD network was the most efficient in terms of yield and selectivity attained. In addition, the polymeric cross-linking avoided metal leaching, thus enhancing the process sustainability; good yields were realized using benzylamine under H 2 . These interesting findings were then applied to the MW-assisted one-pot synthesis of secondary amines via a tandem reductive amination of benzaldehyde with nitroaromatics under H 2 pressure. The formation of a Cu x Pd y alloy under reaction conditions was discerned, and a synergic effect due to the cooperation between Cu and Pd has been hypothesized. During the reaction, the system worked as a bifunctional nanocatalyst wherein the Pd sites facilitate the reduction of nitro compounds, while the Cu species promote the subsequent imine hydrogenation affording structurally diverse secondary amines with high yields.

Published
2020
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39. Microwave-Assisted Dehydrogenative Cross Coupling Reactions in γ-valerolactone with a Reusable Pd/β-cyclodextrin Crosslinked Catalyst.

Author

Tabasso S, Gaudino EC, Acciardo E, Manzoli M, Giacomino A, and Cravotto G

Subjects
Catalysis, Oxidation-Reduction, Protein Binding, X-Ray Diffraction, Lactones chemistry, Microwaves, Oxidative Coupling, Palladium chemistry, beta-Cyclodextrins chemistry
Abstract

Transition-metal mediated C⁻H bond activation and functionalization is one of the most straightforward and powerful tools in modern organic synthetic chemistry. Oxidative C⁻H/C⁻H coupling reactions between two (hetero)arenes under heterogeneous catalysis may be a valuable means for the production of a plethora of bi(hetero)aryls, and one that adheres to the increasing demand for atom-economic and sustainable chemistry. We have therefore developed a reusable heterogeneous catalytic system, which is based on Pd cross-linked β-cyclodextrin, to perform an efficient microwave-assisted oxidative C⁻H/C⁻H cross coupling process between benzothiazoles and methyl thiophene in the presence of green solvents., Competing Interests: The authors declare no conflict of interest.

Published
2019
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40. Reactive Hypersaline Route: One-Pot Synthesis of Porous Photoactive Nanocomposites.

Author

Nisticò R, Tabasso S, Magnacca G, Jordan T, Shalom M, and Fechler N

Abstract

Herein, porous photoactive nanocomposites are prepared by a simple one-pot synthesis approach using a salt and aqueous media. Within this reactive hypersaline route, the salt not only serves in the structuring of the composite but also becomes an integral active part of it. Here, the addition of sodium thiocyanate to a titania precursor guides, on the one hand, the formation of needle-shaped nanoparticles and, on the other hand, forms yellow compound isoperthiocyanic acid, which is homogeneously incorporated into the porous nanocomposite. Compared to a pure titania reference, this material reveals a 7-fold-increased photodegradation rate of Rhodamine B as a model compound. This reveals the reactive hypersaline route to be a promising and facile synthesis route toward photoactive porous materials.

Published
2017
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41. Bioherbicidal activity of a germacranolide sesquiterpene dilactone from Ambrosia artemisiifolia L.

Author

Molinaro F, Monterumici CM, Ferrero A, Tabasso S, and Negre M

Subjects
Allelopathy, Chromatography, Liquid, Lactones chemistry, Lactones isolation & purification, Lactones pharmacology, Magnetic Resonance Spectroscopy, Molecular Structure, Plant Extracts chemistry, Plant Extracts toxicity, Raphanus drug effects, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Sesquiterpenes, Germacrane chemistry, Sesquiterpenes, Germacrane isolation & purification, Spectroscopy, Fourier Transform Infrared, Tandem Mass Spectrometry, Toxicity Tests methods, Ambrosia chemistry, Germination drug effects, Plant Extracts pharmacology, Sesquiterpenes, Germacrane pharmacology
Abstract

Ambrosia artemisiifolia L. (common ragweed) is an invasive plant whose allelopathic properties have been suggested by its field behaviour and demonstrated through phytotoxicity bioassays. However, the nature of the molecules responsible for the allelopathic activity of common ragweed has not been explored. The main objective of this study was to identify the phytotoxic molecules produced by A. artemisiifolia. A preliminary investigation has indicated that a methanol extract of A. artemisiifolia completely inhibited the germination of cress and radish. Semi-preparative fractionation of the methanol extract allowed separating of phytotoxic fraction which contained a single compound. The structure of this compound was elucidated by liquid chromatography-mass spectrometry (LC-MS)/MS, high-resolution mass spectral, nuclear magnetic resonance, and Fourier transform infrared spectra as sesquiterpene lactone isabelin (C 15 H 16 O 4 ). The effect of pure isabelin was tested on four different weed species, confirming the inhibitory activity of molecule. The results indicate directions for the future studies about herbicidal specific activity of isabelin, as pure molecule or in the crude extract, as a potential candidate for biological weed control.

Published
2016
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42. Microwave-Assisted γ-Valerolactone Production for Biomass Lignin Extraction: A Cascade Protocol.

Author

Tabasso S, Grillo G, Carnaroglio D, Calcio Gaudino E, and Cravotto G

Subjects
Biomass, Hydrogenation, Hydrolysis, Levulinic Acids chemistry, Lignin chemical synthesis, Microwaves, Solvents chemistry, Biofuels, Lactones chemistry, Lignin chemistry
Abstract

The general need to slow the depletion of fossil resources and reduce carbon footprints has led to tremendous effort being invested in creating "greener" industrial processes and developing alternative means to produce fuels and synthesize platform chemicals. This work aims to design a microwave-assisted cascade process for a full biomass valorisation cycle. GVL (γ-valerolactone), a renewable green solvent, has been used in aqueous acidic solution to achieve complete biomass lignin extraction. After lignin precipitation, the levulinic acid (LA)-rich organic fraction was hydrogenated, which regenerated the starting solvent for further biomass delignification. This process does not requires a purification step because GVL plays the dual role of solvent and product, while the reagent (LA) is a product of biomass delignification. In summary, this bio-refinery approach to lignin extraction is a cascade protocol in which the solvent loss is integrated into the conversion cycle, leading to simplified methods for biomass valorisation.

Published
2016
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43. Enabling technologies built on a sonochemical platform: challenges and opportunities.

Author

Cintas P, Tagliapietra S, Caporaso M, Tabasso S, and Cravotto G

Subjects
Acoustics, Chemistry instrumentation, Hydrodynamics, Mechanical Phenomena, Microwaves, Chemistry methods, Ultrasonic Waves
Abstract

Scientific and technological progress now occurs at the interface between two or more scientific and technical disciplines while chemistry is intertwined with almost all scientific domains. Complementary and synergistic effects have been found in the overlay between sonochemistry and other enabling technologies such as mechanochemistry, microwave chemistry and flow-chemistry. Although their nature and effects are intrinsically different, these techniques share the ability to significantly activate most chemical processes and peculiar phenomena. These studies offer a comprehensive overview of sonochemistry, provide a better understanding of correlated phenomena (mechanochemical effects, hot spots, etc.), and pave the way for emerging applications which unite hybrid reactors., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2015
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44. From lignocellulosic biomass to lactic- and glycolic-acid oligomers: a gram-scale microwave-assisted protocol.

Author

Carnaroglio D, Tabasso S, Kwasek B, Bogdal D, Gaudino EC, and Cravotto G

Subjects
Catalysis, Feasibility Studies, Kinetics, Biomass, Glycolates chemistry, Lignin chemistry, Microwaves
Abstract

The conversion of lignocellulosic biomass into platform chemicals is the key step in the valorization of agricultural waste. Of the biomass-derived platform chemicals currently produced, lactic acid plays a particularly pivotal role in modern biorefineries as it is a versatile commodity chemical and building block for the synthesis of biodegradable polymers. Microwave-assisted processes that furnish lactic acid avoid harsh depolymerization conditions while cutting down reaction time and energy consumption. We herein report a flash catalytic conversion (2 min) of lignocellulosic biomass into lactic and glycolic acids under microwave irradiation. The batch procedure was successfully adapted to a microwave-assisted flow process (35 mL min(-1) ), with the aim of designing a scalable process with higher productivity. The C2 and C4 units recovered from the depolymerization were directly used as the starting material for a solvent and catalyst-free microwave-assisted polycondensation that afforded oligomers in good yields., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2015
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45. Chemical modeling of acid-base properties of soluble biopolymers derived from municipal waste treatment materials.

Author

Tabasso S, Berto S, Rosato R, Marinos JA, Ginepro M, Zelano V, Daniele PG, and Montoneri E

Subjects
Soil chemistry, Solubility, Biopolymers chemistry, Models, Chemical, Waste Products
Abstract

This work reports a study of the proton-binding capacity of biopolymers obtained from different materials supplied by a municipal biowaste treatment plant located in Northern Italy. One material was the anaerobic fermentation digestate of the urban wastes organic humid fraction. The others were the compost of home and public gardening residues and the compost of the mix of the above residues, digestate and sewage sludge. These materials were hydrolyzed under alkaline conditions to yield the biopolymers by saponification. The biopolymers were characterized by 13C NMR spectroscopy, elemental analysis and potentiometric titration. The titration data were elaborated to attain chemical models for interpretation of the proton-binding capacity of the biopolymers obtaining the acidic sites concentrations and their protonation constants. The results obtained with the models and by NMR spectroscopy were elaborated together in order to better characterize the nature of the macromolecules. The chemical nature of the biopolymers was found dependent upon the nature of the sourcing materials.

Published
2015
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46. Benefits for agriculture and the environment from urban waste.

Author

Sortino O, Montoneri E, Patanè C, Rosato R, Tabasso S, and Ginepro M

Subjects
Conservation of Natural Resources, Soil chemistry, Agriculture methods, Refuse Disposal methods
Abstract

Soluble bio-based substances (SBO) that have been isolated from urban biowaste have recently been reported to enhance plant leaf chlorophyll content and growth. The same SBO have also been shown to enhance the photochemical degradation of organic pollutants in industrial effluent. These findings suggest that SBO may promote either C fixation or mineralization, according to operating conditions. The present work aims to investigate SBO performance, as a function of source material. Thus, three materials have been sampled from a municipal waste treatment plant: (i) the digestate of the anaerobic fermentation of a humid organic fraction, (ii) a whole vegetable compost made from gardening residues and (iii) compost made from a mixture of digestate, gardening residues and sewage sludge. These materials were hydrolyzed at pH13 and 60°C to yield SBO that display different chemical compositions. These products were applied to soil at 30, 145 and 500 kg ha(-1) doses for tomato cultivation. Soil and plant leaf chemical composition, plant growth, leaf chlorophyll content and CO2 exchange rate as well as fruit quality and production rate were measured. Although it did not affect the soil's chemical composition, SBO were found to significantly increase plant photosynthetic activity, growth and productivity up to the maximum value achieved at 145 kg ha(-1). The effects were analyzed as a function of SBO chemical composition and applied dose. The results of this work, compared with those of previous works, indicate that urban biowaste, if properly exploited, may furnish conjugate economic and environmental benefits, within a friendly sustainable ecosystem., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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47. Strigolactone analogs as molecular probes in chasing the (SLs) receptor/s: design and synthesis of fluorescent labeled molecules.

Author

Prandi C, Rosso H, Lace B, Occhiato EG, Oppedisano A, Tabasso S, Alberto G, and Blangetti M

Subjects
4-Butyrolactone chemistry, 4-Butyrolactone pharmacology, Absorption, Boron Compounds chemistry, Boron Compounds metabolism, Fluorescein chemistry, Fluorescein metabolism, Fluorescent Dyes chemistry, Fluorescent Dyes pharmacology, Furans chemistry, Furans pharmacology, Germination drug effects, Medicago truncatula drug effects, Medicago truncatula growth & development, Plant Roots drug effects, Plant Roots growth & development, Pyrans chemistry, Pyrans pharmacology, 4-Butyrolactone analogs & derivatives, Fluorescent Dyes chemical synthesis, Molecular Probes metabolism, Receptors, Cell Surface metabolism
Abstract

Originally identified as allelochemicals involved in plant-parasite interactions, more recently, Strigolactones (SLs) have been shown to play multiple key roles in the rhizosphere communication between plants and mycorrhizal fungi. Even more recent is the hormonal role ascribed to SLs which broadens the biological impact of these relatively simple molecules. In spite of the crucial and multifaceted biological role of SLs, there are no data on the receptor(s) which bind(s) such active molecules, neither in the producing plants nor in parasitic weeds or AM fungi. Information about the putative receptor of SLs can be gathered by means of structural, molecular, and genetic approaches. Our contribution on this topic is the design and synthesis of fluorescent labeled SL analogs to be used as probes for the detection in vivo of the receptor(s). Knowledge of the putative receptor structure will boost the research on analogs of the natural substrates as required for agricultural applications.

Published
2013
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48. Structure-function relations of strigolactone analogs: activity as plant hormones and plant interactions.

Author

Cohen M, Prandi C, Occhiato EG, Tabasso S, Wininger S, Resnick N, Steinberger Y, Koltai H, and Kapulnik Y

Subjects
4-Butyrolactone chemical synthesis, 4-Butyrolactone chemistry, 4-Butyrolactone pharmacology, Arabidopsis drug effects, Arabidopsis growth & development, Carbazoles chemical synthesis, Carbazoles pharmacology, Germination drug effects, Hyphae drug effects, Hyphae growth & development, Mycorrhizae drug effects, Mycorrhizae growth & development, Orobanche drug effects, Orobanche growth & development, Plant Growth Regulators chemical synthesis, Plant Growth Regulators pharmacology, Seeds drug effects, Seeds growth & development, Structure-Activity Relationship, 4-Butyrolactone analogs & derivatives, 4-Butyrolactone metabolism, Arabidopsis physiology, Carbazoles chemistry, Carbazoles metabolism, Hyphae physiology, Mycorrhizae physiology, Plant Growth Regulators chemistry, Plant Growth Regulators metabolism
Abstract

Strigolactones (SLs) have several functions as signaling molecules in their interactions with symbiotic arbuscular mycorrhizal (AM) fungi and the parasitic weeds Orobanche and Striga. SLs are also a new class of plant hormone regulating plant development. In all three organisms, a specific and sensitive receptor-mediated perception system is suggested. By comparing the activity of synthetic SL analogs on Arabidopsis root-hair elongation, Orobanche aegyptiaca seed germination, and hyphal branching of the AM fungus Glomus intraradices, we found that each of the tested organisms differs in its response to the various examined synthetic SL analogs. Structure-function relations of the SL analogs suggest substitutions on the A-ring as the cause of this variation. Moreover, the description of competitive antagonistic analogs suggests that the A-ring of SL can affect not only affinity to the receptor, but also the molecule's ability to activate it. The results support the conclusion that Arabidopsis, Orobanche, and AM fungi possess variations in receptor sensitivity to SL analogs, probably due to variation in SL receptors among the different species.

Published
2013
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49. Heck reaction on protected 3-alkyl-1,2-dien-1-ols: an approach to substituted 3-alkenylindoles, 2-alkoxy-3-alkylidene-2,3-dihydrobenzofuranes and -indolidines.

Author

Boi T, Deagostino A, Prandi C, Tabasso S, Toppino A, and Venturello P

Subjects
Benzofurans chemistry, Cyclization, Indoles chemistry, Molecular Structure, Stereoisomerism, Alcohols chemistry, Benzofurans chemical synthesis, Indoles chemical synthesis
Abstract

A phosphine-free annulation reaction has been exploited for the preparation of substituted 3-alkenylindoles, 2-alkoxy-3-alkylidene-2,3-dihydrobenzofuranes and -indolidines in good to excellent yields. This has been done by reaction of protected 3-alkyl-1,2-dienols with o-iodophenols or protected o-iodoanilines. Two different heterocyclic skeletons were obtained, depending on the electron-donating properties of the heteroatom involved in the annulation process.

Published
2010
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50. The Heck reaction applied to 1,3- and 1,2-unsaturated derivatives, a way towards molecular complexity.

Author

Deagostino A, Prandi C, Tabasso S, and Venturello P

Subjects
Catalysis, Cyclization, Alkadienes chemistry, Biological Products chemical synthesis, Palladium chemistry
Abstract

This review is an overview of the last ten years' use of the Mizoroki-Heck coupling applied to 1,2- and 1,3-dienes. Since both these systems form pi-allyl palladium intermediates in Pd(0) coupling, they show particular chemical behavior. Many examples of 1,2-dienes Heck reactions are presented. 1,2-Dienes are important substrates because of their high reactivity that makes them useful building blocks for the synthesis of biologically relevant structures.

Published
2010
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