Margarida Martins scite author profile

Products extracted from natural resources are an increasing trend in several fields promoted by consumer demand. Allied to the importance attached to the concept of obtained. In this work, chlorophyll was extracted from batches of wild-harvested and farm-raised green macroalgae spp. from two different European locations, Portugal and France. The performance of different aqueous solutions of tensioactive compounds such as ionic liquids and common surfactants in the yield of extraction of chlorophyll was studied and the operational conditions of extraction were optimized. The effect of drying the biomass on the yield of extraction of chlorophyll was evaluated as well as the effect of both locations (and the specific conditions of each location in terms of nutrients, water temperature and light intensity) in chlorophyll production. After optimization of all operational conditions, a maximum yield of extraction of 5.96 mgchl.gdry algae -1 was obtained using 250 mM of tributyltetradecylphosphonium chloride ([P4,4,4,14]Cl). The use of this solvent has allowed the development of a cost-effective (conclusion obtainedafter the economic analysis) and efficient process capable of maintaining the stability of the final product for more than one month.

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Ionic Liquid-Mediated Recovery of Carotenoids from the Bactris gasipaes Fruit Waste and Their Application in Food-Packaging Chitosan Films

Mesquita

Martins

Maricato

et al. 2020

ACS Sustainable Chem. Eng.

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In this work, a process for the extraction and purification of carotenoids from the fruit Bactris gasipaes was developed. Ethanolic and aqueous solutions of ionic liquids (ILs) and surfactants were evaluated on the extraction of these pigments. Thus, we developed an optimized sustainable downstream process mediated by the best solvent with further isolation of the carotenoids and the recyclability of the IL used. The process was characterized not only in terms of efficiency but also regarding its environmental impact. The recyclability of the solvents as well as the high efficiency (maximum yield of extraction of carotenoids = 88.7 ± 0.9 μgcarotenoids·gdried biomass –1) and the low environmental impact of the integrated process developed in this work were demonstrated. In the end, in order to incorporate functional activity for an alternative food-packaging material, carotenoids were successfully applied on the preparation of chitosan-based films with excellent results regarding their mechanical parameters and antioxidant activity.

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Extraction of recombinant proteins from Escherichia coli by cell disruption with aqueous solutions of surface‐active compounds

Martins

Ooi

Neves

et al. 2018

J of Chemical Tech & Biotech

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BACKGROUND: Green fluorescent protein (GFP) is used extensively as a biomarker due to its unique spectral and fluorescence characteristics. GFP is usually obtained from recombinant strains of Escherichia coli (E. coli) producing the protein intracellularly. However, the common methods of extraction are cumbersome leading to an increase in the downstream process costs and complexity, sometimes leading to a higher risk of biomolecule degradation. RESULTS: This work proposes a new method to extract recombinant intracellular GFP from E. coli BL21 by using aqueous solutions of surface-active compounds.CONCLUSION: By comparing the fluorescence intensity of the extracted GFP, it was concluded that some of these compounds, namely ionic liquids with an alkyl chain of 10 or more carbons (best solvent being tributyl-1-tetradecylphosphonium, [P 4,4,4,14 ]Cl) are more effective than an ultrasonic-assisted extraction, even at low concentrations, being able to extract the whole GFP content from the cells. Associated Content Supporting information. General information of the surface-active compounds structures used, as well as their CMCs, and experimental results on the cell viability after GFP release using the best surface-active compounds.

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