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Hydrothermal extraction and thorough characterization of carrageenans and proteins from Gigartina pistillata

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posted on 2024-08-07, 14:55 authored by Milena Álvarez-Viñas, Fernanda ZamboniFernanda Zamboni, Guido Domingo, Candida Vannini, María Dolores Torres, Maurice CollinsMaurice Collins, Herminia Domínguez

Carrageenan, an interesting biopolymer from red seaweed, possesses a myriad of applications in food, nutra?ceutical, or pharmaceutical industries. Although its conventional extraction used to be performed with alkaline solvents, water extraction under subcritical conditions is an alternative eco-friendly technique that has gained popularity in recent years. This work evaluates the recovery and characterization of carrageenan and proteins from Gigartina pistillata. The highest number of proteins was identified at the lowest processing tempeartures. Extracted carrageenan exhibits molecular weights greater than 500 kDa and good rheological behaviour, with interest for food applications and for the formulation of hydrogels when mixed with KCl. The carrageenans and carrageenan hydrogels presented interesting properties such as good thermal stability until 170 ◦C (TGA-DTG) and show characteristic bands of kappa/iota carrageenans in FTIR studies. Greater cell viability than 70% were achieved on NIH/3T3 fibroblast at carrageenan concentrations of 0.05 and 0.025%, whereas carrageenan extracted at 160 ◦C (concentration of 0.025%) displays a lower inflammatory action than other samples. In this sense, in this work the eco-friendlier extracted carrageenan was thoroughly characterized and its potentiality to be used in the biomedical field was evaluated.

History

Publication

Food Hydrocolloids, 2024, 157, 110390

Publisher

Elsevier

Other Funding information

Authors thank the financial support to the Ministry of Science, Innovation and Universities of Spain (RTI 2018-096376-B-I00 ), and to the Xunta de Galicia (Centro singular de investigación de Galicia accreditation 2019–2022 and ED431C 2018/54-GRC) and the European Union (European Regional Development Fund - ERDF) - (Ref. ED431G2019/06). M.A.V. thanks for her predoctoral FPI grant (PRE 2019-090567) to the Ministry of Science, Innovation and Universities (Spain). M.D.T. acknowledges for her postdoctoral grant (RYC 2018-024454-I) to the Ministry of Science, Innovation and Universities (Spain) and for the funding support (ED431F 2020/01) to Xunta de Galicia

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  • Bernal Institute

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  • (9) Industry, Innovation and Infrastructure

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  • School of Engineering

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