Antioxidants extraction from Pinhão (Araucaria angustifolia (Bertol.) Kuntze) coats and application to zein films

Seeds from Araucaria angustifolia (Bertol.) Kuntze are consumed after cooking and their coats discarded. Both coats and the cooking water present phenolic compounds, which may be used to improve mechanical properties and provide antioxidant characteristics to films. The objective of this work was to...

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Bibliographic Details
Main Author: Freitas, Tânia Barbedo de (author)
Other Authors: Santos, Carlos Henrique Koslinski (author), Silva, Marcos Vieira da (author), Shirai, Marianne Ayumi (author), Dias, Maria Inês (author), Barros, Lillian (author), Barreiro, M.F. (author), Ferreira, Isabel C.F.R. (author), Gonçalves, Odinei Hess (author), Leimann, Fernanda Vitória (author)
Format: article
Language:eng
Published: 2018
Subjects:
Phenolic compounds
Active packaging
Microstructure
Plasticizing effect
Online Access:http://hdl.handle.net/10198/17091
Country:Portugal
Oai:oai:bibliotecadigital.ipb.pt:10198/17091
Description
Summary:Seeds from Araucaria angustifolia (Bertol.) Kuntze are consumed after cooking and their coats discarded. Both coats and the cooking water present phenolic compounds, which may be used to improve mechanical properties and provide antioxidant characteristics to films. The objective of this work was to obtain and pinhão coat extracts and to apply these polyphenolic-rich extracts in zein films. Phenolic compounds composition, extraction yield and antioxidant activity (DPPH, ABTS and FRAP) of the extracts were determined. The most abundant molecules present in the hydroethanolic extract were (+)-catechin and an (epi)catechin dimer, whereas protocatechuic acid were predominant in the both cooking water and ethanolic extracts. Glass transition temperature of zein was not found in the extract-loaded films. Morphological changes were also caused by the presence of the extracts yielding smoother surfaces. The extracts added to zein films led to a three-fold increase in tensile strength (from 5.80 MPa to 17.65 MPa) and two-fold increase in the elongation at break (from 1.60% to 3.18%).

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