Piornos José A, Burgos-Díaz César, Ogura Takahiro, Morales Eduardo, Rubilar Mónica, Maureira-Butler Iván, Salvo-Garrido Haroldo
Agriaquaculture Nutritional Genomic Center, CGNA, Technology and Processes Unit, Temuco, Chile.
Agriaquaculture Nutritional Genomic Center, CGNA, Technology and Processes Unit, Temuco, Chile.
Food Res Int. 2015 Oct;76(Pt 3):719-724. doi: 10.1016/j.foodres.2015.07.013. Epub 2015 Jul 11.
This study describes the isolation of proteins from the novel lupin variety AluProt-CGNA (Lupinus luteus) and the influence of pH and NaCl on their functional properties. AluProt-CGNA variety showed to have a great protein content in dehulled seeds (60.60g protein/100g, dry matter), which is higher than soybean and other lupin varieties. A lupin protein isolate (97.54g protein/100g) from AluProt-CGNA, LPIA, was prepared from lupin flour by alkali solubilization and isoelectric precipitation. The solubility profile of the LPIA was affected by pH, where the minimal values were observed at pH values close to its isoelectric point range (pH4-5). The highest values of water absorption capacity (1.71cmHO/g protein), oil absorption capacity (1.43g trapped oil/g protein), emulsifying capacity (61.94%), emulsion stability (96.43%), foaming capacity (114.29%), foam stability (65.69%) and least gelation concentration (20g/100cm) were observed at pH values lower and higher than its isoelectric point. In the presence of 100mM of NaCl, their functional properties were improved. SDS-PAGE showed that LPIA mainly contained high molecular weight proteins (α and β-conglutin). These results are useful for increasing the utilization of this protein isolate as a potential functional ingredient in food industry.
本研究描述了从新型羽扇豆品种AluProt-CGNA(黄羽扇豆)中分离蛋白质,以及pH值和氯化钠对其功能特性的影响。AluProt-CGNA品种的去皮种子显示出较高的蛋白质含量(60.60克蛋白质/100克干物质),高于大豆和其他羽扇豆品种。通过碱溶和等电沉淀从羽扇豆粉中制备了来自AluProt-CGNA的羽扇豆分离蛋白(97.54克蛋白质/100克),即LPIA。LPIA的溶解度曲线受pH值影响,在接近其等电点范围(pH4-5)的pH值下观察到最小值。在低于和高于其等电点的pH值下,观察到最高的吸水能力(1.71厘米水/克蛋白质)、吸油能力(1.43克截留油/克蛋白质)、乳化能力(61.94%)、乳液稳定性(96.43%)、发泡能力(114.29%)、泡沫稳定性(65.69%)和最低凝胶化浓度(20克/100立方厘米)。在100mM氯化钠存在下,其功能特性得到改善。SDS-PAGE显示LPIA主要含有高分子量蛋白质(α和β-伴球蛋白)。这些结果有助于提高这种分离蛋白作为食品工业潜在功能成分的利用率。
