Victória Fonseca Silveira, Victória Mendes da Silva, Sandro Rogério Kumineck Junior, Michele Cristina Formolo Garcia, Ana Paula Testa Pezzin, Therezinha Maria Novais de Oliveira, Andrea Lima dos Santos Schneider
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引用次数: 0
Abstract
The immobilization of enzymes increases their stability and allows their reuse, and bacterial cellulose (BC) is a material that can be used in this technique. This work aims to produce an enzymatic product to degrade oils and fats using BC as a matrix. Komagataeibacter hansenii bacteria produce BC membranes, and lipase is immobilized on the membranes by ex situ method. Then, the surface of the membranes is modified with zein, a hydrophobic corn protein. The membranes are characterized by TGA, FTIR, scanning electron microscopy (SEM) analysis and oil degradation test. TGA demonstrates higher stability for the membranes with lipase and zein. The FTIR spectrum of pure BC membrane and zein-modified membrane are very similar because of the high zein coating. SEM analysis shows that zein-modified membranes with lipase present smaller amounts of pores. Finally, using soy oil, lipase degrades oil even after immobilization during the degradation test.
酶的固定化可提高酶的稳定性,使酶得以重复使用,而细菌纤维素(BC)是一种可用于这种技术的材料。这项工作旨在利用 BC 作为基质,生产一种降解油脂的酶产品。Komagataeibacter hansenii 细菌产生 BC 膜,并通过原位法将脂肪酶固定在膜上。然后,用玉米蛋白(一种疏水性玉米蛋白)修饰膜的表面。通过热重分析(TGA)、傅立叶变换红外光谱(FTIR)、扫描电子显微镜(SEM)分析和油降解测试对膜进行了表征。热重分析表明,含有脂肪酶和玉米蛋白的膜具有更高的稳定性。纯 BC 膜和玉米蛋白改性膜的傅立叶变换红外光谱非常相似,这是因为玉米蛋白涂层较高。扫描电子显微镜分析表明,含有脂肪酶的玉米蛋白改性膜具有较少的孔隙。最后,使用大豆油进行降解试验时,脂肪酶即使在固定后也能降解油。
期刊介绍:
Macromolecular Symposia presents state-of-the-art research articles in the field of macromolecular chemistry and physics. All submitted contributions are peer-reviewed to ensure a high quality of published manuscripts. Accepted articles will be typeset and published as a hardcover edition together with online publication at Wiley InterScience, thereby guaranteeing an immediate international dissemination.
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