尼生素-壳聚糖生物基抗菌薄膜的接枝法:制备和表征。

Ayse Gunyakti Mujtaba, Özge Toprak, Ayşe Karakeçili
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引用次数: 0

摘要

Nisin 是由革兰氏阳性乳酸菌 Lactococcus lactis 产生的一种细菌素,由于其无毒性,目前已被列入 GRAS 类别。在这里,nisin 被接枝到壳聚糖结构上,以获得抗菌活性更强的天然生物活性薄膜。接枝使用了乙酯赖氨酸二异氰酸酯(EELDI)和二聚体脂肪酸基二异氰酸酯(DDI)(两种不同的接近完全生物基的二异氰酸酯)以及二琥珀酰亚胺辛二酸酯(DSS)(一种在氨基之间起交联剂作用的同双官能团分子)。接枝工艺可将尼生素化学固定在壳聚糖结构上。理化特性研究表明,尼生素接枝成功。所有尼生素改性壳聚糖薄膜对金黄色葡萄球菌的抗菌活性都很明显,其中以 DDI 作为交联剂时效果最佳,最大抑菌区为 13 mm。所有尼生素接枝壳聚糖薄膜都具有细胞相容性,L929 成纤维细胞的细胞存活率为 80%,这表明薄膜具有无毒结构。从上述研究结果来看,生物基二异氰酸酯和均双官能团交联剂是合成尼生素接枝壳聚糖结构的有效分子,经尼生素改性后得到的新型壳聚糖基抗菌生物聚合物有望成为无毒且具有生物活性的候选材料,应用于医疗器械、植入物和各种食品涂层产品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A grafting approach for nisin-chitosan bio-based antibacterial films: preparation and characterization.

Nisin is a bacteriocin produced by Gram-positive lactic acid bacterium,Lactococcus lactisand currently recognized in the Generally Recognızed as Safe (GRAS) category due to its non-toxicity. Herein, nisin has been grafted to chitosan structure to obtain natural bio-active films with enhanced antibacterial activity. Grafting was performed using ethyl ester lysine diisocyanate and dimer fatty acid-based diisocyanate (DDI); two different close to fully bio-based diisocyanates and Disuccinimidyl suberate; a homo-bifunctional molecule acting as a crosslinker between amino groups. The grafting process allowed the chemical immobilization of nisin to chitosan structure. Physicochemical characterization studies showed the successful grafting of nisin. The antibacterial activity againstStaphylococcus aureuswas evident for all nisin modified chitosan films and best pronounced when DDI was used as a crosslinker with a maximum zone of inhibition of ∼13 mm. All nisin grafted chitosan films were cytocompatible and the cell viability of L929 fibroblasts were >80% pointing out the non-toxic structure. Considering the results of the presented study, bio-based diisocyanates and homo-bifunctional crosslinkers are effective molecules in synthesis of nisin grafted chitosan structures and the new chitosan based antibacterial biopolymers obtained after nisin modification come forward as promising non-toxic and bioactive candidates to be applied in medical devices, implants, and various food coating products.

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