巨芽孢杆菌生物降解塑料聚羟基丁酸酯(PHB)的制备及优化

S. Ahmady-Asbchin, H. Rezaee, M. Safari, Pantea Zamanifar, Davood Siyamiyan
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引用次数: 3

摘要

在生物降解塑料中,聚羟基烷酸酯及其聚合物因其完全可降解性、柔韧性、耐水性和易于生产等优点而受到广泛的关注。聚羟基丁酸酯是多羟基烷烃的一种类型,在许多微生物中被视为一种储存颗粒。本研究从伊朗收集的微生物中制备了巨型芽孢杆菌。种子培养基9、2.5 g/l以葡萄糖为主要成分,发酵培养基30、7.5 g/l以酵母浸膏为主要成分。采用GC-MASS和FTIR对生产的PHB进行鉴定。结果表明,在37℃、转速为150 rpm的条件下,葡萄糖培养72 h,可获得最高的生物量(0.221 g/l)和PHB (0.080 g/l)。GC - MASS和FTIR结果表明,芽孢杆菌正在研究PHB的生产。根据细胞总生长条件的平均值,巨芽孢杆菌的细胞生物量和PHB产率分别为0.0869和0.0171。实验结果表明,温度对生物量和PHB产量的影响最大。微生物生产的生物塑料在环境中也具有高度可降解性,由于其特殊的化学结构,已广泛应用于食品、制药和化学工业的各个领域,并有可能在不久的将来取代今天的塑料。DOI: http://dx.doi.org/10.5281/zenodo.3711400
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production and optimization of polyhydroxybutyrate (PHB) from Bacillus megaterium as biodegradable plastic
Among biodegradable plastics polyhydroxy alkanate and its polymers have received more attention than other biodegradable polymers because of their complete degradability, flexibility, water resistance and also the ease of production process. Polyhydroxybutyrate is one of the types of polyhydroxy alkanates that is seen as a storage granule in many microorganisms. In this study, Bacillus megaterium was prepared from Iranian microbial collection. Glucose and yeast extract were used as the main components of the medium in seed media 9 and 2.5 g/l and in fermentation medium 30 and 7.5 g/l respectively. GC-MASS and FTIR were used to identify the PHB produced. The results showed that the highest amount of biomass (0.221 g/l) and PHB (0.080 g/l) were obtained with glucose at 37°C and shaker speed of 150 rpm for 72 h incubation. The results of GC MASS and FTIR showed the production of PHB by Bacillus under investigation. Based on the mean of data on total cell growth conditions, the rate of cell biomass and PHB production in B. megaterium were 0.0869 and 0.0171 respectively. According to the results of the experiments, temperature had the greatest effect on biomass production and PHB production. The bioplastics produced by microbes are also highly degradable in the environment, and due to their specific chemical structure, they have been widely used in various fields of the food, pharmaceutical and chemical industries and are likely to replace today's plastics in the near future. DOI: http://dx.doi.org/10.5281/zenodo.3711400
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