商用和合成聚己内酯膜在不同酶溶液中的体外生物降解动力学比较

Q3 Environmental Science

Ekoloji Pub Date : 2013-03-31 DOI:10.5053/EKOLOJI.2013.8611

Erhan Ozsagiroglu, Banu Iyisan, Y. Guvenilir

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引用次数: 7

摘要

在本工作中，比较和计算了商品聚己内酯和合成聚己内酯(PCL)在不同酶溶液中的生物降解行为。水解酶类为酯酶、脂酶和储蓄酶;将酶溶液逐一配制成酶鸡尾酒溶液。降解实验在37℃、pH 7.4条件下进行。采用两种定量方法跟踪生物降解。所有样品均采用凝胶渗透色谱和傅里叶变换红外光谱进行表征。在生物降解过程中记录了重量和键结构。所有实验的降解速率常数(k)值由分子量数平均值的变化来计算。结果表明，脂酶溶液可以腐蚀聚合物膜，而酯酶溶液只能降低聚合物的分子量，而含savinase的酶溶液的腐蚀次数比其他酶混合物要少。聚合物膜的分子量降低和聚合物链变化的降解速率与合成膜的降解速率有很大差异。合成的PCL样品的分子量变化率高于

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Comparing the In-Vitro Biodegradation Kinetics of Commercial and Synthesized Polycaprolactone Films in Different Enzyme Solutions

In the present work, the biodegradation behaviors were compared and calculated for a commercial polycaprolactone and a synthesized polycaprolactone (PCL) in different enzyme solutions. The enzymes were esterase, lipolase, and savinase which are in the hydrolase class; the enzyme solutions were prepared one by one as an enzyme cocktail solution. Degradation experiments were carried out at 37°C and a pH 7.4. Two quantitative methods were used to follow the biodegradation. All samples were characterized by gel permeation chromatography and Fourier transforms infrared spectroscopy. The weight and bond structures were recorded during the period of biodegradation. The degradation rates constant (k) values of all the experiments were evaluated from the changes in the number average of the molecular weight. The results showed that the lipolase enzyme solutions could erode polymer films, but that the esterase enzyme solution could only decrease molecular weights of polymers and enzyme solutions which include savinase which had lower erosion times than the other enzyme cocktails. Degradation rates for the decreasing of molecular weight and changing of polymer chains was very different between commercial and synthesized polymer films. Molecular weight change rates of synthesized PCL samples were higher than the

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来源期刊

Ekoloji 环境科学-生态学

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Cessation. Ekoloji is an international journal that focuses on papers that report results from original research on all disciplines engaged in the field of environmental research. We welcome articles that cover the entire spectrum of environmental problems and environmental pollutants, whether chemical, biological or physical. Its coverage extends to all environmentally related issues: air and water pollution, solid waste, noise, recycling, natural resources, ecology and environmental protection. It includes articles on basic and applied environmental pollution research, including environmental engineering and environmental health. All types of pollution are covered, including atmospheric pollutants, detergents, fertilizers, industrial effluents, metals, mining wastes, oil, pesticides, plastics, radioactive materials and sewage. It also includes research papers on ecological and environmental issues such as climate change, biodiversity. The primary criteria for publication are scientific quality and ecological/environmental significance. The journal will be read and contributed to by biologists, applied ecologists, environmental scientists, natural resource specialists, environmental engineers, environmental health specialists, agro-ecologists, veterinaries, agricultural engineers, landscape planners and designers. The journal welcomes full "research papers" and short "research notes", only in the English language.