摘 要:主要目的:优化麸皮多糖的提取工艺。实验方法:在单因素实验基础上,用热水浸提法以及Box-Behnken设计方法,研究水提温度、时间、料液比这三个因素以及它们的交互作用对麸皮多糖得率的影响。另外用Design Expert软件和响应面分析结合的方法,得到回归方程的预测模型和可信度。结果:在所设定的各个实验范围内,三个因素对麸皮多糖得率的影响程度由大到小依次是提取温度、提取时间、料液比,并分析得到了最佳的提取条件:温度100 °C,料液比1:30,水提时间5 h,麸皮多糖含量的预测值为220.044 mg/g,上述最佳条件微调后进行验证试验,测得麸皮多糖含量为222.696 mg/g。结论:用响应面法优化提取工艺,提高了多糖提取的得率。66655
毕业论文关键字:小麦麸皮,多糖,提取,响应面分析
Abstract:Objective: To optimize the extraction condition for the polysaccharides from wheat bran. Method: Using extraction with hot water and based on the single-factor experiments the effects of extraction temperature, the solid to liquid ratio, extraction time and their interaction on extraction rate were studied by Box-Behnke design. The predictive model and reliability were developed by Design Expert software and response surface analysis. Results:Within the tested ranges, the impact of three process parameters on extraction yield of polysaccharides from big to small were temperature, time and solid-to-liquid ratio. The optimal extraction conditions were achieved and listed as follows:extraction temperature 100 °C, extraction time 5 h, solid-to-liquid ratio 1:30. Under the optimum conditions, the extraction yield of mycelium polysaccharide from wheat bran reached 222.696 mg/g while the prdicted one was 220.044 mg/g. Conclusion:The response surface optimized condition for extraction polysaccharides improved extraction efficiency, suggesting which is suitable for the extraction of polysaccharides from wheat bran because of its reliability and briefness.
Keywords: wheat bran, polysaccharides, extraction, response surface analysis
目 录
1 前言 5
1.1 小麦麸皮的应用 5
1.1.1 小麦麸皮膳食纤维在食品中的应用 5
1.2 多糖的活性研究进展 6
1.2.1 抗肿瘤活性 6
1.2.2 免疫促进作用 6
1.2.3 降血糖活性 7
1.2.4 抗病毒活性 7
1.2.5 抗氧化作用 7
1.2.6 抗炎作用 7
1.2.7 抗衰老作用 8
1.2.8 其他药理作用 8
1.3 麸皮多糖的研究进展 8
1.4 麸皮多糖的提取 8
2 实验方法 9
2.1 实验材料与仪器 9
2.1.1 实验材料 9
2.1.2 实验仪器 9
2.2 样品溶液的制备 9
2.3 葡萄糖标准曲线的绘制 10
2.3.1 苯酚测葡萄糖标准溶液 10
2.3.2 DNS测葡萄糖标准溶液 10
2.4 样品多糖含量的测定 10
2.4.1 样品总糖含量的测定 Box-Behnken响应面分析优化麸皮多糖提取工艺:http://www.youerw.com/shengwu/lunwen_74632.html