响应曲面法优化分析甘薯不同肉色薯块多酚的提取条件-《江苏农业科学》

参考文献/References:

［1］Manach C，Scalbert A，Morand C，et al. Polyphenols：food sources and bioavailability［J］. The American Journal of Clinical Nutrition，2004，79(5)：727-747.
［2］Nichols J A，Katiyar S K. Skin photoprotection by natural polyphenols：anti-inflammatory，antioxidant and DNA repair mechanisms［J］. Archives of Dermatological Research，2010，302(2)：71-83.
［3］Moreno S，Scheyer T，Romano C S，et al. Antioxidant and antimicrobial activities of rosemary extracts linked to their polyphenol composition［J］. Free Radical Research，2006，40(2)：223-231.
［4］Scalbert A，Manach C，Morand C，et al. Dietary polyphenols and the prevention of diseases［J］. Critical Reviews in Food Science and Nutrition，2005，45(4)：287-306.
［5］左丽丽，王振宇，樊梓鸾，等. 植物多酚类物质及其功能研究进展［J］. 中国林副特产，2012，5(5)：39-42.
［6］Fang Z X，Bhandari B. Encapsulation of polyphenolse-a review［J］. Trends in Food Science and Technology，2010，21(10)：510-523.
［7］Jung J K，Lee S U，Kozukue N，et al. Distribution of phenolic compounds and antioxidative activities in parts of sweet potato (Ipomoea batata L.) plants and in home processed Roots［J］. Journal of Food Composition and Analysis，2011，24(1)：29-37.
［8］Yang B，Zhao M M，Shi J，et al. Effect of ultrasonic treatment on the recovery and DPPH radical scavenging activity of polysaccharides from longan fruit pericarp［J］. Food Chemistry，2008，106(2)：685-690.
［9］Song J F，Li D J，Liu C Q，et al. Optimized microwave-assisted extraction of total phenolics(TP) from Ipomoea batatas leaves and its antioxidant activity［J］. Innovative Food Science and Emerging Technologies，2011，12(3)：282-287.
［10］陆国权，赵文静. 甘薯多酚最佳提取工艺及多酚含量的基因型差异研究［J］. 中国粮油学报，2009，24(3)：49-52.
［11］Fan G J，Han Y，Gu Z X，et al. Optimizing conditions for anthocyanins extraction from purple sweet potato using response surface methodology (RSM)［J］. LWT-Food Science and Technology，2008，41(1)：155-160.
［12］韦学丰，罗静. 甘薯叶黄酮微波提取工艺的响应面法优化［J］. 湖北农业科学，2013，52(6)：1391-1394，1400.
［13］Gan C Y，Latiff A A. Optimisation of the solvent extraction of bioactive compounds from Parkia speciosa pod using response surface methodology［J］. Food Chemistry，2011，124(3)：1277-1283.
［14］Thoo Y Y，Ho S K，Liang J Y，et al. Effects of binary solvent extraction system，extraction time and extraction temperature on phenolic antioxidants and antioxidant capacity from mengkudu (Morinda citrifolia)［J］. Food Chemistry，2010，120(1)：290-295.
［15］Li J W，Zhang L F，Liu Y F. Optimization of extraction of natural pigment from purple sweet potato by response surface methodology and its stability［J］. Journal of Chemistry，2013：1-5.
［16］Ribeiro T，Fernandes C，Nunes F M，et al. Influence of the structural features of commercial mannoproteins in white wine protein stabilization and chemical and sensory properties［J］. Food Chemistry，2014，159：47-54.
［17］Fava J，Hodara K，Nieto A，et al. Structure (micro，ultra，nano)，color and mechanical properties of Vitis labrusca L.(grape berry) fruits treated by Hydrogen peroxide，UV-C irradiation and ultrasound［J］. Food Research International，2011，44(9)：2938-2948.
［18］Wang J，Sun B G，Cao Y P，et al. Optimisation of ultrasound-assisted extraction of phenolic compounds from wheat bran［J］. Food Chemistry，2008，106(2)：804-810.
［19］师超，卞科. 黄心甘薯多酚类物质的提取工艺研究［J］. 河南工业大学学报：自然科学版，2011，32(2)：19-22.
［20］Oki M，Masuda S，Furuta S，et al. Involvement of anthocyanins and other phenolic compounds in radical-scavenging activity of purple-fleshed sweet potato cultivars［J］. Journal of Food Science，2002，67(5)：1752-1756.

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