采用连续高压萃取法从西番莲果渣中提取白皮杉醇和水麦冬素B。

Sequential high pressure extractions applied to recover piceatannol and scirpusin B from passion fruit bagasse.

作者信息

Viganó Juliane, Aguiar Ana C, Moraes Damila R, Jara José L P, Eberlin Marcos N, Cazarin Cinthia B B, Maróstica Mário R, Martínez Julian

机构信息

Department of Food Engineering, College of Food Engineering, University of Campinas (UNICAMP), R. Monteiro Lobato 80, 13083-862 Campinas, SP, Brazil.

ThoMSon Mass Spectrometry Laboratory, Institute of Chemistry, University of Campinas (UNICAMP), R. Josué Castro, 13083-970 Campinas, SP, Brazil.

出版信息

Food Res Int. 2016 Jul;85:51-58. doi: 10.1016/j.foodres.2016.04.015. Epub 2016 Apr 16.

DOI:10.1016/j.foodres.2016.04.015

PMID:29544852

Abstract

Passion fruit seeds are currently discarded on the pulp processing but are known for their high piceatannol and scirpusin B contents. Using pressurized liquid extraction (PLE), these highly valuable phenolic compounds were efficiently extracted from defatted passion fruit bagasse (DPFB). PLE was performed using mixtures of ethanol and water (50 to 100% ethanol, w/w) as solvent, temperatures from 50 to 70°C and pressure at 10MPa. The extraction methods were compared in terms of the global yield, total phenolic content (TPC), piceatannol content and the antioxidant capacity of the extracts. The DPFB extracts were also compared with those from non-defatted passion fruit bagasse (nDPFB). Identification and quantification of piceatannol were performed using UHPLC-MS/MS. The results showed that high TPC and piceatannol content were achieved for the extracts obtained from DPFB through PLE at 70°C and using 50 and 75% ethanol as the solvent. The best PLE conditions for TPC (70°C, 75% ethanol) resulted in 55.237mgGAE/g dried and defatted bagasse, whereas PLE at 70°C and 50% ethanol achieved 18.590mg of piceatannol/g dried and defatted bagasse, and such yields were significantly higher than those obtained using conventional extraction techniques. The antioxidant capacity assays showed high correlation with the TPC (r>0.886) and piceatannol (r>0.772). The passion fruit bagasse has therefore proved to be a rich source of piceatannol and PLE showed high efficiency to recover phenolic compounds from defatted passion fruit bagasse.

摘要

百香果种子目前在果肉加工过程中被丢弃，但因其富含大量的白皮杉醇和水麦冬素B而闻名。采用加压液体萃取（PLE）法，可从脱脂百香果渣（DPFB）中高效提取这些高价值的酚类化合物。PLE以乙醇和水的混合物（50%至100%乙醇，w/w）为溶剂，温度为50至70°C，压力为10MPa。从提取物的总产率、总酚含量（TPC）、白皮杉醇含量和抗氧化能力等方面对萃取方法进行了比较。还将DPFB提取物与未脱脂百香果渣（nDPFB）的提取物进行了比较。使用超高效液相色谱-串联质谱法（UHPLC-MS/MS）对白皮杉醇进行鉴定和定量。结果表明，在70°C下，以50%和75%乙醇为溶剂，通过PLE从DPFB中获得的提取物具有较高的TPC和白皮杉醇含量。TPC的最佳PLE条件（70°C，75%乙醇）可得到55.237mg没食子酸当量/g干燥脱脂渣，而在70°C和50%乙醇条件下的PLE可得到18.590mg白皮杉醇/g干燥脱脂渣，这些产率显著高于使用传统萃取技术获得的产率。抗氧化能力测定结果表明，其与TPC（r>0.886）和白皮杉醇（r>0.772）具有高度相关性。因此，百香果渣已被证明是白皮杉醇的丰富来源，并且PLE显示出从脱脂百香果渣中回收酚类化合物的高效性。

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采用连续高压萃取法从西番莲果渣中提取白皮杉醇和水麦冬素B。

Sequential high pressure extractions applied to recover piceatannol and scirpusin B from passion fruit bagasse.

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