Changes in Volatile Compounds of Sweet Potato Tips During Fermentation 被引量：9

Changes in Volatile Compounds of Sweet Potato Tips During Fermentation

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摘要 Volatile compounds in fresh and fermented sweet potato tips at O, 10, 20, 30, and 40 d during fermentation were investigated. A new parameter named ＂relative odor activity value （ROAV）＂ was applied in evaluating the contributions of volatile compounds to flavor, considering odor threshold. The results showed that volatile compounds could be clustered in the following chemical families： alkenes （most of them were sesquiterpene）, alcohols, aldehydes, ketones, and esters in decreasing order. During fermentation, the concentrations of alkenes and ketones were increased and then decreased continuously. Alcohols and esters were increased; while the concentrations of aldehydes decreased. Interestingly, fermenting processes （0-20 d） may contribute to the increase of alkenes and ketones. Major compounds that were identified in all samples include α- and B-caryophyllene, β- and γ-elemene, and β-cubebene （in decreasing order）. The changes of their concentrations during fermentation were the same as that of alkenes. Caryophyllene was abundant in all of the samples examined. It has anti-tumour, anti-inflammatory and anti-pests activities. It can mediate interactions among plant, herbivores and their natural enemies. β- and γ-elemene, which have been used as antitumor drugs, have not been reported previously as volatiles from sweet potato tips. β-cubebene with antioxidant activity can be used as natural preservatives in food and/or by the pharmaceutical industry. Volatile compounds in fresh and fermented sweet potato tips at O, 10, 20, 30, and 40 d during fermentation were investigated. A new parameter named ＂relative odor activity value （ROAV）＂ was applied in evaluating the contributions of volatile compounds to flavor, considering odor threshold. The results showed that volatile compounds could be clustered in the following chemical families： alkenes （most of them were sesquiterpene）, alcohols, aldehydes, ketones, and esters in decreasing order. During fermentation, the concentrations of alkenes and ketones were increased and then decreased continuously. Alcohols and esters were increased; while the concentrations of aldehydes decreased. Interestingly, fermenting processes （0-20 d） may contribute to the increase of alkenes and ketones. Major compounds that were identified in all samples include α- and B-caryophyllene, β- and γ-elemene, and β-cubebene （in decreasing order）. The changes of their concentrations during fermentation were the same as that of alkenes. Caryophyllene was abundant in all of the samples examined. It has anti-tumour, anti-inflammatory and anti-pests activities. It can mediate interactions among plant, herbivores and their natural enemies. β- and γ-elemene, which have been used as antitumor drugs, have not been reported previously as volatiles from sweet potato tips. β-cubebene with antioxidant activity can be used as natural preservatives in food and/or by the pharmaceutical industry.

作者 CUI Li LIU Chun-quan LI Da-jing

机构地区 Institute of Farm Product Processing Engineering Research Center for Agricultural Products Processing

出处《Agricultural Sciences in China》 CAS CSCD 2010年第11期1689-1695,共7页 中国农业科学（英文版）

基金 supported by the Inde-pendent Innovation of Agricultural Sciences in Jiangsu Province, China (CX [09]628)

关键词 sweet potato volatile compounds fermenting SESQUITERPENE ELEMENE sweet potato, volatile compounds, fermenting, sesquiterpene, elemene

分类号 TS251.1 [轻工技术与工程—农产品加工及贮藏工程] TS262.5 [轻工技术与工程—食品科学与工程]

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