摘要
Aftertaste is a taste perceiption after a food or beverage is either swallowed or spat out.The primary taste processing area located in the insula was considered to be involved in aftertaste perception.The changes in chemical compositions lead to the changes in aftertaste of tea.Tea fermentation,in which tea catechins are transformed into thearubigins,lead to a strong,distinctive flavor but a plain aftertaste.Theanine has a sweet taste,with little or no aftertaste.The bitter aftertaste of transglucosylated steviosides was reduced when they were converted through transglucosylation of stevioside by α-amylase.Characteristics of aftertaste include quality,intensity,and duration.Foods that have lingering aftertastes typically have long sensation durations.A surface plasmon resonance(SPR) system immobilized β-cyclodextrin indicated larger responses for the gallate-type catechins in comparison to the non-gallate-type catechins.The β-cyclodextrin/SPR system can sense the bitterastringent taste intensity of the green tea.The SPR system detected the stability of the complex between the gallatetype catechins and β-cyclodextrin,which can be interpreted as the aftertaste produced in humans by the gallatetype catechins.
Aftertaste is a taste perceiption after a food or beverage is either swallowed or spat out.The primary taste processing area located in the insula was considered to be involved in aftertaste perception.The changes in chemical compositions lead to the changes in aftertaste of tea.Tea fermentation,in which tea catechins are transformed into thearubigins,lead to a strong,distinctive flavor but a plain aftertaste.Theanine has a sweet taste,with little or no aftertaste.The bitter aftertaste of transglucosylated steviosides was reduced when they were converted through transglucosylation of stevioside by α-amylase.Characteristics of aftertaste include quality,intensity,and duration.Foods that have lingering aftertastes typically have long sensation durations.A surface plasmon resonance (SPR) system immobilized β-cyclodextrin indicated larger responses for the gallate-type catechins in comparison to the non-gallate-type catechins.The β-cyclodextrin/SPR system can sense the bitter-astringent taste intensity of the green tea.The SPR system detected the stability of the complex between the gallate-type catechins and β-cyclodextrin,which can be interpreted as the aftertaste produced in humans by the gallate-type catechins.
出处
《茶叶》
2013年第4期486-490,共5页
Journal of Tea
基金
supported by Specialized Research Fund for the Doctoral Program of Higher Education (SRFDP No.20110101110094)
