Shrilekha Das scite author profile

In black tea manufacturing, one of the most important steps is fermentation which influences the quality of tea. The macerated tea leaves were fermented at various temperatures (20, 25, 30, 35 °C) for different duration. Changes in polyphenoloxidase and peroxidase activities, depletion patterns of individual catechins, differences in individual theaflavin levels and formation of thearubigins were measured in leaves during fermentation. Higher stability of polyphenoloxidase and peroxidase enzymes was observed at lower temperature (20 °C), and increase in temperature, led to enzyme instability. The rate of degradation of all the catechins was found to be fastest at 35 °C and slowest at 20 °C. The formation and depletion of individual theaflavins varied with temperature and fermentation duration. The time required for the formation of maximum total theaflavins (TF) was highest at lower temperature and this time duration also varied for different theaflavins formation. Maximum amount of thearubigins (TR) content and liquor colour development was observed at 35 °C, and decrease in temperature reduced thearubigins accumulation. However, maximum brightness as well as TF/TR ratio was obtained at 20 °C, which suggests that fermentation at lower temperature is suitable for manufacturing quality black tea.

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Surface active properties of the culture filtrates of a Micrococcus species grown on n-alkanes and sugars

Das

Mukherjee

1998

Bioresource Technology

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Multi-targeting Andrographolide and its Natural Analogs as Potential Therapeutic Agents

Kishore¹,

Yarla

Bishayee³

et al. 2017

CTMC

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Andrographis paniculata (A. paniculata) is a medicinal plant used in the Indian and Chinese traditional medicinal systems for its various beneficial properties of therapeutics. This is due to the presence of a diterpene lactone called 'andrographolide'. Several biological activities like antiinflammatory, antitumour, anti-hyperglycaemic, anti-fertility, antiviral, cardio protective and hepatoprotective properties are attributed to andrographolide and its natural analogs. The studies have shown that not only this diterpene lactone (andrographolide), but also other related terpenoid analogs from A. paniculata could be exploited for disease prevention due to their structural similarity with diverse pharmacological activities. Several scientific groups are trying to unveil the underlying mechanisms involved in these biological actions brough aout by andrographolide and its analogs. This review aims at giving an overview on the therapeutical and/or pharmacological activities of andrographolide and its derivatives and also exemplify the underlying mechanisms involved.

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Filtration resistances in non-thermal sterilization of green coconut water

Reddy

Das

2005

Journal of Food Engineering

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Shrilekha Das

An exopolysaccharide from a probiotic: Biosynthesis dynamics, composition and emulsifying activity

Assessing biochemical changes during standardization of fermentation time and temperature for manufacturing quality black tea

Surface active properties of the culture filtrates of a Micrococcus species grown on n-alkanes and sugars

Multi-targeting Andrographolide and its Natural Analogs as Potential Therapeutic Agents

Filtration resistances in non-thermal sterilization of green coconut water

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