Add to ORKGThe biochemical composition of leaves from Coffea pseudozanguebariae, a wild caffeine-free coffee species, was determined. Two phenolic compounds were extracted from leaves, separated and characterized. Their structures were elucidated by mass spectrometry, and 1D and 2D NMR spectroscopy and were shown to be mangiferin (1) and isomangiferin (2), which were the main polyphenol products. Multiphoton fluorescence imaging was performed to visualize polyphenol distribution in leaf cross sections. Consistent biochemical analysis cell imaging techniques on leaves revealed yellow fluorescence in the epidermis and parenchyma cells corresponding to xanthone compounds
The aim of this work is to evaluate the methodology to obtain an extract rich in caffeic acid (CAD) ...
Seven xanthone glycosides were isolated from the cortexes of Polygala tenuifolia, and their structur...
Green coffee beans of the two main commercial coffee varieties, Coffea arabica (Arabica) and Coffea ...
The biochemical composition of leaves from Coffea pseudozanguebariae, a wild caffeine-free coffee sp...
†Background and Aims The phenolic composition of Coffea leaves has barely been studied, and therefor...
International audienceAn imaging method using spectral analysis combined with advanced linear unmixi...
An imaging method using spectral analysis combined with advanced linear unmixing was used to allow h...
Coffea arabica L. leaves represent a viable alternative to the canonical matrices used for preparati...
Coffee pulp, peels, and mucilage are by-products accruing from wet coffee processing. Like coffee se...
Analysis of pulp and peels of Arabica coffee varieties with different external fruit color allowed ...
Objective: To make phytochemical studies of the leaf, pericarp and seed of Coffea benghalensis (C. B...
A hypothesis on the peculiar pharmacological behavior of biologically active natural compounds is ba...
While coffee beans have been studied for many years, researchers are showing a growing interest in c...
Not all the coffee produced goes to the roasting stage, because non-compliant green coffee beans are...
Coffee beans contain two types of alkaloids, caffeine and trigonelline, as major components. This re...
The aim of this work is to evaluate the methodology to obtain an extract rich in caffeic acid (CAD) ...
Seven xanthone glycosides were isolated from the cortexes of Polygala tenuifolia, and their structur...
Green coffee beans of the two main commercial coffee varieties, Coffea arabica (Arabica) and Coffea ...
The biochemical composition of leaves from Coffea pseudozanguebariae, a wild caffeine-free coffee sp...
†Background and Aims The phenolic composition of Coffea leaves has barely been studied, and therefor...
International audienceAn imaging method using spectral analysis combined with advanced linear unmixi...
An imaging method using spectral analysis combined with advanced linear unmixing was used to allow h...
Coffea arabica L. leaves represent a viable alternative to the canonical matrices used for preparati...
Coffee pulp, peels, and mucilage are by-products accruing from wet coffee processing. Like coffee se...
Analysis of pulp and peels of Arabica coffee varieties with different external fruit color allowed ...
Objective: To make phytochemical studies of the leaf, pericarp and seed of Coffea benghalensis (C. B...
A hypothesis on the peculiar pharmacological behavior of biologically active natural compounds is ba...
While coffee beans have been studied for many years, researchers are showing a growing interest in c...
Not all the coffee produced goes to the roasting stage, because non-compliant green coffee beans are...
Coffee beans contain two types of alkaloids, caffeine and trigonelline, as major components. This re...
The aim of this work is to evaluate the methodology to obtain an extract rich in caffeic acid (CAD) ...
Seven xanthone glycosides were isolated from the cortexes of Polygala tenuifolia, and their structur...
Green coffee beans of the two main commercial coffee varieties, Coffea arabica (Arabica) and Coffea ...