Caffeine is a characteristic secondary metabolite in tea plants. It confers tea beverage with unique flavor and excitation effect on human body. The pathway of caffeine biosynthesis has been generally established, but the mechanism of caffeine transport remains unclear. Here, eight members of purine permeases (PUPs) were identified in tea plants. They had diverse expression patterns in different tissues, suggesting their broad roles in caffeine metabolism. In this study, F1 strains of "Longjing43" ♂ × "Baihaozao" ♀ and different tea cultivars were used as materials to explore the correlation between caffeine content and gene expression. The heterologous expression systems of yeast and Arabidopsis were applied to explore the function of CsPU...
AbstractThe four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-...
Tea plant (Camellia sinensis) accumulates abundant flavonoid glycosides that are the major bioactive...
The four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-adenosyl...
Caffeine is a characteristic secondary metabolite in tea plants. It confers tea beverage with unique...
Caffeine is a characteristic secondary metabolite in tea plants. It confers tea beverage with unique...
Purine permeases (PUPs) mediate the proton-coupled uptake of nucleotide bases and their derivatives ...
Tea is one of the most well-known, healthy beverages in the world. Tea plants produce caffeine as a ...
Purine permeases (PUPs) mediate the proton-coupled uptake of nucleotide bases and their derivatives ...
Details of the recently elucidated biosynthetic pathways of caffeine and related purine alkaloids ar...
A limited number of plant species accumulate purine alkaloids, such as caffeine and theobromine, whi...
Details of the recently elucidated biosynthetic pathways of caffeine and related purine alkaloids ar...
Tea is a rich source of antioxidants which are contributing substantially to the promotion of health...
Guarana seeds have the highest caffeine concentration among plants accumulating purine alkaloids, bu...
To study caffeine biosynthesis and degradation, here we monitored caffeine synthase gene expression ...
Caffeine (1, 3, 7-trimethylxanthine) and theobromine (3, 7-dimethylxanthine) are the major purine al...
AbstractThe four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-...
Tea plant (Camellia sinensis) accumulates abundant flavonoid glycosides that are the major bioactive...
The four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-adenosyl...
Caffeine is a characteristic secondary metabolite in tea plants. It confers tea beverage with unique...
Caffeine is a characteristic secondary metabolite in tea plants. It confers tea beverage with unique...
Purine permeases (PUPs) mediate the proton-coupled uptake of nucleotide bases and their derivatives ...
Tea is one of the most well-known, healthy beverages in the world. Tea plants produce caffeine as a ...
Purine permeases (PUPs) mediate the proton-coupled uptake of nucleotide bases and their derivatives ...
Details of the recently elucidated biosynthetic pathways of caffeine and related purine alkaloids ar...
A limited number of plant species accumulate purine alkaloids, such as caffeine and theobromine, whi...
Details of the recently elucidated biosynthetic pathways of caffeine and related purine alkaloids ar...
Tea is a rich source of antioxidants which are contributing substantially to the promotion of health...
Guarana seeds have the highest caffeine concentration among plants accumulating purine alkaloids, bu...
To study caffeine biosynthesis and degradation, here we monitored caffeine synthase gene expression ...
Caffeine (1, 3, 7-trimethylxanthine) and theobromine (3, 7-dimethylxanthine) are the major purine al...
AbstractThe four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-...
Tea plant (Camellia sinensis) accumulates abundant flavonoid glycosides that are the major bioactive...
The four-step caffeine biosynthetic pathway includes three methylation steps that utilise S-adenosyl...