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KMID : 0613820170270010057
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Journal of Life Science
2017 Volume.27 No. 1 p.57 ~ p.66
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Changes in Cordycepin and Liquiritigenin Content and Inhibitory Effect on NO Production in Fermented Licorice and Dongchunghacho
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Wang Zi-Yu
Li Mei
Li Ke
Son Beung-Gu
Kang Jum-Soon
Lee Yong-Jae
Park Young-Hoon
Kim Sun-Tae
Jung Jae-Chul
Lee Young-Guen
Choi Young-Whan
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Abstract
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Traditional Korean fermented herbal plants are potential sources of new food that promote health, but they are still produced by yeast, fungi or bacteria fermentation. In the present work, mushroom (Paecilomyces tenuipes and Cordyceps militaris) fungal dongchunghacho were used to fermented Glycyrrhiza uralensis Fischer (licorice) or mixed with pupa. The pupa were tested as solid substrates for the production of corcycepin, liquiritin, and liquiritigenin. The fermented substrates were analyzed the content of cordycepin, liquiritin, liquiritigenin, and glycirrhizin productivity and inhibitory activity of NO. The cordycepin content of 70% EtOH extract from the fermented mixture of licorice and 50% pupa with C. militaris increased maximum at 33 times. Pupa was very excellent for the production of cordycepin. The liquiritin content was decreased in all the assays inoculated with P. tenuipes and C. militaris dongchunghachos. The liquiritigenin content was higher when fermented with P. tenuipes than C. militaris. The addition of pupa significantly reduced the liquiritin content and glycyrrhizin production. As a result, the liquiritigenin content increased in fermented P. tenuipes and C. militaris, and liquiritin and glycyrrhizin decreased. The inhibition of NO production in the different ethanolic extracts fermented with licorice and pupa was also significantly increased and higher than that of a nonfermented extract in higher polar solvent extracts. The contents of cordycepin and biological active compounds were altered in accordance with the concentration of pupa and fungi. This study provides basic data for use in developing dongchunghacho fungi as a functional food resource.
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KEYWORD
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Cordycepin, Cordyceps militaris, NO production, pupa, solid-state fermentation
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