for study conception and design. Min Jung Kim and Da-Hye Lee performed the LC-MS analysis and interpretation of data. Jiyun Ahn, Eunju Do, and Tae-Youl Ha analyzed the data. All authors approved the
for study conception and design. Min Jung Kim and Da-Hye Lee performed the LC-MS analysis and interpretation of data. Jiyun Ahn, Eunju Do, and Tae-Youl Ha analyzed the data. All authors approved the
Ahn, Young-Jin Jang. Project administration: Chang Hwa Jung. Software: Jiyun Ahn. Validation: Min Jung Kim. Writing ± original draft: Da-Hye Lee, Min Jung Kim, Chang Hwa Jung. Writing ± review ... Author Contributions Conceptualization: Tae-Youl Ha, Chang Hwa Jung. Data curation: Da-Hye Lee, Min Jung Kim, Young-Do Nam, Chang Hwa Jung. Formal analysis: Da-Hye Lee, Eun-Ji Song, Jin Hee Kim, Jiyun
Supplement Institute, Seongnam 463-400, Republic of Korea Received 16 January 2013; Accepted 15 March 2013 Academic Editor: Evan Paul Cherniack Copyright © 2013 Jiyun Ahn et al. This is an open access
Supplement Institute, Seongnam 463-400, Republic of Korea Received 16 January 2013; Accepted 15 March 2013 Academic Editor: Evan Paul Cherniack Copyright © 2013 Jiyun Ahn et al. This is an open access
Supplement Institute, Seongnam 463-400, Republic of Korea Received 16 January 2013; Accepted 15 March 2013 Academic Editor: Evan Paul Cherniack Copyright © 2013 Jiyun Ahn et al. This is an open access
Supplement Institute, Seongnam 463-400, Republic of Korea Received 16 January 2013; Accepted 15 March 2013 Academic Editor: Evan Paul Cherniack Copyright © 2013 Jiyun Ahn et al. This is an open access
Eleutheroside E (EE), a principal component of Eleutherococcus senticosus (ES), has anti-inflammatory and protective effects in ischemia heart. However, it is unknown whether it ameliorates insulin resistance and reduces hyperglycemia in diabetes. This study investigated the effect of EE-containing ES extracts, as well as EE, on hyperglycemia and insulin resistance in db/db mice...
Supplement Institute, Seongnam 463-400, Republic of Korea Received 16 January 2013; Accepted 15 March 2013 Academic Editor: Evan Paul Cherniack Copyright © 2013 Jiyun Ahn et al. This is an open access
Allyl-isothiocyanate (AITC) is an organosulfur phytochemical found in abundance in common cruciferous vegetables such as mustard, wasabi, and cabbage. Although AITC is metabolized primarily through the mercapturic acid pathway, its exact pharmacokinetics remains undefined and the biological function of AITC metabolites is still largely unknown. In this study, we evaluated the...
Chang Hwa Jung,1,2 Heemun Kim,1 Jiyun Ahn,1,2 Sung Keun Jung,1 Min Young Um,1 Kun-Ho Son,3 Tae Wan Kim,4 and Tae Youl Ha1,2 1Department of Food Biotechnology, University of Science and Technology, Daejon
Chang Hwa Jung,1,2 Heemun Kim,1 Jiyun Ahn,1,2 Sung Keun Jung,1 Min Young Um,1 Kun-Ho Son,3 Tae Wan Kim,4 and Tae Youl Ha1,2 1Department of Food Biotechnology, University of Science and Technology, Daejon
Chang Hwa Jung,1,2 Heemun Kim,1 Jiyun Ahn,1,2 Sung Keun Jung,1 Min Young Um,1 Kun-Ho Son,3 Tae Wan Kim,4 and Tae Youl Ha1,2 1Department of Food Biotechnology, University of Science and Technology, Daejon
Chang Hwa Jung,1,2 Heemun Kim,1 Jiyun Ahn,1,2 Sung Keun Jung,1 Min Young Um,1 Kun-Ho Son,3 Tae Wan Kim,4 and Tae Youl Ha1,2 1Department of Food Biotechnology, University of Science and Technology, Daejon
