DW1029M, a novel botanical drug candidate, inhibits advanced glycation end-product formation, rat lens aldose reductase activity, and TGF-β1 signaling
Yoon, Joobyoung, Lee, Hyunyong, Chang, Hwan Bong, Choi, Hyunsik, Kim, Yong Sung, Rho, Yang Kook, Seong, Seungkyoo, Choi, Dong Hwa, Park, Dongeun, Ku, Bonchul
Published in American journal of physiology. Renal physiology (15.05.2014)
Published in American journal of physiology. Renal physiology (15.05.2014)
Get full text
Journal Article
DW1029M, a novel botanical drug candidate, inhibits advanced glycation end-product formation, rat lens aldose reductase activity, and TGF-β 1 signaling
Yoon, Joobyoung, Lee, Hyunyong, Chang, Hwan Bong, Choi, Hyunsik, Kim, Yong Sung, Rho, Yang Kook, Seong, Seungkyoo, Choi, Dong Hwa, Park, Dongeun, Ku, Bonchul
Published in American journal of physiology. Renal physiology (15.05.2014)
Published in American journal of physiology. Renal physiology (15.05.2014)
Get full text
Journal Article
DW1029M, a novel botanical drug candidate, inhibits advanced glycation end-product formation, rat lens aldose reductase activity, and TGF-[Beta]1 signaling
Yoon, Joobyoung, Lee, Hyunyong, Chang, Hwan Bong, Choi, Hyunsik, Kim, Yong Sung, Rho, Yang Kook, Seong, Seungkyoo, Choi, Dong Hwa, Park, Dongeun, Ku, Bonchul
Published in American journal of physiology. Renal physiology (15.05.2014)
Get full text
Published in American journal of physiology. Renal physiology (15.05.2014)
Journal Article