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- The biosynthesis of fungal metabolites. Part II. The β-oxo-lactone equivalents in rubropunctatin and monascorubrin. J. R. Hadfield, J. S. E. Holker, D. N. Stanway
, J. Chem. Soc. C
, 1967
, 751
- Self-assembled conjugated polymer/carboxymethyl chitosan grafted poly(p-dioxanone) nanomicelles and their use in functionalized indicator paper for fast and visual detection of a banned food dye. Hui Chen, Meiwan Chen, Xiaohui Wang, Runcang Sun
, Polym. Chem.
, 2014
, 5
, 4251
- Preparation of sulfur-doped carbon quantum dots from lignin as a sensor to detect Sudan I in an acidic environment. Xiaoxu Yang, Yanzhu Guo, Shuang Liang, Shiyao Hou, Tingting Chu, Jiliang Ma, Xiaohong Chen, Jinghui Zhou, Runcang Sun
, J. Mater. Chem. B
, 2020
, 8
, 10788
- Orange, red, yellow: biosynthesis of azaphilone pigments in Monascus fungi. Wanping Chen, Runfa Chen, Qingpei Liu, Yi He, Kun He, Xiaoli Ding, Lijing Kang, Xiaoxiao Guo, Nana Xie, Youxiang Zhou, Yuanyuan Lu, Russell J. Cox, István Molnár, Mu Li, Yanchun Shao, Fusheng Chen
, Chem. Sci.
, 2017
, 8
, 4917
- 898. The chemistry of fungi. Part XXXIX. The structure of monascin. B. C. Fielding, J. S. E. Holker, D. F. Jones, A. D. G. Powell, K. W. Richmond, Alexander Robertson, W. B. Whalley
, J. Chem. Soc.
, 1961
, 4579
- Theoretical and experimental investigation of the antioxidative activity of monascin. Xiaowei Zhang, Chunhui Liu, Wenhan Tian, Hui Zhang, Peirui Li, Jiahua Wang, Weiwei He
, Food Funct.
, 2020
, 11
, 5915
- Comparative transcriptomic analysis reveals the regulatory effects of inorganic nitrogen on the biosynthesis of Monascus pigments and citrinin. Jia-Li Hong, Li Wu, Jin-Qiang Lu, Wen-Bin Zhou, Ying-Jia Cao, Wen-Long Lv, Bin Liu, Ping-Fan Rao, Li Ni, Xu-Cong Lv
, RSC Adv.
, 2020
, 10
, 5268
- Red yeast rice dietary intervention reduces oxidative stress-related inflammation and improves intestinal microbiota. Yaping Huang, Ping Li, Zhengang Li, Dongdong Zhu, Yufei Fan, Xiaoyi Wang, Chumin Zhao, Jingbo Jiao, Xinjun Du, Shuo Wang
, Food Funct.
, 2022
, 13
, 6583
- Nature and nurture: confluence of pathway determinism with metabolic and chemical serendipity diversifies Monascus azaphilone pigments. Wanping Chen, Yanli Feng, István Molnár, Fusheng Chen
, Nat. Prod. Rep.
, 2019
, 36
, 561
- Delineating Monascus azaphilone pigment biosynthesis: oxidoreductive modifications determine the ring cyclization pattern in azaphilone biosynthesis. Balakrishnan Bijinu, Jae-Won Suh, Si-Hyung Park, Hyung-Jin Kwon
, RSC Adv.
, 2014
, 4
, 59405