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Soy Peptide Supplementation Mitigates Undernutrition through Reprogramming Hepatic Metabolism in a Novel Undernourished Non-Human Primate Model Journal article
Xu, Zhenzhen, Amakye, William Kwame, Ren, Zhengyu, Xu, Yongzhao, Liu, Wei, Gong, Congcong, Wong, Chiwai, Gao, Li, Zhao, Zikuan, Wang, Min, Yan, Tao, Ye, Zhiming, Zhong, Jun, Hou, Chuanli, Zhao, Miao, Qiu, Can, Tan, Jieqiong, Xu, Xin, Liu, Guoyan, Yao, Maojin, Ren, Jiaoyan. Soy Peptide Supplementation Mitigates Undernutrition through Reprogramming Hepatic Metabolism in a Novel Undernourished Non-Human Primate Model[J]. Advanced Science, 2024, 11(29), 2306890.
Authors:  Xu, Zhenzhen;  Amakye, William Kwame;  Ren, Zhengyu;  Xu, Yongzhao;  Liu, Wei; et al.
Favorite | TC[WOS]:0 TC[Scopus]:1  IF:14.3/16.3 | Submit date:2024/09/03
Hepatic Lipid Metabolism  Mitochondria Dysfunction  Non-human Primate  Soypeptide, Undernutrition  
Employing broad learning and non-invasive risk factor to improve the early diagnosis of metabolic syndrome Journal article
Duan, Junwei, Wang, Yuxuan, Chen, Long, Chen, C. L.Philip, Zhang, Ronghua. Employing broad learning and non-invasive risk factor to improve the early diagnosis of metabolic syndrome[J]. iScience, 2024, 27(1), 108644.
Authors:  Duan, Junwei;  Wang, Yuxuan;  Chen, Long;  Chen, C. L.Philip;  Zhang, Ronghua
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.6/5.0 | Submit date:2024/02/22
Human Metabolism  Machine Learning  Risk Factor  
Bulleyaconitine A is a sensitive substrate and competitive inhibitor of CYP3A4: One of the possible explanations for clinical adverse reactions Journal article
Li, Xiaocui, Ou, Xiaowen, Ni, Jiadong, Xu, Yihong, Zuo, Huilin, Fu, Yu, Yang, Caihua, Zhao, Zhongxiang, Li, Na, Zhou, Hua, Zhang, Rong, Liu, Zhongqiu, Fu, Ling, Zhu, Lijun. Bulleyaconitine A is a sensitive substrate and competitive inhibitor of CYP3A4: One of the possible explanations for clinical adverse reactions[J]. Toxicology and Applied Pharmacology, 2022, 445.
Authors:  Li, Xiaocui;  Ou, Xiaowen;  Ni, Jiadong;  Xu, Yihong;  Zuo, Huilin; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:3.3/3.6 | Submit date:2023/01/30
Adverse Reaction  Bulleyaconitine a  Cytochrome P450 Enzymes  Drug-drug Interactions  Human Liver Microsomes  Metabolism  
Generation of Human Fatty Livers Using Custom-Engineered Induced Pluripotent Stem Cells with Modifiable SIRT1 Metabolism Journal article
Collin de l'Hortet,Alexandra, Takeishi,Kazuki, Guzman-Lepe,J., Morita,Kazutoyo, Achreja,Abhinav, Popovic,Branimir, Wang,Yang, Handa,Kan, Mittal,Anjali, Meurs,Noah, Zhu,Z., Weinberg,F., Salomon,Michael, Fox,I. J., Deng,Chu Xia, Nagrath,Deepak, Soto-Gutierrez,Alejandro. Generation of Human Fatty Livers Using Custom-Engineered Induced Pluripotent Stem Cells with Modifiable SIRT1 Metabolism[J]. Cell Metabolism, 2019, 30(2), 385-401.e9.
Authors:  Collin de l'Hortet,Alexandra;  Takeishi,Kazuki;  Guzman-Lepe,J.;  Morita,Kazutoyo;  Achreja,Abhinav; et al.
Favorite | TC[WOS]:67 TC[Scopus]:78  IF:27.7/31.2 | Submit date:2020/09/16
Cellular Engineering  Hepatic Differentiation  Human Fatty Liver  Human Ipscs  Liver Metabolism  Nafld  Nash  Sirt1  
Identification of cytochrome P450 isoenzymes involved in metabolism of (+)-praeruptorin A, a calcium channel blocker, by human liver microsomes using ultra high-performance liquid chromatography coupled with tandem mass spectrometry Journal article
Jing W.-H., Song Y.-L., Yan R., Wang Y.-T.. Identification of cytochrome P450 isoenzymes involved in metabolism of (+)-praeruptorin A, a calcium channel blocker, by human liver microsomes using ultra high-performance liquid chromatography coupled with tandem mass spectrometry[J]. Journal of Pharmaceutical and Biomedical Analysis, 2013, 77, 175.
Authors:  Jing W.-H.;  Song Y.-L.;  Yan R.;  Wang Y.-T.
Favorite | TC[WOS]:19 TC[Scopus]:18  IF:3.1/3.1 | Submit date:2018/10/31
(+)-praeruptorin a  Angular-type Pyranocoumarins  Cytochrome Cyp 3a4  Metabolism  Human Liver Microsomes  Uhplc-qt-ms/ms  Chinese Medicines  Peucedani Radix  
Regulation of human pregnane X receptor and its target gene cytochrome P450 3A4 by Chinese herbal compounds and a molecular docking study Journal article
Liu, YH (Liu, Ya-He), Mo, SL (Mo, Sui-Lin), Bi, HC (Bi, Hui-Chang), Hu, BF (Hu, Bing-Fang), Li, CG (Li, Chun Guang), Wang, YT (Wang, Yi-Tao), Huang, L (Huang, Ling), Huang, M (Huang, Min), Duan, W (Duan, Wei), Liu, JP (Liu, Jun-Ping), Wei, MQ (Wei, Ming Qian), Zhou, SF (Zhou, Shu-Feng). Regulation of human pregnane X receptor and its target gene cytochrome P450 3A4 by Chinese herbal compounds and a molecular docking study[J]. XENOBIOTICA, 2011, 41(4), 259-280.
Authors:  Liu, YH (Liu, Ya-He);  Mo, SL (Mo, Sui-Lin);  Bi, HC (Bi, Hui-Chang);  Hu, BF (Hu, Bing-Fang);  Li, CG (Li, Chun Guang); et al.
Favorite | TC[WOS]:46 TC[Scopus]:48  IF:1.3/1.4 | Submit date:2018/11/01
Constitutive Androstane Receptor  Primary Human Hepatocytes  Corepressor Silencing-mediator  Hepatoma-cell Lines  Human Cyp3a4 Gene  Nuclear Receptor  Drug-metabolism  Transcriptional Activation  Xenobiotic Receptor  Interindividual Variability  
Metabolism of 17a-hydroxyprogesterone caproate by hepatic and placental microsomes of human and baboons Journal article
Ru Yan, Tatiana N. Nanovskaya, Olga L. Zharikova, Donald R. Mattison, Gary D.V. Hankins, Mahmoud S. Ahmed. Metabolism of 17a-hydroxyprogesterone caproate by hepatic and placental microsomes of human and baboons[J]. Biochemical pharmacology, 2008, 75(9), 1848-1857.
Authors:  Ru Yan;  Tatiana N. Nanovskaya;  Olga L. Zharikova;  Donald R. Mattison;  Gary D.V. Hankins; et al.
Favorite | TC[WOS]:20 TC[Scopus]:18  IF:5.3/5.2 | Submit date:2019/01/15
Preterm Delivery  17a-hydroxyprogesterone Caproate  Metabolism  Microsomes  Human Placenta  Baboon Placenta  Human Liver  Baboon Liver