代表论著: 第一作者论文10篇,参与发表15篇: 1. Chen, S.*; Yong, T.; Zhang, Y.; Hu H.; Xie, Y*. Inhibitory effect of five Ganodermaspecies (Agaricomycetes) against key digestive enzymes related to type 2 diabetes mellitus. International Journal of Medicinal Mushrooms 2019, 21: 703-711. 2. Chen, S.*; Yong, T.; Xiao, C.; Su, J.; Zhang, Y.; Jiao, C.; Xie, Y*. Pyrrole alkaloids and ergosterols from Grifola frondosa exert anti-alpha-glucosidase and anti-proliferative activities. Journal of functional foods 2018, 43: 196-205. 3. Chen, S.*; Yong, T.; Zhang, Y.; Su, J.; Jiao, C.; Xie, Y. Anti-tumor and anti-angiogenic ergosterols from Ganoderma lucidum. Frontiers in chemistry 2017, 5, 85. 4. Chen, S.; Li, X.; Yong, T.; Wang, Z.; Su, J.; Jiao, C.; Xie, Y.; Yang, B. B. Cytotoxic lanostane-type triterpenoids from the fruiting bodies of Ganoderma lucidum and their structure-activity relationships. Oncotarget 2017, 8 (6), 10071-10084. 5. Chen S.; Wang D.; Lu C.*;Zhao R. Two new γ-pyrone glucosides from Paeonia albiflora. Journal of Asian Natural Products Research 2016, 18: 153-158. 6. Chen S.; Gao J.; Liu J.;Liu B.; Zhao R.; Lu C.* Five new diarylheptanoids from the rhizomes of Curcuma kwangsiensis and their antiproliferative activity. Fitoterapia 2015,102: 67-73. 7. Chen S.; Lu C.*; Zhao R. Identification and quantitative characterization of PSORI-CM01, a Chinese medicine formula for psoriasis therapy, by liquid chromatography coupled with an LTQ Orbitrap mass spectrometer. Molecules 2015, 20: 1594-1609. 8. Chen S., Lu C.*, Zhao R. Qualitative and quantitative analysis of Rhizoma Smilacis glabrae by ultra high performance liquid chromatography coupled with LTQ Orbitrap Mass Spectrometry. Molecules 2014, 19: 10427-10439. 9. Chen S.; Li T.; Gao H.*;Zhu, Q.;Lu C.; Wu, H.; Peng, T.; Yao, X*. Anti HSV-1 flavonoid derivatives tethered with houttuynin from Houttuynia cordata. Planta Medica 2013, 79, 1742-1748. 10. Chen, S.; Gao, H.*; Zhu, Q.; Wang, Y.; Li, T.; Mu, Z.; Wu, H.; Peng, T.; Yao, X.* Houttuynoids A-E, anti-Herpes simplex virus active flavonoids with novel skeletons from Houttuynia cordata. Organic Letters 2012, 14: 1772-1775. 参与发表论文 1. Chen, X.; Li, S.; Li, D.; Li, M.; Su, Z.; Lai, X.; Zhou, C.; Chen, S.; Li, S.; Yang, X.; Su, J. *; Zhang, Y.* Ethanol extract of Brucea javanica seed inhibit triple-negative breast cancer by restraining autophagy via PI3K/Akt/mTOR pathway. Frontiers in Pharmacology 2020, 11: 606. 2. Chen, X.; Li, M.; Li, D.; Luo, T.; Xie, Y.; Gao, L.; Zhang, Y.; Chen, S.; Li, S.; Huang, G.; Li, W.; Su, J.*; Lai X.* Ethanol extract of Pycnoporus sanguineus relieves the dextran sulfate sodium-induced experimental colitis by suppressing helper T cell-mediated inflammation via apoptosis induction. Biomedicine & Pharmacotherapy 2020, 127:110212. 3. Li, D.; Gao, L.; Li, M.; Luo, Y.; Xie, Y.; Luo, T.; Su, L.; Yong, T.; Chen, S.; Jiao, C.; Su, J. *; Huang, S.* Polysaccharide from spore of Ganoderma lucidum ameliorates paclitaxel-induced intestinal barrier injury: Apoptosis inhibition by reversing microtubule polymerization. Biomedicine & Pharmacotherapy 2020, 130:110539. 4. Yong, T.*; Chen, S.; Xie, Y.; Shuai, O.; Li, X.; Chen, D.; Su, J.; Jiao, C.; Liang, Y. Hypouricemic effects of extracts from Agrocybe aegerita on hyperuricemia mice and virtual prediction of bioactives by molecular docking. Frontiers in Pharmacology 2018, 9: 498 5. Yong, T.*; Chen, S.; Xie, Y.; Chen, D.; Su, J.; Shuai, O.; Jiao, C.; Zuo, D. Cordycepin, a Characteristic bioactive constituent in Cordyceps militaris, ameliorates hyperuricemia through URAT1 in hyperuricemic mice. Frontiers in Microbiology 2018, 9: 58 6. Yong, T.*; Chen, S.; Xie, Y.; Chen, D.; Su, J.; Shuai, O.; Hu, H.; Zuo, D.; Liang, D. Hypouricemic effects of Armillaria mellea on hyperuricemic mice regulated through OAT1 and CNT2. The American journal of Chinese medicine 2018, 46: 585-599. 7. Yong, T.*; Chen, S.; Liang, D.; Zuo, D.; Diao, X.; Deng, C.; Wu, Y.; Hu, H.; Xie, Y.; Chen, D. Actions of Inonotus obliquus against hyperuricemia through XOD and bioactives screened by molecular modeling. International Journal of Molecular Sciences 2018, 19: 3222 8. Yong, T.*; Xie, Y.; Chen, S.; Chen, D.; Su, J.; Jiao, C.; Hu, H.; Xiao, C. Hypouricemic effect of Grifola frondosa on hyperuricemic mice and virtual screening of bioactives by 3D QSAR pharmacophore modeling. Journal of Functional Foods 2018, 40: 582-588 9. Liang, D.; Yong, T.*; Chen, S.; Xie, Y.; Chen, D.; Zhou, X.; Li, D.; Li, M.; Su, L.; Zuo, D. Hypouricemic effect of 2,5-dihydroxyacetophenone, a computational screened bioactive compound from Ganoderma applanatum, on hyperuricemic mice. International Journal of Molecular Sciences 2018, 19: 1394 10. Yong, T.*; Li, D.; Li, M.; Liang, D.; Diao, X.; Deng, C.; Chen, S.; Xie, Y.; Chen, D.; Zuo, D. Anti-hyperuricemic effect of 2-hydroxy-4-methoxy-benzophenone-5-sulfonic acid in hyperuricemic mice through XOD. Molecules 2018, 23: 2671 11. Yong, T.*; Chen, S.; Xie, Y.; Chen, D.; Su, J.; Shuai, O.; Jiao, C.; Zuo, D. Hypouricemic Effects of Ganoderma applanatum in Hyperuricemia Mice through OAT1 and GLUT9. Frontiers in Pharmacology 2017, 8: 996. 12. Li, T.; Liu, L.; Wu, H.; Chen, S.; Zhu, Q.; Gao, H.; Yu, X.; Wang, Y.; Su, W.; Yao, X., Peng T.* Anti-herpes simplex virus type 1 activity of Houttuynoid A, a flavonoid from Houttuynia cordata Thunb. Antiviral Research 2017, 144: 273-280 13. Yong, T.*; Zhang, M.; Chen, D.; Shuai, O.; Chen, S.; Su, J.; Jiao, C.; Feng, D.; Xie, Y. Actions of water extract from Cordyceps militaris in hyperuricemic mice induced by potassium oxonate combined with hypoxanthine. Journal of Ethnopharmacology 2016, 194: 403-411. 14. Liang, F.; Han, Y.; Gao, H.*; Xin, S.; Chen, S.; Wang, N.; Qin, W.; Zhong, H.; Lin, S.; Yao, X.; Li, S.* Kaempferol identified by zebrafish assay and fine fractionations strategy from Dysosma versipellis inhibits angiogenesis through VEGF and FGF Pathways. Scientific Reports 2015, 5: 14468 15. Gao, H.; Zhao, F.; Chen, G.; Chen, S.; Yu, Y.; Yao, Z.; Lau, BWC .; Wang, Z.; Li, J.; Yao, X.* Bidesmoside triterpenoid glycosides from Stauntonia chinensis and relationship to anti-inflammation. Phytochemistry 2009, 70: 795-806 |