Chemical constituents from the leaves of Crataegus pinnatifida Bge

[1]  J. Ma,et al.  Chemical constituents from Epimedium koreanum Nakai and their chemotaxonomic significance , 2018, Natural product research.

[2]  Shaojiang Song,et al.  Lignans from the seeds of Chinese hawthorn (Crataegus pinnatifida var. major N.E.Br.) against β-amyloid aggregation , 2018, Natural product research.

[3]  Guo-Dong Yao,et al.  Phenylpropanoids from the fruit of Crataegus pinnatifida exhibit cytotoxicity on hepatic carcinoma cells through apoptosis induction. , 2018, Fitoterapia.

[4]  E. Kalenikova,et al.  HPLC-UV Method for Determing Flavonoids in Hawthorn Flowers and Leaves , 2017, Pharmaceutical Chemistry Journal.

[5]  S. Kim,et al.  Bioactive Triterpenoids from the Twigs of Chaenomeles sinensis. , 2017, Journal of natural products.

[6]  N. Tan,et al.  Terpenoids with cytotoxic activity from the branches and leaves of Pyrus pashia , 2015 .

[7]  Shaojiang Song,et al.  Food Byproducts as a New and Cheap Source of Bioactive Compounds: Lignans with Antioxidant and Anti-inflammatory Properties from Crataegus pinnatifida Seeds. , 2015, Journal of agricultural and food chemistry.

[8]  Shaojiang Song,et al.  Monoterpenes and flavones from the leaves of Crataegus pinnatifida with anticoagulant activities , 2015 .

[9]  T. Hayakawa,et al.  Hepatoprotective triterpenes from traditional Tibetan medicine Potentilla anserina. , 2014, Phytochemistry.

[10]  Hong Zhou,et al.  Crataegus pinnatifida: Chemical Constituents, Pharmacology, and Potential Applications , 2014, Molecules.

[11]  Li Fei-Fei,et al.  Two new compounds from Crataegus pinnatifida and their antithrombotic activities , 2014, Journal of Asian natural products research.

[12]  Shaojiang Song,et al.  Isolation of Antithrombotic Phenolic Compounds from the Leaves of Crataegus pinnatifida , 2012, Planta Medica.

[13]  Chunfu Wu,et al.  Terpenoids and hexenes from the leaves of Crataegus pinnatifida. , 2011, Food chemistry.

[14]  G. Fan,et al.  Isolation and Purification of Three Flavonoids from the Hawthorn Leaves by High Speed Countercurrent Chromatography, Combined with Isocratic Preparative Reversed-Phase High Performance Liquid Chromatography , 2009 .

[15]  S. Moslemi,et al.  Evaluation of ursolic acid isolated from Ilex paraguariensis and derivatives on aromatase inhibition. , 2008, European journal of medicinal chemistry.

[16]  Xianfu Lin,et al.  Controllable Regioselective Acylation of Rutin Catalyzed by Enzymes in Non-aqueous Solvents , 2005, Biotechnology Letters.

[17]  H. Nishino,et al.  Anti-inflammatory and antitumor-promoting effects of the triterpene acids from the leaves of Eriobotrya japonica. , 2005, Biological & pharmaceutical bulletin.

[18]  Y. H. Kim,et al.  Inhibitory lignans against NFAT transcription factor fromacanthopanax koreanum , 2004, Archives of pharmacal research.

[19]  R. Weis,et al.  Complete assignments of 1H and 13C NMR resonances of oleanolic acid, 18α‐oleanolic acid, ursolic acid and their 11‐oxo derivatives , 2003 .

[20]  Peicheng Zhang,et al.  C-glucoside flavonoids from the leaves of Crataegus pinnatifida Bge. var. major N.E.Br. , 2003, Journal of Asian natural products research.

[21]  H. Sakagami,et al.  Production of bioactive triterpenes by Eriobotrya japonica calli. , 2002, Phytochemistry.

[22]  C. Teng,et al.  Phytochemical and Pharmacological Studies on Chinese Paeonia Species , 2000 .

[23]  J. Liu,et al.  Constituents from the roots of Acanthopanax setchuenensis , 1999 .

[24]  T. Masuda,et al.  Iridoid and eugenol glycosides from Nepeta cadmea , 1998 .

[25]  B. Bodo,et al.  Pentacyclic triterpenes from Combretum nigricans , 1996 .

[26]  R. Kasai,et al.  Oleanane and ursane glucosides from Rubus species , 1992 .