Home | About PM | Editorial board | Search | Ahead of print | Current Issue | Archives | Instructions | Subscribe | Advertise | Contact us |  Login 
Pharmacognosy Magazine
Search Article 
  
Advanced search 
 
This article has been cited by
1Yeast a-Glucosidase Inhibitory Phenolic Compounds Isolated from Gynura medica Leaf
Chao Tan,Qunxing Wang,Chunhua Luo,Sai Chen,Qianyuan Li,Peng Li
International Journal of Molecular Sciences.2013;14(2)2551
[DOI]
2The Chemical Constituents and Biological Activities of the Essential Oil and the Extracts from Leaves ofGynura divaricata(L.) DC. Growing in Thailand
Nadechanok Jiangseubchatveera,Boonsom Liawruangrath,Saisunee Liawruangrath,John Korth,Stephen G. Pyne
Journal of Essential Oil Bearing Plants.2015;18(3)543
[DOI]
3Cytotoxic activities of flavonoids from a traditional Mongolian medicinal herb Clematis aethusifolia Turcz.
Yanxi Chang,Ping Zhang,Xuan Zhang,Jianping Chen,Wolf-Dieter Rausch,A Gula,Baoquan Bao
Natural Product Research.2017;31(10)1223
[DOI]
4Phenolic compounds responding to zinc and/or cadmium treatments in Gynura pseudochina (L.) DC. extracts and biomass
Bodin Mongkhonsin,Woranan Nakbanpote,Akiko Hokura,Nitra Nuengchamnong,Suthira Maneechai
Plant Physiology and Biochemistry.2016;109(10)549
[DOI]
5Profiling and Elucidation of the Phenolic Compounds in the Aerial Parts ofGynura bicolorandG. divaricataCollected from Different Chinese Origins
Jian Chen,Sven Mangelinckx,Han Lü,Zheng-Tao Wang,Wei-Lin Li,Norbert De Kimpe
Chemistry & Biodiversity.2015;12(1)96
[DOI]
6Caffeoylquinic acid derivatives isolated from the aerial parts of Gynura divaricata and their yeast a-glucosidase and PTP1B inhibitory activity
Jian Chen,Sven Mangelinckx,Li Ma,Zhengtao Wang,Weilin Li,Norbert De Kimpe
Fitoterapia.2014;99(1)1
[DOI]
7Biologically active xanthones from Codonopsis ovata
Alamgir A. Dar,Nisar A. Dangroo,Arun Raina,Arem Qayum,Shashank Singh,Anil Kumar,Payare L. Sangwan
Phytochemistry.2016;132(1)102
[DOI]
8Identification of flavonoids in litchi (Litchi chinensis Sonn.) leaf and evaluation of anticancer activities
Lingrong Wen,Dan Wu,Yueming Jiang,K. Nagendra Prasad,Sen Lin,Guoxiang Jiang,Jirui He,Mouming Zhao,Wei Luo,Bao Yang
Journal of Functional Foods.2014;6(1)555
[DOI]
9Inhibitory efficacy of Ligularia fischeri against aldose reductase and advanced glycation end products formation
Xing Fu Yin,Young Eun Jeon,Jae-Hoon Shim,Il-Jun Kang
Food Science and Biotechnology.2014;23(6)1747
[DOI]
10Effect of drying methods and solvent extraction on the phenolic compounds of Gynura pseudochina (L.) DC. leaf extracts and their anti-psoriatic property
Kannika Sukadeetad,Woranan Nakbanpote,Michael Heinrich,Nitra Nuengchamnong
Industrial Crops and Products.2018;120(6)34
[DOI]
11Phytochemical composition, antiparasitic and a–glucosidase inhibition activities from Pelliciera rhizophorae
Dioxelis López,Lilia Cherigo,Carmenza Spadafora,Marco A. Loza-Mejía,Sergio Martínez-Luis
Chemistry Central Journal.2015;9(1)34
[DOI]
12Phenolic Profiling of Duchesnea indica Combining Macroporous Resin Chromatography (MRC) with HPLC-ESI-MS/MS and ESI-IT-MS
Mingzhi Zhu,Xia Dong,Mingquan Guo
Molecules.2015;20(12)22463
[DOI]
13Phenolic profile, anti-inflammatory, antinociceptive, anti-ulcerogenic and hepatoprotective activities of Pimenta racemosa leaves
Fatma Abd-elkader Moharram,Amal Amin Al-Gendy,Siham Mostafa El-Shenawy,Bassant M. Ibrahim,Mohamed A. Zarka
BMC Complementary and Alternative Medicine.2018;18(1)22463
[DOI]
14Styphnolobium japonicum (L.) Schott Fruits Increase Stress Resistance and Exert Antioxidant Properties in Caenorhabditis elegans and Mouse Models
Sara Thabit,Heba Handoussa,Mariana Roxo,Bruna Cestari de Azevedo,Nesrine S.E. El Sayed,Michael Wink
Molecules.2019;24(14)2633
[DOI]
15Lychee Seed Fraction Inhibits Aß(1-42)-Induced Neuroinflammation in BV-2 Cells via NF-?B Signaling Pathway
Ya Zhao,Yuan Zeng,Anguo Wu,Chonglin Yu,Yong Tang,Xiuling Wang,Rui Xiong,Haixia Chen,Jianming Wu,Dalian Qin
Frontiers in Pharmacology.2018;9(14)2633
[DOI]
16Selection of Optimum Strategies for the Fabrication of Plant-Mediated Metal Nanoparticles: Emerging Problems in Sustainability
Muhammad Imran Din,Aneela Rani
Critical Reviews in Analytical Chemistry.2018;48(5)406
[DOI]
17Screening for Triterpenoid Saponins in Plants Using Hyphenated Analytical Platforms
Bekzod Khakimov,Li Tseng,Markus Godejohann,Sřren Bak,Sřren Engelsen
Molecules.2016;21(12)1614
[DOI]
18Caffeoylquinic Acids from the Aerial Parts of Chrysanthemum coronarium L.
Chunpeng Wan,Shanshan Li,Lin Liu,Chuying Chen,Shuying Fan
Plants.2017;6(4)10
[DOI]
19Qualitative and Quantitative Analysis of the Major Constituents in Chinese Medical Preparation Lianhua-Qingwen Capsule by UPLC-DAD-QTOF-MS
Weina Jia,Chunhua Wang,Yuefei Wang,Guixiang Pan,Miaomiao Jiang,Zheng Li,Yan Zhu
The Scientific World Journal.2015;2015(4)1
[DOI]
20In vivo wound healing potential and HPLC-PDA-ESI-MS profiling of Zizyphus lotus L. (Desf.) leaves methanol extract
Halima Saiah,Meriem Mokhtar,Wassila Saiah,Ahmed Aichouni,Fatima Zohra EL Kebir,Rachida Allem
Journal of Food Biochemistry.2018;42(5)e12570
[DOI]
21Gynura divaricata rich in 3, 5-/4, 5-dicaffeoylquinic acid and chlorogenic acid reduces islet cell apoptosis and improves pancreatic function in type 2 diabetic mice
Xiao-Lu Yin,Bing-Qing Xu,Yu-Qing Zhang
Nutrition & Metabolism.2018;15(1)e12570
[DOI]
22Structural elucidation and cellular antioxidant activity evaluation of major antioxidant phenolics in lychee pulp
Dongxiao Su,Huihui Ti,Ruifen Zhang,Mingwei Zhang,Zhengchen Wei,Yuanyuan Deng,Jinxin Guo
Food Chemistry.2014;158(1)385
[DOI]
23Flavonol glycosides and other phenolic compounds fromViola tianshanicaand their anti-complement activities
Yan Qin,Quan Wen,Jie Cao,Chengle Yin,Daofeng Chen,Zhihong Cheng
Pharmaceutical Biology.2015;158(1)1
[DOI]
24Chemical Constituents from the Aerial Parts of Gynura Bicolor
Jian Chen,Sven Mangelinckx,An Adams,Wei-lin Li,Zheng-tao Wang,Norbert De Kimpe
Natural Product Communications.2012;7(12)1934578X1200701
[DOI]
  Feedback 
  Subscribe