Enzyme Inhibitory Potentials from Brazilian Flora
暂无分享,去创建一个
D. Siebert | M. D. Alberton | L. E. da Silva | Camila Confortin | Camila Jeriane Paganelli | Luiz Everson da Silva | L. Silva
[1] Meijuan Zhao,et al. Polyoxometalates: Study of inhibitory kinetics and mechanism against α-glucosidase. , 2019, Journal of inorganic biochemistry.
[2] Ajay Kumar,et al. Synthesis and biological evaluation of indoloquinoline alkaloid cryptolepine and its bromo-derivative as dual cholinesterase inhibitors. , 2019, Bioorganic chemistry.
[3] W. Vilegas,et al. Phytochemical composition, antioxidant and in vivo antidiabetic activities of the hydroethanolic extract of Eugenia florida DC. (Myrtaceae) leaves , 2019, South African Journal of Botany.
[4] G. Pastore,et al. Wild Brazilian species of Eugenia genera (Myrtaceae) as an innovation hotspot for food and pharmacological purposes. , 2019, Food research international.
[5] H. Ragab,et al. Chlorinated tacrine analogs: Design, synthesis and biological evaluation of their anti-cholinesterase activity as potential treatment for Alzheimer's disease. , 2019, Bioorganic chemistry.
[6] J. N. da Cruz,et al. Phytochemical profile, antioxidant activity, inhibition of acetylcholinesterase and interaction mechanism of the major components of the Piper divaricatum essential oil obtained by supercritical CO2 , 2019, The Journal of Supercritical Fluids.
[7] R. Sivakanesan,et al. Isolation, identification and characterization of pancreatic lipase inhibitors from Trigonella foenum-graecum seeds , 2019, South African Journal of Botany.
[8] N. Lall,et al. Biochemical and phylogenetic analysis of Eugenia and Syzygium species from Mauritius , 2019, Journal of Applied Research on Medicinal and Aromatic Plants.
[9] G. Micke,et al. Determination of acetylcholinesterase and α-glucosidase inhibition by electrophoretically-mediated microanalysis and phenolic profile by HPLC-ESI-MS/MS of fruit juices from Brazilian Myrtaceae Plinia cauliflora (Mart.) Kausel and Eugenia uniflora L. , 2019, Natural product research.
[10] Fevzi Topal. Anticholinergic and antidiabetic effects of isoeugenol from clove (Eugenia caryophylata) oil , 2019, International Journal of Food Properties.
[11] V. Kouznetsov,et al. Bioactivity of semisynthetic eugenol derivatives against Spodoptera frugiperda (Lepidoptera: Noctuidae) larvae infesting maize in Colombia , 2018, Saudi journal of biological sciences.
[12] N. Seeram,et al. Phenolics from Eugenia jambolana seeds with advanced glycation endproduct formation and alpha-glucosidase inhibitory activities. , 2018, Food & function.
[13] V. Cechinel-Filho,et al. Taraxerol as a possible therapeutic agent on memory impairments and Alzheimer’s disease: Effects against scopolamine and streptozotocin-induced cognitive dysfunctions , 2018, Steroids.
[14] T. Bahorun,et al. Multi-targeted effects of untapped resources from the Mauritian endemic flora , 2018 .
[15] E. Lima,et al. In vitro safety and efficacy evaluations of a complex botanical mixture of Eugenia dysenterica DC. (Myrtaceae): Prospects for developing a new dermocosmetic product. , 2017, Toxicology in vitro : an international journal published in association with BIBRA.
[16] D. Staerk,et al. Dual high-resolution α-glucosidase/PTP1B bioassays coupled with HPLC-HRMS-SPE-NMR for investigation of 'Insulin plants' (Myrcia sp.) as new medicines for type 2 diabetes , 2017 .
[17] R. Barbieri,et al. In vitro assessment of the antihyperglycemic and antioxidant properties of araçá, butiá and pitanga , 2017 .
[18] F. Ahmad,et al. Phytochemistry and Biological Activities of the Genus Ocotea (Lauraceae): A Review on Recent Research Results (2000-2016) - , 2017 .
[19] W. O. Castillo,et al. Assessment of anti-cholinesterase activity and cytotoxicity of cagaita (Eugenia dysenterica) leaves. , 2017, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.
[20] M. Vizzotto,et al. Synergisms in Alpha-glucosidase Inhibition and Antioxidant Activity of Camellia sinensis L. Kuntze and Eugenia uniflora L. Ethanolic Extracts , 2017, Pharmacognosy research.
[21] W. Setzer,et al. Phenylpropanoid-rich Essential Oils of Piper Species from the Amazon and their Antifungal and Anti-cholinesterase Activities , 2016, Natural product communications.
[22] P. Andrade,et al. α-Glucosidase and α-amylase inhibitors from Myrcia spp.: a stronger alternative to acarbose? , 2016, Journal of pharmaceutical and biomedical analysis.
[23] D. Staerk,et al. Magnetic Ligand Fishing as a Targeting Tool for HPLC-HRMS-SPE-NMR: α-Glucosidase Inhibitory Ligands and Alkylresorcinol Glycosides from Eugenia catharinae. , 2015, Journal of natural products.
[24] Zhaohua Ping,et al. Preliminary screening of 44 plant extracts for anti-tyrosinase and antioxidant activities. , 2015, Pakistan journal of pharmaceutical sciences.
[25] N. Koorbanally,et al. PHYTOCHEMISTRY, ANTIOXIDATIVE AND ANTIDIABETIC EFFECTS OF VARIOUS PARTS OF EUGENIA CARYOPHYLLATA THUNB. IN VITRO , 2015 .
[26] G. Oboh,et al. Essential Oil from Clove Bud (Eugenia aromatica Kuntze) Inhibit Key Enzymes Relevant to the Management of Type-2 Diabetes and Some Pro-oxidant Induced Lipid Peroxidation in Rats Pancreas in vitro. , 2015, Journal of oleo science.
[27] Dejian Huang,et al. Inhibiting enzymatic starch digestion by hydrolyzable tannins isolated from Eugenia jambolana , 2014 .
[28] Jing Zhao,et al. A novel sample preparation and on-line HPLC-DAD-MS/MS-BCD analysis for rapid screening and characterization of specific enzyme inhibitors in herbal extracts: case study of α-glucosidase. , 2014, Journal of pharmaceutical and biomedical analysis.
[29] Tatiana do Nascimeto Pedrosa,et al. Atividades biológicas dos óleos essenciais de Endlicheria citriodora, uma lauraceae rica em geranato de metila , 2013 .
[30] S. M. Morais,et al. Correlação entre as atividades antiradical, antiacetilcolinesterase e teor de fenóis totais de extratos de plantas medicinais de farmácias vivas , 2013 .
[31] Tatiane Pereira de Souza,et al. Extract from Eugenia punicifolia is an Antioxidant and Inhibits Enzymes Related to Metabolic Syndrome , 2013, Applied Biochemistry and Biotechnology.
[32] A. Mukherjee,et al. Indian medicinal plants known to contain intestinal glucosidase inhibitors also inhibit pancreatic lipase activity—An ideal situation for obesity control by herbal drugs , 2013 .
[33] L. A. Simeoni,et al. Plants from Brazilian Cerrado with Potent Tyrosinase Inhibitory Activity , 2012, PloS one.
[34] N. Seeram,et al. α-Glucosidase inhibitory hydrolyzable tannins from Eugenia jambolana seeds. , 2012, Journal of natural products.
[35] V. F. V. Junior,et al. Investigação do potencial antioxidante e anticolinesterásico de 20 espécies da família Lauraceae , 2012 .
[36] C. P. Fernandes,et al. Chemical composition of essential oils and anticholinesterasic activity of Eugenia sulcata Spring ex Mart. , 2012 .
[37] E. M. Dalmarco,et al. Bioactive triterpenes and phenolics of leaves of Eugenia brasiliensis , 2012 .
[38] C. P. Fernandes,et al. Chemical and Biological Study of Essential Oils from Eugenia pruniformis Cambess., an Endemic Species from Brazilian Atlantic Forest , 2012 .
[39] V. Bolzani,et al. Geranylation of benzoic acid derivatives by enzymatic extracts from Piper crassinervium (Piperaceae). , 2010, Bioresource technology.
[40] I. Cordeiro,et al. Chemical composition and acetylcholinesterase inhibitory activity of essential oils of Myrceugenia myrcioides(Cambess.) O. Berg and Eugenia riedelianaO. Berg, Myrtaceae , 2010 .
[41] V. Bolzani,et al. Screening for antifungal, DNA-damaging and anticholinesterasic activities of Brazilian plants from the Atlantic Rainforest: Ilha do Cardoso State Park , 2008 .
[42] Tony Taldone,et al. Alpha-glucosidase inhibitory activity of Syzygium cumini (Linn.) Skeels seed kernel in vitro and in Goto-Kakizaki (GK) rats. , 2008, Carbohydrate research.
[43] Toshimitsu Hayashi,et al. a-glucosidase Inhibitors From Paraguayan Natural Medicine, Ñangapiry, The Leaves Of Eugenia Uniflora , 2000, Pharmaceutical biology.
[44] S. Amagaya,et al. Improving effects of the extracts from Eugenia uniflora on hyperglycemia and hypertriglyceridemia in mice. , 1999, Journal of ethnopharmacology.
[45] M. Yoshikawa,et al. Antidiabetic principles of natural medicines. II. Aldose reductase and alpha-glucosidase inhibitors from Brazilian natural medicine, the leaves of Myrcia multiflora DC. (Myrtaceae): structures of myrciacitrins I and II and myrciaphenones A and B. , 1998, Chemical & pharmaceutical bulletin.
[46] M. Heo,et al. Biological screening of 100 plant extracts for cosmetic use (I): inhibitory activities of tyrosinase and DOPA auto‐oxidation , 1997 .
[47] David S. Latchman,et al. Biochemistry (4th edn) , 1995 .