Fonte emergente de compostos bioativos da família Arecaceae: uma revisão sistemática
DOI:
https://doi.org/10.33448/rsd-v10i10.18994Palavras-chave:
Plantas medicinais; Atividades biológicas; Biodiversidade brasileira; Arecaceae.Resumo
A utilização de plantas com fins medicinais é realizada empiricamente pelos conhecimentos tradicionais com a utilização de preparações que buscam extrair seus princípios ativos, e são consideradas fundamentais para a saúde humana. Nesse contexto, o objetivo deste estudo foi realizar uma revisão sistemática das atividades biológicas da família Arecaceae distribuída por todo o Brasil. Esta pesquisa foi realizada por meio de uma busca abrangente nas bases de dados Scopus, Portal Periódicos Capes, PubMed, Google Scholar e Science Direct, utilizando os seguintes descritores: “Arecaceae” e “Propriedades biológicas da família Arecaeae”, verificados em <www .theplantlist.org /> para verificar sinônimos. Foi possível identificar inúmeras atividades biológicas na família das Arecaceae, entre as mais recorrentes, a atividade antioxidante, antimicrobiana e antiinflamatória. Essas atividades são justificadas pela presença de ácidos graxos, compostos fenólicos, alcalóides e terpenos. Os estudos rotineiramente relatam o ácido láurico como um dos principais nas plantas desta família, o que o torna um composto potencial para curar ou auxiliar no tratamento de várias doenças.
Referências
Abdul-hamid, N. A., Hafizah, N., Maulidiani, M., Mediani, A., Safinar, I., Ling, C., … Abas, F. (2020). Journal of the Saudi Society of Agricultural Sciences Quality evaluation of the physical properties , phytochemicals , biological activities and proximate analysis of nine Saudi date palm fruit varieties. Journal of the Saudi Society of Agricultural Sciences, 19(2), 151–160. https://doi.org/10.1016/j.jssas.2018.08.004
Aboshora, W., Lianfu, Z., Dahir, M., Qingran, M., Qingrui, S., Jing, L., … Ammar, A. (2014). Effect of Extraction Method and Solvent Power on Polyphenol and Flavonoid Levels in Hyphaene Thebaica L Mart ( Arecaceae ) ( Doum ) Fruit , and its Antioxidant and Antibacterial Activities. Tropical Journal of Pharmaceutical Research, 13(12), 2057–2063.
Abreu da Silva, A. C., & Botelho de Santana, L. L. (2018). The risks of the use of medicinal plants during the gestational period: A bibliographic review Abreu. Acta Toxicologica, 26, 118–125.
Adaramoye, O., & Ola-davies, O. E. (2015). Ameliorative Effects of Chloroform Fraction of Cocos nucifera L . Husk Fiber Against Cisplatin-induced Toxicity in Rats April - June 2016 | Volume 8 | Issue 2. Phamacognosy Research, 8(2), 89–95. https://doi.org/10.4103/0974-8490.172658
Al-Okbi, S. Y. (2014). Nutraceuticals of anti-inflammatory activity as complementary therapy for rheumatoid arthritis. Toxicology and Industrial Health, 30(8), 738–74. https://doi.org/10.1177/0748233712462468
Alves, C. Q., Química, I. De, Federal, U., Ondina, C., Ba, S., David, J. P., … Ba, S. (2010). Métodos para determinação de atividade antioxidante in vitro em substratos orgânicos. Química Nova, 33(10), 2202–2210.
Aranaga, C. A., Fraile, S., Torres, A., Falco, A., Michelangeli, F., & Takiff, H. (2020). Antimycobacterial and PknB Inhibitory Activities of Venezuelan Medicinal Plants. International Journal of Microbiology, 2020.
Asadi-Samani, M., Rafieian-Kopaei, M. R., & Azimi, N. (2013). Gundelia: A Systematic Review of Medicinal and Molecular Perspective. Pakistan Journal of Biological Sciences, 16(21), 1–11.
Ashley, N. T., Weil, Z. M., & Nelson, R. J. (2012). Inflammation : Mechanisms , Costs , and Natural Variation. Reviews in Advance, 43(August), 385–406. https://doi.org/10.1146/annurev-ecolsys-040212-092530
Balasudram, N., Sundram, K., & Samman, S. (2006). Phenolic compounds in plants and agri-industrial by-products : Antioxidant activity , occurrence , and potential uses. Food Chemistry, 99, 191–203. https://doi.org/10.1016/j.foodchem.2005.07.042
Balslev, H., Laumark, P., Pedersen, D., & Grández, C. (2016). Tropical rainforest palm communities in Madre de Dios in Amazonian Peru. Revista Peruana de Biologia, 23(1), 1–12.
Barroqueiro, E. S. B., Prado, D. S., Barcellos, P. S., Silva, T. A., Pereira, W. S., Silva, L. A., … Guerra, R. N. M. (2016). Immunomodulatory and Antimicrobial Activity of Babassu Mesocarp Improves the Survival in Lethal Sepsis Immunomodulatory and Antimicrobial Activity of Babassu Mesocarp Improves the Survival in Lethal Sepsis, (August). https://doi.org/10.1155/2016/2859652
Belviso, S., Ghirardello, D., Giordano, M., Sousa, G., Souza, J. De, Parodi, S., … Zeppa, G. (2013). Phenolic composition , antioxidant capacity and volatile compounds of licuri ( Syagrus coronata ( Martius ) Beccari ) fruits as affected by the traditional roasting process. Food Research International Journal, 51(1), 39–45. https://doi.org/10.1016/j.foodres.2012.11.012
Bessa, C. M. A. S., Nascimento, R. S., Alves, R. C. C., Anselmo, J. M., Silva, A. P. S., Silva, A. G., … Correia, M. T. S. (2016). Syagrus coronata seed oils have antimicrobial action against multidrug-resistant Staphylococcus aureus. Journal of Medicinal Plants Research, 10(23), 310–317. https://doi.org/10.5897/JMPR2016.6098
Blok, W. L., Katan, M. B., Jos, W. M., & Meer, V. D. (1996). Critical Review Modulation of Inflammation and Cytokine Production by Dietary ( n-3 ) Fatty Acids. American Institute of Nutrition, (January), 1515–15333.
Boeing, J. S., Barizão, É. O., Rotta, E. M., Volpato, H., Nakamura, C. V., Maldaner, L., & Visentainer, J. V. (2019). Phenolic Compounds from Butia odorata ( Barb . Rodr .) Noblick Fruit and Its Antioxidant and Antitumor Activities. Food Analytical Methods.
BRASIL. (2011). Espécies Nativas da Flora Brasileira de Valor Econômico Atual ou Potencial Plantas para o Futuro - Região Sul.
Calder, P. C. (2002). Dietary modification of inflammation with lipids. Proceedings of the Nutrition Society, 1(61), 345–358. https://doi.org/10.1079/PNS2002166
Chi, G. F., Sop, R. V. T., Mbaveng, A. T., & Ombito, J. O. (2020). Steroidal saponins from Raphia vinifera and their cytotoxic activity. Steroids, 163(July), 108724. https://doi.org/10.1016/j.steroids.2020.108724
Demirci, B., Tsikolia, M., Barbier, U., Agramonte, N. M., & AlqasoumiL, S. I. (2013). Phoenix dactylifera L. spathe essential oil: Chemical composition and repellent activity against the yellow fever mosquito. Acta Tropica, 8–11. https://doi.org/10.1016/j.actatropica.2013.08.003
Elgindi, M. R., Singab, A. N., Mahmoud, I. M., & Abdullah, S. H. (2015). Phytochemical and biological investigation of the leaves of Ravenea rivularis ( Arecaceae ), 4(1), 72–78.
Elhakim, I. A. A., Abdel-Baky, A. M., & Bishay, W. (2017). Botanical and biological study of the leaves of caryota mitis lour. family arecaceae cultivated in egypt. Bulletin of Pharmaceutical Sciences Assiut, 40, 71–95.
Emilio, T., Lamarque, L. J., Torres-ruiz, J. M., King, A., Charrier, G., Burlett, R., … Delzon, S. (2019). Embolism resistance in petioles and leaflets of palms. Embolism Resistance in Palms, 124, 1173–1183. https://doi.org/10.1093/aob/mcz104
Favacho, H. A. S., Oliveira, B. R., Santos, K. C., Medeiros, B. J. L., Sousa, P. J. C., Fabio, F., & Carvalho, J. C. T. (2011). Anti-infl ammatory and antinociceptive activities of Euterpe oleracea oil. Revista Brasileira de Farmacognosia, 21(1), 105–114. https://doi.org/10.1590/S0102-695X2011005000007
Figueiredo, A. M. S., Ferreira, F. A., Beltrame, C. O., & Côrtes, M. F. (2017). Critical Reviews in Microbiology The role of biofilms in persistent infections and factors involved in ica-independent biofilm development and gene regulation in Staphylococcus aureus Staphylococcus aureus. Critical Reviews in Microbiology, 43(5), 602–620. https://doi.org/10.1080/1040841X.2017.1282941
Filho, A. M. (2010). Desenvolvimento , validação e aplicação de metodologias para determinação de resíduos de agrotóxicos em manga por SPME-GC-MS e SPME-HPLC-UV-Vis, 150.
Grimm, C., Wenzel, A., Groszer, M., Mayser, H., & Seeliger, M. (2002). HIF-1-induced erythropoietin in the hypoxic retina protects against light-induced retinal degeneration. Nature, 8(7), 2–8. https://doi.org/10.1038/nm723
Guerra, R. N. M., Silva, V. M. G., Aragão-frança, L. S., Oliveira, P. R., & Feitosa, R. (2011a). Babassu aqueous extract ( BAE ) as an adjuvant for T helper ( Th ) 1-dependent immune responses in mice of a Th2 immune response-prone strain. BMC Immunology, 12(1), 13. https://doi.org/10.1186/1471-2172-12-13
Guerra, R. N. M., Silva, V. M. G., Aragão-frança, L. S., Oliveira, P. R., & Feitosa, R. (2011b). Babassu aqueous extract ( BAE ) as an adjuvant for T helper ( Th ) 1-dependent immune responses in mice of a Th2 immune response-prone strain.
Henrique, H., Koolen, F., & Soares, E. R. (2019). An antimicrobial diketopiperazine alkaloid and co-metabolites from an endophytic strain of Gliocladium isolated from Strychnos cf . toxifera. Natural Product Research, 26(21), 2013–2019.
Inouye, S., Yamaguchi, H., & Takizawa, T. (2001). Screening of the antibacterial effects of a variety of essential oils on respiratory tract pathogens , using a modified dilution assay method. JOURNAL Infect Chemother, 7, 251–254.
Jahromi, A. R., Rasooli, R., Kamali, Y., Ahmadi, N., & Sattari, E. (2017). Short-term Effects of Date Palm Extract ( Phoenix dactylifera ) on Ischemia / Reperfusion Injury Induced by Testicular Torsion / Detorsion in Rats. Pharmacognosy Research, (January). https://doi.org/10.4103/0974-8490.199769
James, M. J., Gibson, R. A., & Cleland, L. G. (2000). Dietary polyunsaturated fatty acids and inflammatory mediator production 1,2. American Society for Clinical Nutrition, 71, 1–6.
James, W., John, P., Mumtaz, M. W., Ch, A. R., Adnan, A., Mukhtar, H., … Raza, S. A. (2018). Antioxidant activity , Hypoglycemic potential and metabolite profiling of Hyophorbe indica leaf extract, 31(6), 2737–2742.
Joy, A., Vinson, B., Anto, L., Dinilkumar, M., Wilson, S., Simon, S., & Jose, J. (2019). Antibacterial screening and phytochemical powder isolated from dorsal side of leaves of Cocos nucifera ( Arecacaae ). Journal of Pharmaceutical Sciences and Research, 11(7), 2557.
Kadja, B. A., Atsain-allangba, R. M., Kouamé, B. K., & Janat, A. (2020). GSC Biological and Pharmaceutical Sciences Influence of temperature on the phytochemical composition and the antioxidant and anticariogenic activities of extracts from the husk of the fruit of Cocos nucifera L . ( Arecaceae ), 12(2), 179–187.
Karamian, R., & Kamalnejad, J. (2019). Green Synthesis of Silver Nanoparticles Using Cuminum cyminum Leaf Extract and Evaluation of Their Biological Activities, 9(1), 74–85. https://doi.org/10.22052/JNS.2019.01.008
Kassem, M., & Afifi, M. S. (2014). Chemical Composition of the Lipophilic Fraction of Livistona australis R . Br . Journal of Natural Products Research Paper Chemical Composition of the Lipophilic Fraction of Livistona australis R . Br . Mart ., ( Arecaceae ) Fruit Pulp and Evaluation of its Antioxidant and Antihyperlipidemic Activities, (January).
Khan, F., Dastagir, N., Lateef, M., Yousuf, M., Mirani, A., Mesaik, A., … Kazmi, S. U. (2018). Immunomodulatory activities of extracts of Caesalpinia pulcherrima Immunomodulatory activities of extracts of Caesalpinia pulcherrima. Journal of Herbs, Spices & Medicinal Plants, 0(0), 1–12. https://doi.org/10.1080/10496475.2018.1463931
Kharchoufa, L., Merrouni, I. A., Yamani, A., & Elachouri, M. (2018). Profile on Medicinal Plants Used by the People of North Eastern Morocco: Toxicity Concerns. Toxicon, 154. https://doi.org/10.1016/j.toxicon.2018.09.003
Koc, S., Evren, O. H., & Cetin, H. (2016). Short Communication Evaluation of Some Plant Fruit Extracts for the Control of West Nile Virus Vector Culex pipiens ( Diptera : Culicidae ), 10(December), 595–601.
Kristanc, L., & Kreft, S. (2016). European Medicinal and Edible Plants Associated with Subacute and Chronic Toxicity Part. Food and Chemical Toxicology, 131, 1–51. https://doi.org/10.1016/j.fct.2016.04.007
Lana, D. F. D., Martins Necchi, R. M., Casoti, R., & Manfron, M. P. (2012). Uma Revisão Sobre As Propriedades Farmacológicas, Morfoanatomia E Toxicicidade De Xanthium Cavanillesii Schouw (Asteraceae). Saúde (Santa Maria), 38(2), 57–70. https://doi.org/10.5902/223658344917
Lee, I., Lee, W., Tsai, C., & Su, I. (2012). Combined extractives of red yeast rice , bitter gourd , chlorella , soy protein , and licorice improve total cholesterol , low-density lipoprotein cholesterol , and triglyceride in subjects with metabolic syndrome. Nutrition Research, 32(2), 85–92. https://doi.org/10.1016/j.nutres.2011.12.011
Leitman, P.; Soares, K.; Henderson, A.; Noblick, L.; Martins, R. C. (2015). Arecaceae in Lista de Espécies da Flora do Brasil. Jardim Botânico do Rio de Janeiro.
León-mejía, G., Espitia-pérez, L., Hoyos-giraldo, L. S., Da, J., Hartmann, A., Antônio, J., … Quintana, M. (2011). Science of the Total Environment Assessment of DNA damage in coal open-cast mining workers using the cytokinesis-blocked micronucleus test and the comet assay. Science of the Total Environment, The, 409(4), 686–691. https://doi.org/10.1016/j.scitotenv.2010.10.049
Lescano, C. H., & Kassuya, C. (2014). Diuretic and anti-Inflammatory activities of the microencapsulated Acrocomia aculeata (Arecaceae) oil on wistar rats. Journal of Medicinal Food. https://doi.org/10.1089/jmf.2014.0077
Lima, F. F. De, Emilia, S., Tolouei, L., Karenina, G., Arau, S. De, Lescano, C. H., … Oesterreich, S. A. (2016). Study on the Cytotoxic , Genotoxic and Clastogenic Potential of Attalea phalerata Mart . ex Spreng . Oil Pulp In Vitro and In Vivo Experimental Models, 1–12. https://doi.org/10.1371/journal.pone.0165258
López-Romero, D., Izuierdo-Vega, J. A., Morales-Gonçález, J. A., Madrigal-Bujaidar, E., Chamorro-Cevallos, G., Sánchez-Gutiérrez, M., … MADRIGAL-SANTILLIÁN, E. (2018). Evidence of Some Natural Products with Antigenotoxic Effects. Part 2: Plants, Vegetables, and Natural Resin. Nutrients, 10(1954), 1–46. https://doi.org/10.3390/nu10121954
Luz, T. R. S. A., Mesquita, L. S. S., Amaral, F. M. M. A., & Coutinho, D. F. (2020). Acta Tropica Essential oils and their chemical constituents against Aedes aegypti L . ( Diptera : Culicidae ) larvae. Acta Tropica, 212(May), 105705. https://doi.org/10.1016/j.actatropica.2020.105705
Maia, D. S. V. (2019). Atividade antibacteriana de extrato de butiá (Butia odorata Barb. Rodr.): mecanismo de ação, aplicação em sistema alimentar e em biofilme bacteriano.
Mariselvam, R., Ranjitsingh, A. J. A., Raja, A. U., Kalirajan, K., Padmalatha, C., & Selvakumar, P. M. (2014). Spectrochimica Acta Part A : Molecular and Biomolecular Spectroscopy Green synthesis of silver nanoparticles from the extract of the inflorescence of Cocos nucifera ( Family : Arecaceae ) for enhanced antibacterial activity. SPECTROCHIMICA ACTA PART A: MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 129, 537–541. https://doi.org/10.1016/j.saa.2014.03.066
Marques, E. S., Froder, J. G., Carvalho, J. C. T., Rosa, P. C. P., Perazzo, F. F., & Maistro, E. L. (2016). Evaluation of the genotoxicity of Euterpe oleraceae Mart . ( Arecaceae ) fruit oil ( açaí ), in mammalian cells in vivo. Food and Chemical Toxicology, 93, 13–19. https://doi.org/10.1016/j.fct.2016.04.018
Mattos, G., Camargo, A., Sousa, C. A., & Zeni, A. L. B. (2018). Medicinal plants and herbal medicines in Primary Health Care: the perception of the professionals. Ciencia & Saude Coletiva, 23(11), 3735–3744. https://doi.org/10.1590/1413-812320182311.23572016
May, C. L., & Calder, P. C. (1993). Unsaturated fatty acids inhibit lymphocyte protein kinase C activity. Biochemical SocietyTransactions, (1987), 5153.
Mayer, S. V, Tesh, R. B., & Vasilakis, N. (2016). THE EMERGENCE OF ARTHROPOD-BORNE VIRAL DISEASES: A GLOBAL PROSPECTIVE ON DENGUE, CHIKUNGUNYA AND ZIKA FEVERS. Acta Tropica, (16), 1–34. https://doi.org/10.1016/j.actatropica.2016.11.020
Menéndez, R., Carvajal, D., Mas, R., Pérez, Y., Molina, V., Arruzazabala, M. L., & Goncález, R. M. (2006). Efectos del D-004 , Extracto Lip í dico de los Frutos de la Palma Real ( Roystonea regia ), sobre el Granuloma inducido por Algod ó n en Ratas y sobre la Lipoxigenasa presente en Leucocitos Polimorfonucleares ( PMNs ). Acta Farm, 25(2), 213–218.
Minighin, E. C., Souza, K. F., Valenzuela, V. D. C. T., Silva, N. O. C., Anastácio, L. R., & Labanca, R. A. (2019). Effect of in vitro gastrointestinal digestion on the mineral content , phenolic compounds , and antioxidant capacity of commercial ´ ( Euterpe oleracea Mart .) pulps of purple and white ac ¸ aı. J Food Sci Technol, 1–13. https://doi.org/10.1007/s13197-019-04207-5
Mpiana, P. T., Masunda, T. A., Longoma, B. F., Tshibangu, D. S. T., & Ngbolua, K. N. (2013). Anti-Hyperglycemic Activity of Raphia gentiliana De Wild . ( Arecaceae ), 3(2), 233–240.
Murugan, R., Saravanan, S., & Parimelazhagan, T. (2018). Study of intestinal anti-inflammatory activity of Phoenix loureiroi Kunth ( Arecaceae ) fruit ScienceDirect Study of intestinal anti-in fl ammatory activity of Phoenix loureiroi Kunth ( Arecaceae ) fruit. Biomedicine et Pharmacotherapy, 93(September 2017), 156–164. https://doi.org/10.1016/j.biopha.2017.06.028
Nembo, E. N., Hescheler, J., & Nguemo, F. (2020). Biomedicine & Pharmacotherapy Stem cells in natural product and medicinal plant drug discovery — An overview of new screening approaches. Biomedicine & Pharmacotherapy, 131, 110730.
Nguenang, G. S., Mbaveng, A. T., Fankam, A. G., Manekeng, H. T., Nayim, P., Wamba, B. E. N., & Kuete, V. (2018). Tristemma hirtum and Five Other Cameroonian Edible Plants with Weak or No Antibacterial Effects Modulate the Activities of Antibiotics against Gram-Negative Multidrug-Resistant Phenotypes, 2018.
Nonato, C. F. A., Leite, D. O. D., Pereira, R. C., Boligon, A. A., Ribeiro-Filho, J., Rodrigues, F. F. G., & Costa, J. G. M. (2018). Chemical analysis and evaluation of antioxidant and antimicrobial activities of fruit fractions of Mauritia flexuosa L . f . ( Arecaceae ). Peerj, 6, 1–21. https://doi.org/10.7717/peerj.5991
Okkacha, H., Edine, A. D., & Raja, S. (2013). Research Journal of Pharmaceutical , Biological and Chemical Sciences Antibacterial Activity of Essential Oils of Chamaerops humilis ( Arecaceae ) on Some Pathogenic Bacteria. Research Journal of Pharmaceutical, Biological and Chemical Sciences Antibacterial, 4(4), 626–633.
Okwuosa, C. N., Udeani, T. K., Umeifekwem, J. E., & Augustine, C. (2014). Hepatoprotective Effect of Methanolic Fruit Extracts of Phoenix dactylifera ( Arecaceae ) on Thioacetamide Induced Liver Damage in Rats. American Journal of Phytomedicine and Clinical Therapeutics, 2(3), 1–11.
Oliveira, A. I. . T., Mahmoud, T. S., Nascimento, G. N. L., Silva, J. F. . ., Pimenta, R. S., & Morais, P. B. (2016). Chemical Composition and Antimicrobial Potential of Palm Leaf Extracts from Babaçu ( Attalea speciosa ), Buriti ( Mauritia flexuosa ), and Macaúba ( Acrocomia aculeata ). ?e Scientific World Journa, 1–6.
Omondi, P., Owino, E. A., Odongo, D., Mwangangi, J. M., Torto, B., & Tchouassi, D. P. (2019). Acta Tropica Di ff erential response to plant- and human-derived odorants in fi eld surveillance of the dengue vector , Aedes aegypti. Acta Tropica, 200(July), 1–7. https://doi.org/10.1016/j.actatropica.2019.105163
Paharik, A. E., & Horswill, A. R. (2016). The Staphylococcal Bio fi lm : Adhesins , Regulation , and Host Response. Microbiology Spectrum, 4(2), 1–27. https://doi.org/10.1128/microbiolspec.VMBF-0022-2015.Correspondence
Palmer, W. H., Dittmar, M., Gordesky-gold, B., Hofmann, J., & Cherry, S. (2020). Drosophila melanogaster as a model for arbovirus infection of adult salivary glands. Virology, 543(September 2019), 1–6. https://doi.org/10.1016/j.virol.2020.01.010
PEREIRA, R. J., & CARDOSO, M. G. (2012). Metabólitos secundários vegetais e benefícios antioxidantes Vegetable secondary metabolites and antioxidants benefits. Journal of Biotechnology and Biodiversity, 3(November), 146–152.
Pinheiro, M. M. G., Boylan, F., & Fernandes, P. D. (2012). Antinociceptive effect of the Orbignya speciosa Mart . ( Babassu ) leaves : Evidence for the involvement of apigenin. Life Sciences, 91(9–10), 293–300. https://doi.org/10.1016/j.lfs.2012.06.013
Prasansuklab, A., Brimson, J. M., & Tencomnao, T. (2020). Potential Thai medicinal plants for neurodegenerative diseases : A review focusing on the anti-glutamate toxicity effect. Journal of Traditional Chinese Medical Sciences, 10(3), 301–308. https://doi.org/10.1016/j.jtcme.2020.03.003
Prestinaci, F., Pezzotti, P., & Pantosti, A. (2015). Antimicrobial resistance : a global multifaceted phenomenon. Pathogens and Global Health, 0(0), 1–10. https://doi.org/10.1179/2047773215Y.0000000030
Ramos, V. P., Silva, P G, Oliveira, P. S., Bona, N. P., Hofmann, J. F., & Chaves, F. C. (2020). Hypolipidemic and anti-inflammatory properties of phenolic rich Butia odorata fruit extract: potential involvement of paraoxonase activity. Biomarkers, 0(0), 1–26. https://doi.org/10.1080/1354750X.2020.1781261
Rodrigues, I. A., Alviano, D. S., Gomes, M. T., Silva, D. O., Antoniassi, R., Silva, A. J. R., … Rosa, S. S. (2011). In vitro anti- Leishmania amazonensis activity of the polymeric procyanidin-rich aqueous extract from Syagrus coronata. Journal of Medicinal Plants Research, 5(16), 3781–3790.
Rosa, F. R., Arruda, A. F., Egle, M. A., & Arruda, S. F. (2016). Phytochemical Compounds and Antioxidant Capacity of Tucum-Do-Cerrado ( Bactris Setosa Mart). Nutrients, 8, 1–17.
Santos, B. S., Bezerra-Filho, C. M., Nascimento Junior, J. A. A., Brust, F. R., Bezerra-Silva, P. C., Rocha, S. K. L., … Paiva, P. M. G. (2019). Microbial Pathogenesis Anti-staphylococcal activity of Syagrus coronata essential oil : Biofilm eradication and in vivo action on Galleria mellonela infection model. Microbial Pthogenesis, 131(August 2018), 150–157. https://doi.org/10.1016/j.micpath.2019.04.009
Santos, I. C. R. V., Souza, M. A. de O., Andrade, L. N. V. de, Lopes, M. P., Barros e Silva, M. F. A. de, & Santiago, R. T. (2014). Characterization of care for patients with wounds in Primary Care. Revista Da Rede de Enfermagem Do Nordeste, 15(4), 613–620. https://doi.org/10.15253/2175-6783.2014000400008
Santos, L. M. M., Nascimento, J. S., Santos, M. A. G., Marriel, N. B., Bezerra Silva, P. C., Rocha, S. K. L., … Napoleão, T. H. (2017). Fatty acid-rich volatile oil from Syagrus coronata seeds has larvicidal and oviposition-deterrent activities against Aedes aegypti. Physiological and Molecular Plant Pathology, 17, 1–31. https://doi.org/10.1016/j.pmpp.2017.05.008
Santos, A. C. F. Dos, Aguiar-Dias, A. C. A. De, Amarante, C. B. Do, & Coelho-Ferreira, M. (2013). Estruturas secretoras da lâmina foliar de amapá amargo (Parahancornia fasciculata, Apocynaceae): histoquímica e doseamento de flavonoides. Acta Amazonica, 43(4), 407–413. https://doi.org/10.1590/S0044-59672013000400002
Sengupta, S., Chattopadhyay, M. K., & Grossart, H. (2013). The multifaceted roles of antibiotics and antibiotic resistance in nature. Ecological Role of Antibiotics in Nature, 4(March), 1–13. https://doi.org/10.3389/fmicb.2013.00047
Shabbir, A., Shahzad, M., & Gobe, G. C. (2014). Protective activity of medicinal plants and their isolated compounds against the toxic effects from the venom of of Naja (Cobra) species. Journal of Ethnopharmacology, 222–227, 222–227. https://doi.org/10.1016/j.jep.2014.09.039
Soldati, L., Lombardi, C., Adamo, D., Terranegra, A., Bianchin, C., Bianchi, G., & Vezzoli, G. (2002). O ácido araquidônico aumenta o cálcio intracelular nos eritrócitos. Biochem Biophys Res Commun 293 : 974-978, 2002. Biochem Biophys Res Commun, 293, 974–978.
Takahashi, Y., & Tatsuma, T. (2014). Metal Oxides and Hydroxides as Rechargeable Materials for Photocatalysts with Oxidative Energy Storage Abilities. Electrochemistry, 2(3), 749–751.
Tapondjou, L. A., Siems, K. J., Bottger, S., & Melzing, M. (2015). Steroidal Saponins from the Mesocarp of the Fruits of Raphia farinifera (Arecaceae) and their Cytotoxic Activity Léon. Natural Product Communications, 10(11), 8–11. https://doi.org/10.1177/1934578X1501001134
Tayler, N. M., Boya, C. A., Herrera, L., Moy, J., Ng, M., Pineda, L., … Id, C. S. (2019). Analysis of the antiparasitic and anticancer activity of the coconut palm ( Cocos nucifera L . ARECACEAE ) from the natural reserve of ´ n Punta Pati ñ o , Darie. Plos One, 14(4), 1–18.
Thebo, N. K., Simair, A. A., Mangrio, G. S., Ansari, K. A., Bhutto, A. A., Lu, C., … Sample, S. (2016). Antifungal Potential and Antioxidant Efficacy in the Shell Extract of Cocos nucifera ( L .) ( Arecaceae ) against. Medicines, 3(12), 1–12. https://doi.org/10.3390/medicines3020012
Vinholes, J., Lemos, G., Lia, R., Franzon, R. C., & Vizzotto, M. (2017). Assessment of the antihyperglycemic and antioxidant properties of araçá, butiá and pitanga and changes along the. Food Bioscience, 1–39. https://doi.org/10.1016/j.fbio.2017.06.005
Vinod, V., Tiwari, P. K., & Meshram, G. P. (2011). Evaluation of mutagenic and antimutagenic activities of neem ( Azadirachta indica ) seed oil in the in vitro Ames Salmonella / microsome assay and in vivo mouse bone marrow micronucleus test. Journal of Ethnopharmacology, 134(3), 931–937. https://doi.org/10.1016/j.jep.2011.02.003
Weatherill, A. R., Lee, J. Y., Zhao, L., Danielle, G., Youn, H. S., Hwang, D. H., … Hwang, D. H. (2005). Modulate Dendritic Cell Functions Mediated through TLR4 1. The Journal of Immunology, 174(9), 1–9. https://doi.org/10.4049/jimmunol.174.9.5390
William, J., John, P., Mumtaz, M. W., Ch, A. R., Adnan, A., Mukhtar, H., … Raza, S. A. (2018). Antioxidant activity , Hypoglycemic potential and metabolite profiling of Hyophorbe indica leaf extract Antioxidant activity , Hypoglycemic potential and metabolite profiling of Hyophorbe indica leaf extract, (November).
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Copyright (c) 2021 Ricardo Sérgio da Silva; Paulo Henrique Oliveira de Miranda; Luciclaudio Cassimiro de Amorim; Paulo Henrique Eloi Fernandes; Elias Vinícius Ferreira do Amaral; Bruno Oliveira de Veras; Fernanda Granja da Silva Oliveira; Maria Tereza dos Santos Correia; Jackson Roberto Guedes da Silva Almeida; Márcia Vanusa da Silva
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