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- Nachgewiesen in: MEDLINE
- Sprachen: English
- Publication Type: Journal Article
- Language: English
- [Chem Biodivers] 2020 Oct; Vol. 17 (10), pp. e2000521. <i>Date of Electronic Publication: </i>2020 Sep 18.
- MeSH Terms: Antiprotozoal Agents / *pharmacology ; Bicyclic Monoterpenes / *pharmacology ; Oils, Volatile / *pharmacology ; Plants, Medicinal / *chemistry ; Thymol / *pharmacology ; Trypanosomatina / *drug effects ; Antiprotozoal Agents / chemistry ; Antiprotozoal Agents / isolation & purification ; Bicyclic Monoterpenes / chemistry ; Bicyclic Monoterpenes / isolation & purification ; Oils, Volatile / chemistry ; Oils, Volatile / isolation & purification ; Origanum / chemistry ; Parasitic Sensitivity Tests ; Salvia / chemistry ; Thymol / chemistry ; Thymol / isolation & purification
- References: K. Stuart, R. Brun, S. Croft, A. Fairlamb, R. E. Gürtler, J. McKerrow, S. Reed, R. Tarleton, ‘Kinetoplastids: related protozoan pathogens, different diseases’, J. Clin. Invest. 2008, 118, 1301-1310. ; J. Lukeš, A. Butenko, H. Hashimi, D. A. Maslov, J. Votýpka, V. Yurchenko, ‘Trypanosomatids are much more than just trypanosomes: clues from the expanded family tree’, Trends Parasitol. 2018, 34, 466-480. ; M. Boelaert, S. Sundar, in ‘Manson's Tropical Infectious Diseases’, Eds. J. Farrar, P. Hotez, T. Junghanss, G. Kang, D. Lalloo, N. White, Saunders Ltd., London, 2014, pp. 606-651. ; E. P. Camargo, ‘Phytomonas and other trypanosomatid parasites of plants and fruit’, Adv. Parasitol. 1999, 42, 29-112. ; E. Jaskowska, C. Butler, G. Preston, S. Kelly, ‘Phytomonas: trypanosomatids adapted to plant environments’, PLoS Pathog. 2015, 11, e1004927. ; M. H. Vainstein, I. Roitman, ‘Cultivation of Phytomonas françai associated with poor development of root system of cassava’, J. Protozool. 1986, 33, 511-513. ; R. P. Brazil, J. E. Fiorini, P. M. de Faria e Silva, ‘Phytomonas sp. a trypanosomatid parasite of tomato, isolated from salivary glands of Phthia picta (Hemiptera: Coreidae) in Southeast Brazil’, Mem. Inst. Oswaldo Cruz 1990, 85, 239-240. ; C. A. Hoare, F. G. Wallace, ‘Developmental stages of trypanosomatid flagellates: a new terminology’, Nature 1966, 212, 1385-1386. ; F. R. Opperdoes, A. Butenko, P. Flegontov, V. Yurchenko, J. Lukeš, ‘Comparative metabolism of free-living Bodo saltans and parasitic trypanosomatids’, J. Eukaryot. Microbiol. 2016, 63, 657-678. ; A. D. C. M. Dos Santos, C. A. O. Ricart, A. H. Pontes, W. Fontes, A. R. de Souza, M. S. Castro, M. V. de Sousa, B. D. de Lima, ‘Proteome analysis of Phytomonas serpens, a phytoparasite of medical interest’, PLoS One 2018, 13, e0204818. ; D. J. Newman, G. M. Cragg, ‘Natural products as sources of new drugs over the 30 years from 1981 to 2010’, J. Nat. Prod. 2012, 75, 311-335. ; F. Bakkali, S. Averbeck, D. Averbeck, M. Idaomar, ‘Biological effects of essential oils - a review’, Food Chem. Toxicol. 2008, 46, 446-475. ; R. Pavela, ‘Acute toxicity and synergistic and antagonistic effects of the aromatic compounds of some essential oils against Culex quinquefasciatus Say larvae’, Parasitol. Res. 2015, 114, 3835-3853. ; Y. Lu, L. Y. Foo, ‘Polyphenolics of Salvia - a review’, Phytochemistry 2002, 59, 117-140. ; M. Serakta, Z. Djerrou, H. Mansour-Djaalab, F. Kahlouche-Riachi, S. Hamimed, W. Trifa, A. Belkhiri, N. Edikra, Y. Hamdi Pacha, ‘Antileishmanial activity of some plants growing in Algeria: Juglans regia, Lawsonia inermis and Salvia officinalis’, Afr. J. Tradit. Complementary Altern. Med. 2013, 10, 427-430. ; N. Llurba-Montesino, M. Kaiser, R. Brun, T. J. Schmidt, ‘Search for antiprotozoal activity in herbal medicinal preparations; new natural leads against neglected tropical diseases’, Molecules 2015, 20, 14118-14138. ; A. B. Cutillas, A. Carrasco, R. Martinez-Gutierrez, V. Tomas, J. Tudela, ‘Composition and antioxidant, antienzymatic and antimicrobial activities of volatile molecules from Spanish Salvia lavandulifolia (Vahl) essential oils’, Molecules 2017, 22, 1382. ; H. Kirmizibekmez, I. Atay, M. Kaiser, E. Yesilada, D. Tasdemir, ‘In vitro antiprotozoal activity of extracts of five Turkish Lamiaceae species’, Nat. Prod. Commun. 2011, 6, 1697-1700. ; D. Baricevic, T. Bartol, in ‘Oregano, the genera Origanum and Lippia’, Ed. S. E. Kintzios, Taylor & Francis Inc., New York, 2002, pp. 177-201. ; M. Machado, A. M. Dinis, L. Salgueiro, C. Cavaleiro, J. B. A. Custódio, M. C. Sousa, ‘Anti-giardia activity of phenolic-rich essential oils: effects of Thymbra capitata, Origanum virens, Thymus zygis subsp. sylvestris, and Lippia graveolens on trophozoites growth, viability, adherence, and ultrastructure’, Parasitol. Res. 2010, 106, 1205-1215. ; S. Costa, C. Cavadas, C. Cavaleiro, L. Salgueiro, M. C. Sousa, ‘In Vitro susceptibility of Trypanosoma brucei to selected essential oils and their major components’, Exp. Parasitol. 2018, 190, 34-40. ; G. F. Santoro, M. das Graças Cardoso, L. G. L. Guimarães, A. P. S. P. Salgado, R. F. S. Menna-Barreto, M. J. Soares, ‘Effect of oregano (Origanum vulgare L.) and thyme (Thymus vulgaris L.) essential oils on Trypanosoma cruzi (Protozoa: Kinetoplastida) growth and ultrastructure’, Parasitol. Res. 2007, 100, 783-790. ; M. Force, W. S. Sparks, R. A. Ronzio, ‘Inhibition of enteric parasites by emulsified oil of oregano In Vivo’, Phytother. Res. 2000, 14, 213-214. ; P. Sainz, M. F. Andrés, R. A. Martínez-Díaz, M. Bailén, J. Navarro-Rocha, C. E. Díaz, A. Gonzalez-Coloma, ‘Chemical composition and biological activities of Artemisia pedemontana subsp. assoana essential oils and hydrolate’, Biomolecules 2019, 9, 558. ; S. Robledo, E. Osorio, D. Muñoz, L. M. Jaramillo, A. Restrepo, G. Arango, I. Vélez, ‘In Vitro and In Vivo cytotoxicities and antileishmanial activities of thymol and hemisynthetic derivatives’, Antimicrob. Agents Chemother. 2005, 49, 1652-1655. ; J. Sharifi-Rad, M. Sharifi-Rad, S. M. Hoseini-Alfatemi, M. Iriti, M. Sharifi-Rad, M. Sharifi-Rad, ‘Composition, cytotoxic and antimicrobial activities of Satureja intermedia C. A.Mey essential oil’, Int. J. Mol. Sci. 2015, 16, 17812-17825. ; N. I. Guardo, P. Sainz, A. González-Coloma, J. Burillo, R. A. Martinez-Díaz, ‘Trypanocidal effects of essential oils from selected medicinal plants. Synergy among the main components’, Nat. Prod. Commun. 2017, 12, 709-712. ; M. Soković, J. Glamočlija, P. D. Marin, D. Brkić, L. J. Van Griensven, ‘Antibacterial effects of the essential oils of commonly consumed medicinal herbs using an In Vitro model’, Molecules 2010, 15, 7532-7546. ; E. H. S. Ramos, M. M. Moraes, L. L. Nerys, S. C. Nascimento, G. C. G. Militão, R. C. B. Q. de Figueiredo, C. A. G. da Câmara, T. G. Silva, ‘Chemical Composition, leishmanicidal and cytotoxic activities of the essential oils from Mangifera indica L. var. Rosa and Espada’, BioMed Res. Int. 2014, 2014, 1-9. ; N. P. Didry, L. Dubreuil, M. Pinkas, ‘Antibacterial activity of thymol, carvacrol and cinnamaldehyde alone or in combination’, Pharmazie 1993, 48, 301-304. ; P. M. Periago, A. Palop, P. S. Fernandez, ‘Combined effect of nisin, carvacrol and thymol on the viability of Bacillus cereus heat-treated vegetative cells’, Food Sci. Technol. Int. 2001, 7, 487-492. ; M. Rai, P. Paralikar, P. Jogee, G. Agarkar, A. P. Ingle, M. Derita, S. Zacchino, ‘Synergistic antimicrobial potential of essential oils in combination with nanoparticles: emerging trends and future perspectives’, Int. J. Pharm. 2017, 519, 67-78. ; L. S. Nerio, J. Olivero-Verbel, E. Stashenko, ‘Repellent activity of essential oils: a review’, Bioresour. Technol. 2010, 101, 372-378. ; J. Burillo, M. C. García-Vallejo, ‘Investigación y experimentación de plantas aromáticas y medicinales en Aragón. Cultivo, transformación y analítica’, Gobierno de Aragón, Zaragoza, 2003. ; J. Burillo, in ‘Insecticidas y repelentes de insectos de origen natural’, Eds. J. Burillo, A. González-Coloma, Centro de Investigación y Tecnología Agroalimentaria, Zaragoza, 2009, pp. 19-30. ; N. B. Hamida, R. A. Martínez-Díaz, M. Hela, K. Msaada, Z. Ouerghi, M. F. Andres, A. González-Coloma, ‘Effect of salinity on the antiparasitic activity of hyssop essential oil’, J. Essent. Oil Res. 2020, 32, 69-78.
- Grant Information: CTQ2015-64049-C3-1-R (MINECO/FEDER)
- Contributed Indexing: Keywords: Lamiaceae; antiprotozoal activity; compound interactions; monoterpenes; natural products
- Substance Nomenclature: 0 (Antiprotozoal Agents) ; 0 (Bicyclic Monoterpenes) ; 0 (Oils, Volatile) ; 3J50XA376E (Thymol) ; 4MS8VHZ1HJ (beta-pinene)
- Entry Date(s): Date Created: 20200918 Date Completed: 20210517 Latest Revision: 20210517
- Update Code: 20240513
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