Caracterização de mel de Apis mellifera pelo seu perfil em substâncias fenólicas por cromatografia líquida de alta eficiência e avaliação da atividade biológica

Lianda, Regina Lucia Pelachim

Please use this identifier to cite or link to this item: https://rima.ufrrj.br/jspui/handle/20.500.14407/14547

Full metadata record

DC Field	Value	Language
dc.contributor.author	Lianda, Regina Lucia Pelachim
dc.date.accessioned	2023-12-22T03:03:05Z	-
dc.date.available	2023-12-22T03:03:05Z	-
dc.date.issued	2004-12-17
dc.identifier.citation	Lianda, Regina Lucia Pelachim. Caracterização de mel de Apis mellifera pelo seu perfil em substâncias fenólicas por cromatografia líquida de alta eficiência e avaliação da atividade biológica. 2004. 142 f. Dissertação (Programa de Pós-Graduação em Química) - Universidade Federal Rural do Rio de Janeiro, Seropédica-RJ.	por
dc.identifier.uri	https://rima.ufrrj.br/jspui/handle/20.500.14407/14547	-
dc.description.abstract	Este trabalho descreve a identificação de ácidos fenólicos e flavonóides em cinco amostras de mel silvestre e seis amostras de mel laranjeira obtidas de diferentes regiões geográficas. As amostras de méis foram analisadas por cromatografia líquida de alta eficiência com detector de arranjo de fotodiodos e UV-visível. A análise do perfil cromatográfico associado ao estudo dos espectros de ultravioleta acumulados a l 250-380 nm, permitiu identificar os ácidos fenólicos e flavonóides em uma única corrida de 40 minutos. Para as amostras de mel silvestre foram identificados os ácidos gálico, vanílico, para-cumárico, para-metoxi-benzóico, para-metoxi-cinâmico, para-hidroxi-benzóico, protocatecuico e sinápico, e o flavonóide morina, enquanto para as amostras de mel laranjeira foram identificados os ácidos gálico, vanílico, para-cumárico, para-metoxicinâmico, para-hidroxi-benzóico, protocatecuico, siríngico, sinápico e cinâmico e os flavonóides quercetina e rutina. Além desses ácidos, para a amostra RLL20 (mel laranjeira de Taubaté-SP) foi isolado e identificado, pela primeira vez, o flavonol morina. A técnica de cromatografia líquida de alta eficiência mostrou-se eficiente e reprodutiva na caracterização das substâncias fenólicas encontradas nas onze amostras de méis estudados. O estudo perfil cromatográfico para as substâncias fenólicas permitiu estabelecer a composição para os méis monoflorais, oriundos de diferentes regiões geográficas, pois estes não mostraram alterações qualitativas drásticas. Estas substâncias poderão vir a ser usadas como marcadores químicos para a caracterização da origem botânica e/ou geográfica do mel de Apis mellifera. Dentre as diversas substâncias contidas no mel destacam-se as substâncias fenólicas, devido às importantes atividades biológicas, tais como atividades antimicrobianas, antiinflamatórias, antiproliferativas e antitumorais. Os ensaios biológicos avaliaram a atividade antitumoral in vivo e in vitro da fração rica em compostos fenólicos do mel silvestre proveniente da cidade de Itararé-SP, sobre o crescimento do carcinoma de Erlich em camundongos. A citotoxicidade mostrou-se pouco significativa para a atividade antitumoral in vitro (25% de inibição do crescimento), porém os resultados in vivo mostraram significativa inibição do crescimento do tumor e aumento da sobrevida dos animais (67% dos animais ficaram isentos de tumor após 75 dias de tratamento). Os estudos de atividade biológica do extrato do mel são preliminares, mas revelam-no como potente agente terapêutico	por
dc.description.sponsorship	Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES	por
dc.format	application/pdf	*
dc.language	por	por
dc.publisher	Universidade Federal Rural do Rio de Janeiro	por
dc.rights	Acesso Aberto	por
dc.subject	Ácidos fenólicos	por
dc.subject	Flavonóides	por
dc.subject	Mel	por
dc.subject	CLAE	por
dc.subject	Atividade Antitumoral	por
dc.subject	Phenolic acids	eng
dc.subject	Flavonoids	eng
dc.subject	Honey	eng
dc.subject	HPLC	eng
dc.subject	Antitumor Activity	eng
dc.title	Caracterização de mel de Apis mellifera pelo seu perfil em substâncias fenólicas por cromatografia líquida de alta eficiência e avaliação da atividade biológica	por
dc.title.alternative	Characterization of Apis mellifera honey by highperformance liquid chromatography phenolics compounds profile and biological activity evaluation	por
dc.type	Dissertação	por
dc.description.abstractOther	This work describes the identification of phenolic acids and flavonoids present in five samples of wild honeys and six of citrus honey from different geographical regions. The honey samples were analyzed by high-performance liquid chromatography with a diode-array detector and UV-Vis. The HPLC phenolic profiles and the UV spectra obtained by diode-array detector at ? 250-380 nm, allowed to identify phenolic acids and flavonoids in approximated 40 minutes. In the wild honey samples were identified the gallic, vanillic, para-coumaric, para-methoxy benzoic, para-methoxy-cinamic, para-hydroxy-benzoic, protocatecuic and sinapic acids, and morin flavonoid, while the citrus honey samples were identified mainly gallic, vanillic, para-coumaric, para-methoxy-cinamic, para-hydroxybenzoic, protocatecuic, syringic, sinapic e cinamic acids, and quercetin and rutin flavonoids. In the RLL20 sample (citrus honey – Taubaté-SP) were identified a nd isolated, in the first time, the morin flavonoid. The HPLC technique has been showed to be efficient and reproductive in the characterization of the phenolic compounds present in eleven honey samples. The chromatographic profiles of the phenolic compounds allowed establishing the composition from monofloral honeys from different regions geographical, because they did not show any major qualitative differences. These compounds would be used as chemical markers for the botanical and/or geographical origin of Apis mellifera honey. Among several compounds contained in honey, the phenolic compounds, such as phenolic acids and flavonoids have been described to contain biological activities, including antibacterial, antioxidant and antitumor activities. Despite of the identification of many phenolic compounds in honeys, the biological activity was carried with the mainly fraction of the phenolic compounds from wild honey from Itararé-SP. The antitumor activity was tested both in vitro and in vivo on Erlich carcinoma in mouse. The citotoxicity showed moderate antitumor activity in vitro (25% of increase inhibition), however in vivo the results showed significative inhibition of tumor increase and advance of animals survival (67% of the animals didn’t showed tumor after 75 days of treatment). These studies of the biological activity of the extracts of honey were only preliminary but they showed that phenolic compounds might have therapeutic potential.	eng
dc.contributor.advisor1	Castro, Rosane Nora
dc.contributor.advisor1Lattes	http://lattes.cnpq.br/5479814788308057	por
dc.contributor.referee1	Castro, Rosane Nora
dc.contributor.referee2	Godoy, Ronoel Luiz de Oliveira
dc.contributor.referee3	Echevarria, Aurea
dc.contributor.referee4	Santana, Djalva Maria da Nóbrega
dc.creator.Lattes	http://lattes.cnpq.br/0876721299530164	por
dc.publisher.country	Brasil	por
dc.publisher.department	Instituto de Ciências Exatas	por
dc.publisher.initials	UFRRJ	por
dc.publisher.program	Programa de Pós-Graduação em Química	por
dc.relation.references	ALJADI, A.M. & KAMARUDDIN, M.Y. Isolation and identification of phenolic acids in Malaysian honey with antibacterial properties. Turk J. Med. Sci. 2003, 33, 229-236. ALJADI, A.M. & KAMARUDDIN, M.Y. Evaluation of the phenolic contents and antioxidant capacities of two Malaysian floral honeys. Food Chemistry 2004, 85, 513-518. AL-MAMARY, M.; AL-MEERI, A.; AL-HABORI, M. Antioxidant activities and total phenolics of different types of honey. Nutrition Research 2002, 22, 1041-1047. AMIOT, M.J.; AUBERT, S.; GONNET, M.; TACCHINI, M. The phenolic compounds in honeys: preliminary study upon identification and family quantification. Apidologie 1989, 20 (2), 115-125. AMIOT, M.J.; SABATIER, S.; TACCHINI, M.; AUBERT, S. Identification of flavonoids in sunflower honey. J. Food Sci. 1992, 57(3), 773-777. ANDRADE, P.; FERRERES, F.E.; AMARAL, M.T. Ana lysis of Honey phenolic acids by HPLC, its application to honey botanical characterization. J. Liq. Chrom. & Rel. Technol. 1997, 20 (14), 2281-2288. ANKLAM, E. A review of the analytical methods to determine the geographical and botanical origin of honey. Food Chemistry 1998, 63(4), 549-562. AQUINO NETO, F.R. & NUNES, D.S.S. Cromatografia: princípios básicos e técnicas afins. Interciência, 2003, p. 187. ASAMI, D.K; HONG, Y.J.; BARRETT, D.M.; MITCHELL, A.E. Comparison of the total phenolic and ascorbic acid content of freeze-dried and air-dried marionberry, strawberry, and corn grown using convencional, organic, and sustainable agricultural practices. Journal Agric. Food Chem. 2003, 51, 1237-1241. AZEREDO, M.A.A. & AZEREDO, L.C. Características físico-químicas dos méis do município de São Fidélis-RJ. Ciência e Tecnologia de Alimento 1999, 19(1), 3-7. 132 BANKOVA, V.S.; POPOV, S.S.; MAREKOV, N.L. High-performance liquid chromatographic analysis of flavonoids from propolis. Journal of Chromatography 1982, 242, 135-143. BARTH, O.M. O Pólen no Mel Brasileiro, Luxor, 1989, Rio de Janeiro, 150 p. BARTH, O.M & CORÉ-GUEDES, J. Caracterização de méis de laranjeiras procedentes dos estados do Rio de Janeiro e de São Paulo, Brasil, por meio da análise polínica. LECTA, Bragança Paulista 1999, 17 (1), 27-35. BARTH, O.M. & DUTRA, V.M.L. Concentração de pólen em amostras de mel de abelhas monoflorais do Brasil. Revista da Universidade de Guarulhos – Geociências. Número especial: 2000, 173-176. BERAHIA, T.; CERRATI, C.; SABATIER, S.; AMIOT, M.J. Gas chromatography-mass spectrometry analysis of flavonoids in honey. Sciences des Aliments 1993, 13, 25-44. BONAGA, G. & GIUMANINI, A.G. The volatile fraction of chestnut honey. Journal Apicultural Research 1986, 25, 113-120. BONVEHI, J.S. & COLL, F.V. Characterization of citrus honey (Citrus Spp.) produced in Spain. J. Agric. Food Chem. 1995, 43, 2053-2057. BOSI, G. & BATTAGLINI, A.G. Gas Chromatography analysis of free and protein amino acids in some unifloral honeys. Journal Apicultural Research 1978, 17, 152-166. BRAZ-FILHO, R. Tese de Doutorado. Estudo químico da Apuleia leiocarpa. PPGQOUFRRJ. 1971. p. 372. CARTLAND, B. The magic of honey. Corgi Books 1970, London, UK, 160 p. CASTILLO, M.H.; PERKINS, E.; CAMPBELL, J.H.; DOERR, R.; HASSET, J.M.; KANDASWAMI, C.; MIDDLETON, E. The effects of the bioflavonoid quercetin on squamous cell carcinoma of head and neck origin. Am J. Surgery 1989, 158, 351-355. CERMAK, R.; LANDGRAF, S.; WOLFFRAM, S. The bioavailability of quercetin in pigs depends on the glycoside moiety and on dietary factors. J. Nutr. 2003, 133, 2802-2807. 133 CHOI, Y.J.; KANG, J.S.; PARK, J.H.Y.; LEE, Y.J.; CHOI, J.S.; KANG, Y.H. Polyphenolic flavonoids differ in their antiapoptotic efficacy in hydrogen peroxide-treated human vascular endothelial cells. J. Nutr. 2003, 133, 985-991. CODEX ALIMENTARIUS COMMISSION. Official methods of analysis, 1990, v.3, Supl 2. COOK, N.C. & SAMMAN, S. Flavonoids – chemistry, metabolism, cardioprotective effects, and dietary sources. Nutritional Biochemistry 1996, 7, 66-76. CORTOPASSI-LAURINO, M. & GELLY, D.S. Analyse pollinique, propriétés physicochimiques et action antibactérienne des mieis d`abellies africanisées Apis mellifera et de Méliponinés du Brésil. Apidology 1991, 22, 61-73. CRANE, E. A book of honey. Oxford University Press 1980, Oxford, U.K., 198p. CRANE, E. O livro do mel. Nobel, 1985, 2ed. São Paulo, 226p. CRANE, E. In: Bees and beekeeping: Science, Practice and World Resources. Heinemann 1990, Oxford, 400p, Chapter 13. CROZIER, A.; BURNS, JENNIFER, AZIZ, A.A.; STEWAR, A.J.; RABIASZ, H.S; JENKINS, G.I.; EDWARDS, C.A.; LEAN, M.E. Antioxidant flavonols from fruits, vegetables and beverages: measurements and bioavailability. Biological Research 2000, 33(2), 1-6. D’ARCY, B.; RINTOUL, G.; ROWLAND, C.Y.; BLACKMAN, A.J. Composition of Australian honey extractives. 1. Nor-isoprenoids, monoterpenes, and other natural volatiles from Blue Gum ( Eucalyptus leucoxylon) and Yellow Box ( Eucalyptus melliodora) honeys. J. Agric. Food Chem. 1997, 45, 1834-1843. DA SILVA, T.M.S. Tese de Doutorado. Estudo químico de espécies de Solanum. PPGQOUFRRJ. 2002, p. 194. DA SILVA, R. F. Dissertação de Mestrado. Investigação de ácidos fenólicos em amostra de mel por cromatografia líquida de alta eficiência e sua aplicação na caracterização da origem floral. PPGQO-UFRRJ. 2004, p.82. 134 DAIGLE D.J. & CONKERTON E.J. Analysis of flavonoids by HPLC: An update. Journal of Liquid Chromatography 1988, 11(2), 309-325. DATTA, N ; TOMÁS-BARBERÁN, F.A; MARTOS, I.; FERRERES, F.; YAO, L.; SINGANUSONG, R. Flavonoids, Phenolic acids and Abscisic acid in Australian and New Zealand Leptospermum honeys. Food Chemistry 2003, 81, 159-168. DEGANI, A.L.G.; CASS, Q.B; VIEIRA, P.C. Cromatografia: Um breve ensa io.Química Nova na Escola 1997, 7, 21-25. DE MARIA, C.A.B.; TRUGO, L.C.; COSTA, L.S.M.; ALBUQUERQUE, M.L.S.; QUINTEIRO, L.M.C.; BARTH, O.M. Determination of non-volatile compounds of different botanical origin Brazilian honeys. Food Chemistry 1999, 65, 347-352. DE MARIA, C.A. & MOREIRA, R.F.A. Compostos voláteis em méis florais. Química. Nova 2003, 26(1), 90-96. DEY, P.M. & HARBONE, J.B. Plant Biochemistry. London: Academic Press, 1997, p. 554. DEWICK, P.M. Medicinal natural products: A biosynthetic approach. London: John Wiley, 1998, p. 466. DUCREY, B.; WOLFENDER, J.L.; MARSTON, A.; HOSTETTMANN, K. Analysis of flavonol glycosides of 13 epilobium species (Onagraceae) by LC-UV and thermospray LCMS. Phytochemistry 1995, 38, 129-137. DUTRA, V.M.L. & BARTH, O.M. Análise palinológica de amostras de mel da região de Bananal (SP/RJ), Brasil. Revista Universidade Guarulhos 1997, Geociências II (nº especial), 174-183. FERRERES, F.; TOMÁS-BARBERÁN, F.A.; GIL, M.I.; TOMÁS-LORENTE, F. An HPLC technique for flavo noid analysis in honey. J. Sci. Food Agric. 1991, 56, 49-56. FERRERES, F.; ORTIZ, A.; SILVA, C.; GARCIA-VIGUERA, C.; TOMÁS-BARBERÁN, F.A.; TOMÁS-LORENTE, F. Flavonoids of “La Alcarria” honey – a study of their botanical origin. Zeitschrift-fuer Lebensmittel Untersuchung und Forschung 1992, 194, 139-143. 135 FERRERES, F.; GARCIA-VIGUERA, C.; TOMÁS-BARBERÁN, F.A.; TOMÁSLORENTE, F. Hesperetin: a marker of the floral origin of citrus honey. Journal Scie. Food Agric. 1993, 61, 121-123. FERRERES, F.; TOMÁS-BARBERÁN, F.A.; GINER, J.M. A comparative study of hesperetin and methyl anthranilate as markers of the floral origin of citrus honey. Journal Sci. Food Agric. 1994, 65, 371-372. FERRERES, F.; BLAZQUEZ, M.A.; GIL, M.I.; TOMÁS-BARBERÁN, F.A. Separation of honey flavonoids by micellar eletrokinetic capillary chromatography. Journal Chromatography A 1994a, 669(1/2), 268-274. FERRERES, F.; ANDRADE, P.; TOMÁS-BARBERÁN, F.A. Natural occurrence of abscisic acid in heather honey and floral nectar. Journal Agric. Food Chem. 1996, 44(8), 2053-2056. FERRERES, F.; ANDRADE, P.; GIL, M.I.; TOMÁS-BARBERÁN, F.A. Floral nectar phenolics as biochemical markers for the botanical origin of heather honey. Z. Lebensm Unters Forsch 1996a, 202, 40-44. FERRERES, F.; JUAN, T.; PEREZ-ARQUILLUE, C.; HERRERA-MARTEACHE, A.; GARCIA-VIGUERA, C.; TOMÁS-BARBERÁN, F.A. Evaluation of pollen as a source of kaempferol in rosemary honey. Journal Scie. Food Agric. 1998, 77, 506-510. GEISSMAN, T.A. & CROUT, D.H.G. Organic Chemistry of Secondary Plant Metabolism. Freeman, Cooper& Company. USA, Chapter 4: Compounds derived from shikimic acid, 1969, p.137-148. GIL, M.I.; FERRERES, F.; ORTIZ, A.; SUBRA, E.; TOMÁS-BARBERÁN, F;A. Plant phenolic metabolites and floral origin of Rosemary honey. J. Agric. Food Chem . 1995, 43, 2833-2838 GRYNBERG, N.F.; MARTORELLI, R.A.; CARVALHO, M.G.; BRAZ-FILHO, R.; MOREIRA, I.C.; SANTOS, A.C.S.; ECHEVARRIA, A. Inhibition of murine tumour growth by natural biflavone and mesoionic compounds. XVI International Cancer Congress 1994, 63-66. GRYNBERG, N.; SANTOS, A.C.; ECHEVARRIA, A. Synthesis and in vivo antitumor activity of new heterocyclic derivatives of the 1, 3, 4-thiadiazolium-2-aminide class. AntiCancer Drugs 1997, 8, 88-91. 136 GRYNBERG, N.F.; BRIOSO, P.S.T.; VELANDIA, J.R.; ECHEVARRIA, A.; CARVALHO, M.G.; BRAZ-FILHO, R. Antiproliferative effects and activation of apoptosis on Ehrlich tumour cells by flavones. 17 thInternational Cancer Congress 1998, 317-320. GRYNBERG, N.F. Tese de Doutorado. Mecanismo de ação e atividade antitumoral de flavonóides diterpenos e derivados de mesoiônicos em tumores experimentais. PPGQOUFRRJ. 1999, p. 194. GUYOT, C.; SCHEIRMAN, V.; COLLIN, S. Floral origin markers of heather honeys: Calluna vulgaris and Erica arborea. Food Chemistry 1999, 64, 3-11. HARBONE, J. & GREYER, R.J. Flavonoids and insects. In: ed. Lit. J.B. Harbone. The Flavonoids: Advances in Research since 1986. Edited by J.B. Harbone. London: Chapman & Hall, 1993, p. 589-618. HARBORNE, J.B. The Flavonoids Advances in Research since 1986. Ed. Chapman & Hall, 2-6 Boundary Row, London-UK, 1994. HELDT, H.W. Plant Biochemistry and Molecular Biology. 1 ed. New York: Oxford University Press, 1997, p. 522. HERTOG, M.G.L.; HOLLMAN, P.C.H.; VENEMA, D.P. Optimization of a quantitative HPLC determination of potentially anticarcinogenic flavonoids in vegetables and fruits. J. Agric. Food Chem. 1992, 40, 1591-1598. HOSTETTMANN, K; DOMON, B.; SCHAUFELBERGER, D.; HOSTETTMANN, M. On line high-performance liquid-chromatography-ultraviolet visible spectroscopy of phenolic compounds in plant-extracts using post-column derivatization. Journal of Chromatography 1984, 283, 137-147. HOSTETTMANN, K.; QUEIROZ, E.F.; VIEIRA, P.C. Princípios Ativos de Plantas Superiores. São Carlos: Ed UFSCAR, 2003. HOU, Y.C.; CHAO, P.D.L.; HO, H.J.; WEN, C.C.; HSIU S.L. Profound difference in pharmacokinetics between morin and its isomer quercetin in rats. Journal of Pharmacy and Pharmacology 2003, 55 (2), 199-203. 137 HUIDOBRO, J.F.; SUÁREZ-LUQUE, S.; MATO, I.; SIMAL-LOZANO, J.; SANCHO, M.T. Rapid determination of minority organic acids in honey by high-performance liquid chromatography. Journal Chromatography A 2002, 955, 207-214. http://www.geocities.com/nutriflip/Supplements/Flavonoids.html KAMPA, M.; ALEXAKI, V.I.; NOTAS, G.; NIFLI, A.P.; NISTIKAKI, A.; HATZOGLOU, A.; BAKOGEORGOU, E.; KOUIMTZOGLOU, E.; BLEKAS, G.; BOSKOU, D.; GRAVANIS, A.; CASTANAS, E. Antiproliferative and apoptotic effects of selective phenolic acids on T47D human breast cancer cells: potential mechanisms of action. Breast Cancer Res 2004, 6, R63-R74. KANDASWAMI, C.; PERKINS, E.; DRZEWIECKI, G.; SOLONIUK, D.S.; MIDDLETON, E. Differential inhibition of proliferation of human squanmous cell carcinoma, gliosarcoma and embryonic fibroblast-like lung cells in culture by plant flavonoids. Anti-Cancer Drugs 1992, 3, 525-530. KARCH, K.; SEBESTIAN, I.; HALÁSZ, I.; ENGELHARDT, H. Optimization of reversephases separation. J. Chromatography 1976, 122, 171-184. LENGLER, S. www. com.br/apicultura/pesquisas/inspeção_mel, 01.doc. 2004. LINDSTED, K. Chemical control of feeding behavior. Comp. Biochem. Physiol. 1971, 39A, 553-581. MAGGI, L.; STELLA, R.; VALENTINI, M.T.G. Model compound sorption by the resins XAD-2, XAD-8 and diethylaminoethylcellulose. Journal of Chromatography 1989, 478, 225-230. MANACH, C.; MORAND, C.; TEXIER, O. Quercetin metabolism in plasma of rats fed diets containing rutin or quercetin . J. Nutr. 1995, 125, 1911-1922. MANACH, C.; SCALBERT, A.; MORAND, C.; RÉMÉSY, C.; JIMÉNEZ, L. Polyphenols: food sources and bioavailability. Am. J. Clin. Nutr. 2004, 79, 727-747. MANN, J. Secondary Metabolism, Claredon Press, Oxford, 8, 1987. MARCANO, D.; MASAHISA, H. Fitoquímica orgânica. Caracas: Universidade Central de Venezuela, 1991, p. 81. 138 MARCHINI, L.C. Caracterização de amostras de méis de Apis mellifera (Hymenopteraapidae) do Estado de São Paulo, baseada em aspectos físico-químicos e biológicos. Livre Docência, Piracicaba-SP, Escola Superior de Agricultura "Luiz de Queiroz", Universidade de São Paulo. 2001. MARKHAM, K.R. Techniques of flavonoid identification. London: Academic Press, 1982, p. 113. MARCUCCI, M.C. Propriedades biológicas e terapêuticas dos constituintes químicos da própolis. Química Nova 1996, 19 (5), 529-536. MARCUCCI, M.C.; FERRERES, F.; GARCIA-VIGUERA, C.; BANKOVA, V.S.; DE CASTRO, S.L.; DANTAS, A.P.; VALENTE, P.H.M.; PAULINO, N. Phenolic compounds from Brazilian propolis with pharmacological activities. Journal of Ethnopharmacology 2001, 74, 105-112. MARKHAN, K; MABRY, T.J. Ultraviolet-visible and proton magnetic resonance spectroscopy of flavonoids. In: Harbone, J.B.; Mabry, T.J. ; Mabry, H. The Flavonoids, London: Chapman & Hall, 1975, 45-77. MARTOS, I.; COSSENTINI, M.; FERRERES, F.; TOMÁS-BARBERÁN, F.A. Flavonoid composition of Tunisian honeys and propolis. Journal Agric. Food Chem. 1997, 45(8), 2824-2829. MARTOS, I.; FERRERES, F.; TOMÁS-BARBERÁN, F.A. Identification of flavonoids markers for the botanical origin of Eucaliptus honey. Journal Agric. Food Chem . 2000, 48, 1498-1502. MARTOS, I.; FERRERES, F.; YAO, L.H. ; D’ARCY, B.R.; CAFFIN, N.; TOMÁSBARBERÁN, F.A. Flavonoids in monospecific Eucalyptus honeys from Australia. Journal Agric. Food Chem. 2000a, 48, 4744-4748. MENDES, B. A. & COELHO, E. M. Considerações sobre características de mel de abelhas – Análises e critérios de inspeção. Informe Agropecúario 1983, 9(106), 56-67. MERKEN, H.M. & GARY, R.B. Measurement of food flavonoids by high-performance liquid chromatography : a Review. Journal of Agricultural and Food Chemistry 2000, 48(3), 577- 599. 139 MEYER, V. R. Practical High-Performance Liquid Chromatography. 2nd, John Wiley & Sons, 1994. MIORIN, P.L.; JUNIOR, N.C.L.; CUSTODIO, A.R.; BRETZ, W.A.; MARCUCCI, M.C. Antibacterial activity of honey and propolis from Apis mellifera and Tetragonisca angustula against Staphylococcus aureus. Journal of Applied Microbiology 2003, 95, 913- 920. MOREIRA, R.F.A.; TRUGO, L.C.; PIETROLUONGO, M.; DE MARIA, C.A.B. Flavor composition of cashew (anacardium occidentale) and marmeleiro (Croton species) honeys. J. Agric. Food Chem . 2002, 50, 7616-7621. NARAYANA, K.R.; REDDY, M.S.; CHALUVADI, M.R.; KRISHNA, D.R. Bioflavonoids classification, pharmacological, biochemical effects and therapeutic potential. Indian Journal of Pharmacology 2001, 33, 2-16. NIJVELDT, R.J.; NOOD, E.V.; HOORN, D.E.C.V.; BOELENS, P.G.; NORREN, K.V.; LEEUWEN, P.A.M.V. Flavonoids: a review of probable mechanisms of action and potential applications. Am. J. Clin. Nutr. 2001, 74, 418-425. PARR, A.J. & BOLWELL, G.P. Phenols in the plant and in man. The potential for possible nutritional enhancement of the diet by modifying the phenol content or profile. Journal Agric. Food Chem. 2000, 80, 985-1012. PAVIA, D. & LAMPMAN, K.G. Ultraviolet spectroscopy. In: Introduction to spectroscopy – a guide for students of organic Chemistry. Sauders College Publishing/Holt Rinehart and Winston. 1979, p.183-224. PERIS, J. Producción y comércio de los produtos apícolas en Espanã. El Campo del Banco de Bilbao. Apicultura 1984, 93. PERSANO ODDO, L. & RICCIARDELLI D`ALBORE, G. Nomenclatura melissopalinológica. Apicultura 1989, 5, 63-72. PRIOR, R.L. Fruits and vegetables in the prevention of cellular oxidative damage. Am. J. Clin. Nutr. 2003, 78 (suppl), 570S-578S. 140 SABATIER, S.; AMIOT, M.J.; TACCHINI, M.; AUBERT, S. Identification of flavonoids in sunflower honey. Journal of Food Science 1992, 57 (3), 773-777. SAKAKIBARA, H.; YOSHINORI, H .; NAKAGAWA, S.; ASHIDA, H.; KANAZAWA, K. Simultaneous determination of all polyphenol in vegetables, fruits, and teas. J. Agric. Food Chem. 2003, 51, 571-581. SANCHO, M.T.; MUNIATEGUI, S.; HUIDOBRO, J.F.; LOZANO J.S. Aging of honey. J. Agric. Food Chem. 1992, 40,134-138. SAWYER, R.W. Melissopalynology in the determination of the geographical and floral origin of honey. Journal of the Association of Public Analysis 1975, 13, 64-71. SCALBERT, A. & WILLIAMSON, G. Dietary intake and bioavailability of polyphenols. J. Nutr.; 2000, 11, 253-260. SIMÕES, C. M. O. SCHENKEL, E. P.; GOSMANN, G.; DE MELLO, J. C. P.; MENTZ, L. A.; PETROVICK, P. R. Farmacognosia -Da Planta ao Medicamento. Editora Universidade UFRG/Ed. Da UFSC, 2000. SIMONOVSKA, B.; VOVK, I.; ANDRENSEK, S.; VALENTOVÁ, K.; ULRICHOVÁ, J. Investigation of phenolic acids in yacon (Smallanthus sonchifolius) leaves and tubers. Journal of Chromatography A 2003, 1016, 89-98. SNYDER, L.R. & KIRKLAND, J.J. Introduction to Modern Liquid Chromatography, 2nd New York, John Wiley and Sons, 1979. SNYDER, L.R.; KIRKLAND, J.J.; GLAJCH, J. L. Practical HPLC Method Development. New York, John Wiley and Sons, 1988. STEEG, E. & MONTAG, A. Quantitative determination of aromatic carboxylic acids in honey. Zeitschrift fuer Lebensmittel Untersuchung und Forschung 1988, 187, 115-120. STONOGA, V.I. & FREITAS, R.J.S.D. Conteúdo de água e açúcares em mel de abelhas. Bd. Ceppa 1991, Curitiba; 9 (1), 9-16. STRINSON, E.E.; SUBES, M.H.; PETTY, J.; WHITE, J.W.; JR. The composition of honey. V. Separation and identification of the organic acids. Arch. Biochemestry Biophys 1960, 89, 6-12. 141 SUOLINA, M.; BUCHSBAUM, R.N.; RACKER, E. Effect of flavonoids on aerobic glycolisis and growth of tumor cells. Cancer Res. 1975, 35, 1865-1872. TAN, S.T., HOLLAND, P.T., WILKINS, A.L.; MOLAN, P.C. Extractives from New Zealand Honeys. 1. White clover, manuka and kanuka unifloral honeys. Journal of Agricultural and Food Chemistry 1988, 36, 453-460. TAN, S.T.; WILKINS A.L.; MOLAN, P.C.; HOLLAND, P.T.; REID, M. A chemical approach to the determination of floral sources of New Zealand honeys. Journal of Apicultural Research 1989, 28(4), 212-222. TAN, S.T.; WILKINS, A.L.; HOLLAND, P.T.; McGHIE, T.K. 1.Extractives from New Zealand unifloral honeys. 2.Degraded carotenoids and other substances from heather honey. Journal of Agricultural and Food Chemistry 1989a, 37(5), 1217-1221. TERRAB, A.; DÍEZ, M.J.; HEREDIA, F.J. Palynological, physico-chemical and colour characterization of Moroccan honeys: I. River red gum (Eucalyptus camaldulensis Dehnh) honey. International Journal of Food Science and Technology 2003, 38, 379-386. TOMÁS-BARBERÁN, F.A.; FERRERES, F.; BLÁZQUEZ, A.; GARCÍA-VIGUERA, C.; TOMÁS-LORENTE, F. High-performance liquid chromatography of honey flavonoids. Journal of Chromatography 1993, 634, 41-46. TOMÁS-BARBERÁN, F.A; FERRERES, F.; GARCIA-VIGUERA, C.; TOMÁSLORENTE, F. Flavonoids in honey of different geographical origin. Zeitschrift-fuer Lebensmittel Untersuchung und Forschung 1993a, 196, 38-44. TOMÁS-BARBERÁN, F.A; FERRERES, F.; TOMÁS-LORENTE, F.; GARCÍAVIGUERA, C. Hesperetin: A marker of the floral origin of citrus honey. J. Sci. Food Agric. 1993b, 61, 121-123. TOMÁS-BARBERÁN, F.A; FERRERES, F.; GINER, J.M. A comparative study of hesperetin and methyl anthranilate as markers of the floral origin of citrus honey. J. Sci.Food Agric. 1994, 65, 371-372. TOMÁS-BARBERÁN, F.A; MARTOS, I.; FERRERES, F.; RADOVIC, B.S.; ANKLAM, E. HPLC flavonoid profiles as markers for the botanical origin of European unifloral honeys. J. Sci.Food Agric. 2001, 81, 485-496. 142 VARGAS, A.C.; LOGUERCIO, A.P.; WITT, N.M.; COSTA, M.M.; SILVA, M.S.S.; VIANA, L.R. Atividade antimicrobiana “in vitro” de extrato alcoólico de própolis. Cienc. Rural 2004, 34 (1), Santa Maria ene./feb. 2004. WANWIMOLRUK, S.; HO, P.; SAVILLE, D.J. Inhibition of human CYP3A4 activity by grapefruit flavonoids, furanocoumarins and related compounds. J. Pharm. Pharmaceut. Sci. 2001, 4(3), 217-227. WHITE, J.W. Physical characteristics of honey. In: CRANE, E. Honey a comprehensive survey. 1975. London: Heinemann, Cap.6, p.207-239. WILKINS, A.L., LU, Y.; MOLAN, P.C. Extractable organic substances from New Zealand unifloral manuka (Leptospermum scoparium) honey. Journal of Apicultural Research 1993, 32 (1), 3-9. WILLIAMS, D.H. & FLEMING, I. Spectroscopic Methods in Organic Chemistry. McGraw-Hill, 5th ed. 1995, p. 329. WINTER, F. C-ring cleavage of flavonoids by human intestinal bacteria. Applied and Environmental Microbiology 1989, 55(5), 1203-1208. WOOTON, M.; EDWARDS, R.A.; FARAJI-HAREMI, R. Effect of accelerated storage conditions on the chemical compostion and properties of australian honeys. 2. Changes in sugar and free amino acid contents. Journal of Apicultural Research 1976, 15(1), 29-34. WULF, L.W. & NAGEL, C.W. Analysis of phenolic acids and flavonoids by high-pressure liquid chromatography. Journal of Chromatography 1976, 116, 271-279. YAO, L.; JIANG, Y.; SINGANUSONG, R.; DATTA, N.; RAYMONT, K. Phenolic acids and abscisic acid in Australian Eucalyptus honeys and their potential for floral authentication. Food Chemistry 2004, 86, 169-177. YAO, L.; JIANG, Y.; D’ARCY, B.; SINGANUSONG, R.; DATTA, N.; CAFFIN, N.; RAYMONT, K. Quantitative high-performance liquid chromatography analyses of flavonoids in Australian Eucalyptus honeys. J. Agric. Food Chem. 2004a, 52, 210-214. ZWAENEPREL, C. Honey: facts and folklore. Alberta Beekeepers' Association 1984, Edmonton, Canada, p. 24.	por
dc.subject.cnpq	Química	por
dc.thumbnail.url	https://tede.ufrrj.br/retrieve/63300/2004%20-%20Regina%20Lucia%20Pelachim%20Lianda.pdf.jpg	*
dc.originais.uri	https://tede.ufrrj.br/jspui/handle/jspui/4221
dc.originais.provenance	Submitted by Celso Magalhaes (celsomagalhaes@ufrrj.br) on 2020-11-30T15:52:06Z No. of bitstreams: 1 2004 - Regina Lucia Pelachim Lianda.pdf: 2366342 bytes, checksum: 89b4d56f6a9b7c8bf9da5732a3bb32b5 (MD5)	eng
dc.originais.provenance	Made available in DSpace on 2020-11-30T15:52:06Z (GMT). No. of bitstreams: 1 2004 - Regina Lucia Pelachim Lianda.pdf: 2366342 bytes, checksum: 89b4d56f6a9b7c8bf9da5732a3bb32b5 (MD5) Previous issue date: 2004-12-17	eng
Appears in Collections:	Mestrado em Química

Se for cadastrado no RIMA, poderá receber informações por email.
Se ainda não tem uma conta, cadastre-se aqui!

Files in This Item:

File	Description	Size	Format
2004 - Regina Lucia Pelachim Lianda.pdf	Regina Lucia Pelachim Lianda	2.31 MB	Adobe PDF	View/Open

Show simple item record