Estudo dos componentes lipídicos das sementes de três espécies do gênero Cordia L. (Boraginaceae)

Arrebola, M.R.B.; Peterlin, M.F.; Bastos, D. H. M.; Rodrigues, R. F. de O.; Carvalho, P. de O.

doi:10.1590/S0102-695X2004000100008

Resumos

Sementes de três espécies de Cordia L., da família Boraginaceae, coletadas em diferentes cidades do Estado de São Paulo foram analisadas quanto ao teor de lipídeos e composição de ácidos graxos, com ênfase na presença do ácido gama-linolênico, um ácido graxo de grande interesse terapêutico. Os lipídeos totais foram fracionados em classes (lipídeos neutros, fosfolipídeos e glicolipídeos) através de cromatografia em coluna aberta de gel de sílica e a composição de ácidos graxos foi determinada por cromatografia a gás. As concentrações de lipídeos totais apresentaram grande variação entre as amostras (25,84 a 62,81 %), sendo que a classe lipídica dominante foi de lipídeos neutros (média de 88,9 % dos lipídeos totais). Os ácidos insaturados representaram 75 % da composição total dos ácidos graxos, sendo o principal representante o ácido oléico. Verificou-se a presença do ácido gama-linolênico em todas as amostras analisadas, em concentrações que variaram de 0,63 a 2,54 %, valores superiores àqueles relatados pela literatura para outras espécies do gênero Cordia L.

Cordia; Boraginaceae; ácido gama-linolênico; óleo; sementes

Seeds of three Cordia L. species (Boraginaceae), collected in different cities of the State of São Paulo were analysed in relation to the lipid content and fatty acid composition, with emphasis on the presence of gamma-linolenic acid, a fatty acid with therapeutical interest. The total lipids were separated into classes (neutral lipids, phospholipids and glucolipids) by open column chromatography with silica gel and the fatty acid composition was determined by gas chromatography. Although the levels of total lipids varied considerably between samples (25.84 to 62.81 %), the dominant class was that of neutral lipids (88.9 % of the total lipids). The insaturated acids represented 75 % of the total composition of fatty acids, with oleic acid being the main representative. The presence of gamma-linolenic acid was ascertained in all the samples analysed, in concentrations from 0.63 to 2.54 %, higher values than those related in literature for other Cordia.

Cordia; Boraginaceae; gamma-linolenic acid; seed oil

Estudo dos componentes lipídicos das sementes de três espécies do gênero Cordia L. (Boraginaceae)

Lipids compounds study from seeds of three Cordia L. species (Boraginaceae)

Arrebola, M.R.B.^I; Peterlin, M.F.^II; Bastos, D. H. M.^III; Rodrigues, R. F. de O.^I; Carvalho, P. de O.^I,^* * Autor para correspondência: Profa. Dra. Patrícia de Oliveira Carvalho Programa de Pós-Graduação em Ciências Farmacêuticas Universidade São Francisco Av. São Francisco de Assis, 218 CEP 12916900, Bragança Paulista, SP. E-mail: patcarvalho@saofrancisco.edu.br

^IPrograma de Pós-Graduação em Ciências Farmacêuticas, Universidade São Francisco

^IIAluna de Iniciação Científica PIBIC/CNPq da Universidade São Francisco, Bragança Paulista, SP

^IIIDepartamento de Nutrição, Faculdade de Saúde Pública, Universidade de São Paulo, São Paulo, SP

RESUMO

Sementes de três espécies de Cordia L., da família Boraginaceae, coletadas em diferentes cidades do Estado de São Paulo foram analisadas quanto ao teor de lipídeos e composição de ácidos graxos, com ênfase na presença do ácido gama-linolênico, um ácido graxo de grande interesse terapêutico. Os lipídeos totais foram fracionados em classes (lipídeos neutros, fosfolipídeos e glicolipídeos) através de cromatografia em coluna aberta de gel de sílica e a composição de ácidos graxos foi determinada por cromatografia a gás. As concentrações de lipídeos totais apresentaram grande variação entre as amostras (25,84 a 62,81 %), sendo que a classe lipídica dominante foi de lipídeos neutros (média de 88,9 % dos lipídeos totais). Os ácidos insaturados representaram 75 % da composição total dos ácidos graxos, sendo o principal representante o ácido oléico. Verificou-se a presença do ácido gama-linolênico em todas as amostras analisadas, em concentrações que variaram de 0,63 a 2,54 %, valores superiores àqueles relatados pela literatura para outras espécies do gênero Cordia L.

Unitermos: Cordia; Boraginaceae; ácido gama-linolênico; óleo; sementes

ABSTRACT

Seeds of three Cordia L. species (Boraginaceae), collected in different cities of the State of São Paulo were analysed in relation to the lipid content and fatty acid composition, with emphasis on the presence of gamma-linolenic acid, a fatty acid with therapeutical interest. The total lipids were separated into classes (neutral lipids, phospholipids and glucolipids) by open column chromatography with silica gel and the fatty acid composition was determined by gas chromatography. Although the levels of total lipids varied considerably between samples (25.84 to 62.81 %), the dominant class was that of neutral lipids (88.9 % of the total lipids). The insaturated acids represented 75 % of the total composition of fatty acids, with oleic acid being the main representative. The presence of gamma-linolenic acid was ascertained in all the samples analysed, in concentrations from 0.63 to 2.54 %, higher values than those related in literature for other Cordia.

Key words: Cordia; Boraginaceae; gamma-linolenic acid; seed oil

Texto completo disponível apenas em PDF.

Full text available only in PDF format.

AGRADECIMENTOS

Os autores agradecem ao Prof. Dr. Fernando de Oliveira, do Laboratório de Pesquisa de Produtos Naturais da Universidade São Francisco de Bragança Paulista, pela identificação e fornecimento das sementes de Cordia utilizadas para a execução deste trabalho.

REFERÊNCIAS

ANGELY, J. Flora analítica e fitogeográfica do Estado de São Paulo. Phyton: International Journal of Experimental Botany, p.819-825, 1970.

AKISUE, M.K.; OLIVEIRA, F.; MORAES, M.S.; AKISUE, G.; MANCINI, B. Caracterização farmacognóstica da droga e da tintura de Cordia verbenacea Al. DC. Boraginaceae. Revista de Ciências Farmacêuticas, v.5, p.69-82, 1983.

AMERICAN OIL CHEMISTS SOCIETY (AOCS) Official methods and recommended practices of the American Oil Chemists Society. 4.ed., Champaign, v.2, Ce 2-66, 1993.

BAKSHI, A.; MUKHERJEE, D.; BAKSHI, A.; BANERJI, A.K. DAS, U.N. γ-linolenic acid therapy of human gliomas. Nutrition, v.19, n.4 , p.305-309, 2003.

BARROSO, G.M. Sistemática das angiospermas do Brasil. Viçosa: UFV, p. 88-94, 1986.

BARROSO, I.C.E.; OLIVEIRA, F. de; BRANCO, L.H.Z.; KATO, E.T.M.; DIAS, T.G. O gênero Cordia L.: botânica, química e farmacologia. Revista Lecta, v.20, n.1, p.15-34, 2002.

BELLENGER-GERMAIN, S.B.; POISSON, J.P.; NARCE, M. Antihypertensive effects of a dietary unsaturated FA mixture in spontaneously hypertensive rats. Lipids, v.37, n.6, p.561-567, 2002.

BLIGH, E.G.; DYER, J.W. A rapid method of total lipid extraction and purification. Canadian Journal of Biochemistry and Physiology, v.37, p. 911-917, 1959.

CHRISTIE, W.W. Analysis of complex lipid. In: Lipid Analysis, 2 ed., New York: Pergamon, p.107-134, 1982.

DAULATABAD, C.M.J.D; DESAI, V.A.; HOSAMANI, K.M. Unusual Fatty Acids of Cordia rothii seed oil. Journal of Science Food Agriculture, v.58, p.285-286, 1992.

FELL, K.R.; PECK, M.J. Phytochemical investigation of some species of the Boraginaceae. Planta Medica, v.16, n.4, p.411-420, 1968.

FICARRA, R.; FICARRA, P.; TOMMASINI, S. Leaf extracts of some Cordia species analgesic and antiinflammatory activities as well as their chromatographic analysis. Fármaco, v.50, p.245-256, 1995.

FUKUSHIMA, M.; AKIBA, S.; NAKANO, M. Comparative hypocholesterolemic effects of six vegetables oils in cholesterol-fed rat. Lipids, v.31, n.4, p.415-419, 1996.

GIRMAN, A.; LEE, R.; KLIGLER, B. An integrative medicine approach to premenstrual syndrome. American Journal Obstetrics and Gynecology, v.188, v.5 Suppl, p.S56-65, 2003.

GOFFMAN, F.D; GALLETTI, S. Gamma-linolenic acid and tocopherol contents in the seed oil of 47 accessions from several Ribes species. Journal of Agricultural and Food Chemistry, v.49, n.1, p.349-354, 2001.

GOOL, C.J.A.W.; THIJS, C.; HENQUET, C.J.M.; HOUWELINGEN, A.C.; DAGNELIE, P.C.; SCHRANDER, J.; MENHEERE, P.P.C.A.; BRANDT, P.A. γ acid supplementation for prophylaxis of atopic dermatitisa randomized controlled trial in infants at high familial risk. American Journal of Clinical Nutrition, v.77, n.4, p.943-951, 2003.

GUIL-GUERRERO, J.L.; MAROTO, F.F.G.; GIMÉNEZ,A.G. Fatty acids profiles from forty-nine plant species that are potential new sources of gamma-linolenic acid. The Journal of the American Oil Chemists Society, v.78, n.7, p.677-684, 2001.

HAMROUNI, I.; TOUATI, S.; MARZOUK, B. Evolution des lipides au cours de la formation et de la maturation de la graine de bourrache (Borago officinalis). La Rivista Italiana delle Sostanze Grasse, v.79, p.113-118, 2002.

HORNYCH, A.; ORAVEC, S.; GIRAULT, F.; FORETTE, B.; HORROBIN, D.F. The effect of gamma-linolenic acid on plasma and membrane lipids and renal prostaglandin synthesis in older subjects. Bratislavske Lekarske Listy, v.103, n.3, p.101-7, 2002.

HUDSON, B.J.F. Evening Primose (Oenothera spp.) Oil and Seed. The Journal of the American Oil Chemists Society, v.61, n.3, p.540-543, 1984.

KLEIMAN, R.; EARLE, F.R.; WOLFF, I.A. Search for New Industrial Oils. XI. Oils of Boraginaceae. The Journal of the American Oil Chemists Society, v.41, p. 459-460, 1964.

KUROYANAGI, M.; SEKI, T.; HAYASHI, T.; NAGASHIMA, Y.; KAWAHARA, N.; SEKITA, S.; SATAKE, M. Anti-androgenic triterpenoids from Brazilian medicinal plants. Chemical and Pharmaceutical Bulletin, v.49, n.8, p.954-957, 2001.

LAIDLAW, M.; HOLUB, B.J. Effects of supplementation with fish oilderived n-3 fatty acids and γ acid on circulating plasma lipids and fatty acid profiles in women. American Journal of Clinical Nutrition, v.77, n.1, p.37-42, 2003.

LOUIS, C.S.; LEE, R.M.K.W; ROSENFELD, J.; BABJAK, A.F. Antihypertensive effect of γ acid in spontaneously hypertensive rats. Hypertension, v.19, n.2, Supplement II, p.111-115, 1992.

MAYWORM, M.A.S.; NASCIMENTO, A.S.; SALATINO, A. Seeds of species from the "caatinga": proteins, oils and fatty acid contents. Revista Brasileira de Botânica, v. 21, n.3, p.299-303, 1998.

MEEHAN, E.; BEAUGÉ, F.; CHOQUART, D.; LEONARD, B.E. Influence of an n-6 polyunsaturated fatty acidenriched diet on the development of tolerance during chronic ethanol administration in rats. Alcoholism Clinical and Experimental Research, v.19, n.6, p.1441-6, 1995.

MILLER, R.W.; EARLE, F.R.; WOLFF, I.A. Search for New Industrial Oils. XV. Oils of Boraginaceae. Lipids, v.3, n.1, p.43 - 45, 1967.

MUKARRAM, M.; AHMAD, I.; FAROOQI, A. Studies on minor seed oils. VI. Fette Seifen Anstrichmittel, v.88, n.5, p.182-183, 1986.

RAHAMATALLA, A.B.; BABIKER, E.E.; KRISHNA, A.G.; TINAY, A.H. Changes in fatty acids composition during seed growth and physicochemical characteristics of oil extracted from four safflower cultivars. Plants Food for Human Nutrition, v.56, n.4, p.385-395, 2001.

SAITO, M.L.; OLIVEIRA, F. Morfodiagnose e identificação cromatográfica em camada delgada de chá de bugre Cordia ecalyculata Vell. Revista Brasileira de Farmácia, v.67, p.1-16, 1986.

SENANAYAKE, N.S.P.J.; SHAHIDI, F. Lipid components of borage (Borago officinalis L.) seeds and their changes during germination. The Journal of the American Oil Chemists Society, v.77, n.1, p.55-61, 2000.

SMITH, L.B. Boragináceas. In: REITZ, P.R. (ed.). Flora Ilustrada Catarinense. Itajaí: Herbário Barbosa Rodrigues, 1970, p.85.

SURESH, Y.; DAS, U.N. Longchain polyunsaturated fatty acids and chemically induced diabetes mellitus Effect of ω-6 fatty acids. Nutrition, v.19, n.2, p.93-114, 2003.

TARODA, N. Taxonomic studies on Brazilian species of Cordia L. (Boraginaceae) Ph. D. Thesis. University of St. Andrews, Scotland, 1984.

TRAITLER, H.; WINTER, H.; RICHLI, U.; INGENBLEEK, Y. Characterization of γ Acid in Ribes Seed. Lipids, v.19, n.12, p.923-928, 1984.

VELASCO, L.; GOFFMAN, F.D. Chemotaxonomic significance of fatty acids and tocopherols in Boraginaceae. Phytochemistry, v.52, p.423-426, 1999.

WOLF, R.B.; KLEIMAN, R.; ENGLAND, R.E. New Sources of γ Acid. The Journal of the American Oil Chemists Society, v.60, n.11, p.1858-1860, 1983.

Recebido para publicação em: 29/10/2003

Aceito para publicação em: 10/03/2004

ANGELY, J. Flora analítica e fitogeográfica do Estado de São Paulo. Phyton: International Journal of Experimental Botany, p.819-825, 1970.
AKISUE, M.K.; OLIVEIRA, F.; MORAES, M.S.; AKISUE, G.; MANCINI, B. Caracterização farmacognóstica da droga e da tintura de Cordia verbenacea Al. DC. Boraginaceae Revista de Ciências Farmacêuticas, v.5, p.69-82, 1983.
AMERICAN OIL CHEMISTS SOCIETY (AOCS) Official methods and recommended practices of the American Oil Chemists Society. 4.ed., Champaign, v.2, Ce 2-66, 1993.
BAKSHI, A.; MUKHERJEE, D.; BAKSHI, A.; BANERJI, A.K. DAS, U.N. γ-linolenic acid therapy of human gliomas. Nutrition, v.19, n.4 , p.305-309, 2003.
BARROSO, G.M. Sistemática das angiospermas do Brasil Viçosa: UFV, p. 88-94, 1986.
BARROSO, I.C.E.; OLIVEIRA, F. de; BRANCO, L.H.Z.; KATO, E.T.M.; DIAS, T.G. O gênero Cordia L.: botânica, química e farmacologia. Revista Lecta, v.20, n.1, p.15-34, 2002.
BELLENGER-GERMAIN, S.B.; POISSON, J.P.; NARCE, M. Antihypertensive effects of a dietary unsaturated FA mixture in spontaneously hypertensive rats. Lipids, v.37, n.6, p.561-567, 2002.
BLIGH, E.G.; DYER, J.W. A rapid method of total lipid extraction and purification. Canadian Journal of Biochemistry and Physiology, v.37, p. 911-917, 1959.
CHRISTIE, W.W. Analysis of complex lipid. In: Lipid Analysis, 2 ed., New York: Pergamon, p.107-134, 1982.
DAULATABAD, C.M.J.D; DESAI, V.A.; HOSAMANI, K.M. Unusual Fatty Acids of Cordia rothii seed oil. Journal of Science Food Agriculture, v.58, p.285-286, 1992.
FELL, K.R.; PECK, M.J. Phytochemical investigation of some species of the Boraginaceae. Planta Medica, v.16, n.4, p.411-420, 1968.
FICARRA, R.; FICARRA, P.; TOMMASINI, S. Leaf extracts of some Cordia species analgesic and antiinflammatory activities as well as their chromatographic analysis. Fármaco, v.50, p.245-256, 1995.
FUKUSHIMA, M.; AKIBA, S.; NAKANO, M. Comparative hypocholesterolemic effects of six vegetables oils in cholesterol-fed rat. Lipids, v.31, n.4, p.415-419, 1996.
GIRMAN, A.; LEE, R.; KLIGLER, B. An integrative medicine approach to premenstrual syndrome. American Journal Obstetrics and Gynecology, v.188, v.5 Suppl, p.S56-65, 2003.
GOFFMAN, F.D; GALLETTI, S. Gamma-linolenic acid and tocopherol contents in the seed oil of 47 accessions from several Ribes species. Journal of Agricultural and Food Chemistry, v.49, n.1, p.349-354, 2001.
GOOL, C.J.A.W.; THIJS, C.; HENQUET, C.J.M.; HOUWELINGEN, A.C.; DAGNELIE, P.C.; SCHRANDER, J.; MENHEERE, P.P.C.A.; BRANDT, P.A. γ acid supplementation for prophylaxis of atopic dermatitisa randomized controlled trial in infants at high familial risk. American Journal of Clinical Nutrition, v.77, n.4, p.943-951, 2003.
GUIL-GUERRERO, J.L.; MAROTO, F.F.G.; GIMÉNEZ,A.G. Fatty acids profiles from forty-nine plant species that are potential new sources of gamma-linolenic acid. The Journal of the American Oil Chemists Society, v.78, n.7, p.677-684, 2001.
HAMROUNI, I.; TOUATI, S.; MARZOUK, B. Evolution des lipides au cours de la formation et de la maturation de la graine de bourrache (Borago officinalis). La Rivista Italiana delle Sostanze Grasse, v.79, p.113-118, 2002.
HORNYCH, A.; ORAVEC, S.; GIRAULT, F.; FORETTE, B.; HORROBIN, D.F. The effect of gamma-linolenic acid on plasma and membrane lipids and renal prostaglandin synthesis in older subjects. Bratislavske Lekarske Listy, v.103, n.3, p.101-7, 2002.
HUDSON, B.J.F. Evening Primose (Oenothera spp.) Oil and Seed. The Journal of the American Oil Chemists Society, v.61, n.3, p.540-543, 1984.
KLEIMAN, R.; EARLE, F.R.; WOLFF, I.A. Search for New Industrial Oils. XI. Oils of Boraginaceae The Journal of the American Oil Chemists Society, v.41, p. 459-460, 1964.
KUROYANAGI, M.; SEKI, T.; HAYASHI, T.; NAGASHIMA, Y.; KAWAHARA, N.; SEKITA, S.; SATAKE, M. Anti-androgenic triterpenoids from Brazilian medicinal plants. Chemical and Pharmaceutical Bulletin, v.49, n.8, p.954-957, 2001.
LAIDLAW, M.; HOLUB, B.J. Effects of supplementation with fish oilderived n-3 fatty acids and γ acid on circulating plasma lipids and fatty acid profiles in women. American Journal of Clinical Nutrition, v.77, n.1, p.37-42, 2003.
LOUIS, C.S.; LEE, R.M.K.W; ROSENFELD, J.; BABJAK, A.F. Antihypertensive effect of γ acid in spontaneously hypertensive rats. Hypertension, v.19, n.2, Supplement II, p.111-115, 1992.
MAYWORM, M.A.S.; NASCIMENTO, A.S.; SALATINO, A. Seeds of species from the "caatinga": proteins, oils and fatty acid contents. Revista Brasileira de Botânica, v. 21, n.3, p.299-303, 1998.
MEEHAN, E.; BEAUGÉ, F.; CHOQUART, D.; LEONARD, B.E. Influence of an n-6 polyunsaturated fatty acidenriched diet on the development of tolerance during chronic ethanol administration in rats. Alcoholism Clinical and Experimental Research, v.19, n.6, p.1441-6, 1995.
MILLER, R.W.; EARLE, F.R.; WOLFF, I.A. Search for New Industrial Oils. XV. Oils of Boraginaceae Lipids, v.3, n.1, p.43 - 45, 1967.
MUKARRAM, M.; AHMAD, I.; FAROOQI, A. Studies on minor seed oils. VI. Fette Seifen Anstrichmittel, v.88, n.5, p.182-183, 1986.
RAHAMATALLA, A.B.; BABIKER, E.E.; KRISHNA, A.G.; TINAY, A.H. Changes in fatty acids composition during seed growth and physicochemical characteristics of oil extracted from four safflower cultivars. Plants Food for Human Nutrition, v.56, n.4, p.385-395, 2001.
SAITO, M.L.; OLIVEIRA, F. Morfodiagnose e identificação cromatográfica em camada delgada de chá de bugre Cordia ecalyculata Vell. Revista Brasileira de Farmácia, v.67, p.1-16, 1986.
SENANAYAKE, N.S.P.J.; SHAHIDI, F. Lipid components of borage (Borago officinalis L.) seeds and their changes during germination. The Journal of the American Oil Chemists Society, v.77, n.1, p.55-61, 2000.
SMITH, L.B. Boragináceas. In: REITZ, P.R. (ed.). Flora Ilustrada Catarinense Itajaí: Herbário Barbosa Rodrigues, 1970, p.85.
SURESH, Y.; DAS, U.N. Longchain polyunsaturated fatty acids and chemically induced diabetes mellitus Effect of ω-6 fatty acids. Nutrition, v.19, n.2, p.93-114, 2003.
TARODA, N. Taxonomic studies on Brazilian species of Cordia L. (Boraginaceae) Ph. D. Thesis. University of St. Andrews, Scotland, 1984.
TRAITLER, H.; WINTER, H.; RICHLI, U.; INGENBLEEK, Y. Characterization of γ Acid in Ribes Seed. Lipids, v.19, n.12, p.923-928, 1984.
VELASCO, L.; GOFFMAN, F.D. Chemotaxonomic significance of fatty acids and tocopherols in Boraginaceae. Phytochemistry, v.52, p.423-426, 1999.
WOLF, R.B.; KLEIMAN, R.; ENGLAND, R.E. New Sources of γ Acid. The Journal of the American Oil Chemists Society, v.60, n.11, p.1858-1860, 1983.

*

Autor para correspondência:

Profa. Dra. Patrícia de Oliveira Carvalho

Programa de Pós-Graduação em Ciências Farmacêuticas

Universidade São Francisco

Av. São Francisco de Assis, 218

CEP 12916900, Bragança Paulista, SP.

E-mail:

patcarvalho@saofrancisco.edu.br

Datas de Publicação

Publicação nesta coleção
23 Set 2008
Data do Fascículo
2004

Histórico

Recebido
29 Out 2003
Aceito
10 Mar 2004

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

[1] ANGELY, J. Flora analítica e fitogeográfica do Estado de São Paulo. Phyton: International Journal of Experimental Botany, p.819-825, 1970.

[2] AKISUE, M.K.; OLIVEIRA, F.; MORAES, M.S.; AKISUE, G.; MANCINI, B. Caracterização farmacognóstica da droga e da tintura de Cordia verbenacea Al. DC. Boraginaceae Revista de Ciências Farmacêuticas, v.5, p.69-82, 1983.

[3] AMERICAN OIL CHEMISTS SOCIETY (AOCS) Official methods and recommended practices of the American Oil Chemists Society. 4.ed., Champaign, v.2, Ce 2-66, 1993.

[4] BAKSHI, A.; MUKHERJEE, D.; BAKSHI, A.; BANERJI, A.K. DAS, U.N. γ-linolenic acid therapy of human gliomas. Nutrition, v.19, n.4 , p.305-309, 2003.

[5] BARROSO, G.M. Sistemática das angiospermas do Brasil Viçosa: UFV, p. 88-94, 1986.

[6] BARROSO, I.C.E.; OLIVEIRA, F. de; BRANCO, L.H.Z.; KATO, E.T.M.; DIAS, T.G. O gênero Cordia L.: botânica, química e farmacologia. Revista Lecta, v.20, n.1, p.15-34, 2002.

[7] BELLENGER-GERMAIN, S.B.; POISSON, J.P.; NARCE, M. Antihypertensive effects of a dietary unsaturated FA mixture in spontaneously hypertensive rats. Lipids, v.37, n.6, p.561-567, 2002.

[8] BLIGH, E.G.; DYER, J.W. A rapid method of total lipid extraction and purification. Canadian Journal of Biochemistry and Physiology, v.37, p. 911-917, 1959.

[9] CHRISTIE, W.W. Analysis of complex lipid. In: Lipid Analysis, 2 ed., New York: Pergamon, p.107-134, 1982.

[10] DAULATABAD, C.M.J.D; DESAI, V.A.; HOSAMANI, K.M. Unusual Fatty Acids of Cordia rothii seed oil. Journal of Science Food Agriculture, v.58, p.285-286, 1992.

[11] FELL, K.R.; PECK, M.J. Phytochemical investigation of some species of the Boraginaceae. Planta Medica, v.16, n.4, p.411-420, 1968.

[12] FICARRA, R.; FICARRA, P.; TOMMASINI, S. Leaf extracts of some Cordia species analgesic and antiinflammatory activities as well as their chromatographic analysis. Fármaco, v.50, p.245-256, 1995.

[13] FUKUSHIMA, M.; AKIBA, S.; NAKANO, M. Comparative hypocholesterolemic effects of six vegetables oils in cholesterol-fed rat. Lipids, v.31, n.4, p.415-419, 1996.

[14] GIRMAN, A.; LEE, R.; KLIGLER, B. An integrative medicine approach to premenstrual syndrome. American Journal Obstetrics and Gynecology, v.188, v.5 Suppl, p.S56-65, 2003.

[15] GOFFMAN, F.D; GALLETTI, S. Gamma-linolenic acid and tocopherol contents in the seed oil of 47 accessions from several Ribes species. Journal of Agricultural and Food Chemistry, v.49, n.1, p.349-354, 2001.

[16] GOOL, C.J.A.W.; THIJS, C.; HENQUET, C.J.M.; HOUWELINGEN, A.C.; DAGNELIE, P.C.; SCHRANDER, J.; MENHEERE, P.P.C.A.; BRANDT, P.A. γ acid supplementation for prophylaxis of atopic dermatitisa randomized controlled trial in infants at high familial risk. American Journal of Clinical Nutrition, v.77, n.4, p.943-951, 2003.

[17] GUIL-GUERRERO, J.L.; MAROTO, F.F.G.; GIMÉNEZ,A.G. Fatty acids profiles from forty-nine plant species that are potential new sources of gamma-linolenic acid. The Journal of the American Oil Chemists Society, v.78, n.7, p.677-684, 2001.

[18] HAMROUNI, I.; TOUATI, S.; MARZOUK, B. Evolution des lipides au cours de la formation et de la maturation de la graine de bourrache (Borago officinalis). La Rivista Italiana delle Sostanze Grasse, v.79, p.113-118, 2002.

[19] HORNYCH, A.; ORAVEC, S.; GIRAULT, F.; FORETTE, B.; HORROBIN, D.F. The effect of gamma-linolenic acid on plasma and membrane lipids and renal prostaglandin synthesis in older subjects. Bratislavske Lekarske Listy, v.103, n.3, p.101-7, 2002.

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Brasil

Brasil

Estudo dos componentes lipídicos das sementes de três espécies do gênero Cordia L. (Boraginaceae)

Lipids compounds study from seeds of three Cordia L. species (Boraginaceae)

Resumos

Datas de Publicação

Histórico