Fitoquímica y valor ecológico del olor a ajo en los vegetales
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[1] P. Adriana,et al. Medicinal plants from the Yanesha (Peru): evaluation of the leishmanicidal and antimalarial activity of selected extracts. , 2009 .
[2] D. Cipollini,et al. Half-lives and field soil concentrations of Alliaria petiolata secondary metabolites. , 2009, Chemosphere.
[3] D. Navarro,et al. Chemical composition, oviposition deterrent and larvicidal activities against Aedes aegypti of essential oils from Piper marginatum Jacq. (Piperaceae). , 2009, Bioresource technology.
[4] S. Cañigueral,et al. A first survey on the medicinal plants of the Chazuta valley (Peruvian Amazon). , 2009, Journal of ethnopharmacology.
[5] D. Gamboa,et al. Medicinal plants from the Yanesha (Peru): evaluation of the leishmanicidal and antimalarial activity of selected extracts. , 2009, Journal of ethnopharmacology.
[6] J. L. Sáez,et al. Plantas alexitéricas: antídotos vegetales contra las picaduras de serpientes venenosas , 2009 .
[7] A. Fett-Neto,et al. Allelopathic potential of Psychotria leiocarpa, a dominant understorey species of subtropical forests , 2008 .
[8] S. Bacher,et al. Differential effects of flower feeding in an insect host–parasitoid system , 2008 .
[9] F. Sugawara,et al. Diallyl sulfides: Selective inhibitors of family X DNA polymerases from garlic (Allium sativum L.). , 2008, Food chemistry.
[10] F. Coe,et al. Rama midwifery in eastern Nicaragua. , 2008, Journal of ethnopharmacology.
[11] M. Jardim,et al. Fenologia, biologia floral e germinação de plantas aromáticas: Hyptis suaveolens (L.) Poit.(Lamiaceae) e Mansoa standleyi (Steyerm.) A. H. Gentry (Bignoniaceae) Museu Paraense Emilio Goeldi. , 2008 .
[12] Jeffrey A. Evans,et al. Pre-release monitoring of Alliaria petiolata (garlic mustard) invasions and the impacts of extant natural enemies in southern Michigan forests , 2007 .
[13] I. Al‐Shehbaz,et al. The Brassicaceae (Cruciferae) of Turkey, Updated , 2007 .
[14] P. Klouček,et al. Antimicrobial activity of some medicinal barks used in Peruvian Amazon. , 2007, Journal of ethnopharmacology.
[15] K. Hostettmann,et al. Iridoid glycosides from the stems of Pithecoctenium crucigerum (Bignoniaceae). , 2007, Phytochemistry.
[16] B. Philogéne,et al. Antifeedant activities of terpenoids isolated from tropical Rutales , 2007 .
[17] D. E. García,et al. Metabolitos secundarios y patrón de selección de dietas en el bosque deciduo tropical de los llanos centrales venezolanos , 2006 .
[18] S. Christensen,et al. Identification and evaluation of Peruvian plants used to treat malaria and leishmaniasis. , 2006, Journal of ethnopharmacology.
[19] M. Keusgen,et al. Occurrence and taxonomic significance of cysteine sulphoxides in the genus Allium L. (Alliaceae). , 2006, Phytochemistry.
[20] R. Musah,et al. Antibacterial and Antifungal Activity of Sulfur-Containing Compounds from Petiveria Alliacea L. , 2005, Journal of ethnopharmacology.
[21] Fikret Demir,et al. Some nutritional and technological properties of garlic (Allium sativum L.) , 2005 .
[22] O. Bossdorf,et al. Molecular evidence for multiple introductions of garlic mustard (Alliaria petiolata, Brassicaceae) to North America , 2005, Molecular ecology.
[23] Mahabir P. Gupta,et al. Medical ethnobotany of the Teribes of Bocas del Toro, Panama. , 2005, Journal of ethnopharmacology.
[24] S. Vaughn,et al. Allelochemicals Isolated from Tissues of the Invasive Weed Garlic Mustard (Alliaria petiolata) , 1999, Journal of Chemical Ecology.
[25] M. Lenzi,et al. Contribuição à ecologia da polinização de Tabebuia pulcherrima (Bignoniaceae) em área de restinga, no sul de Santa Catarina , 2004 .
[26] M. Simmonds. Flavonoid-insect interactions: recent advances in our knowledge. , 2003, Phytochemistry.
[27] J. López,et al. Importancia de la dieta en la prevención del cáncer oral , 2003 .
[28] R. Musah,et al. The lachrymatory principle of Petiveria alliacea. , 2003, Phytochemistry.
[29] J. Bergelson,et al. Costs of induced responses in plants , 2003 .
[30] O. Sticher,et al. Medicinal plants of the Popoluca, México: organoleptic properties as indigenous selection criteria. , 2002, Journal of ethnopharmacology.
[31] V. do Rosário,et al. Antimalarial activity of medicinal plants used in traditional medicine in S. Tomé and Príncipe islands. , 2002, Journal of ethnopharmacology.
[32] R. Musah,et al. The amino acid precursors and odor formation in society garlic (Tulbaghia violacea Harv.). , 2002, Phytochemistry.
[33] S. Pyo,et al. Immunomodulating effect of garlic component, allicin, on murine peritoneal macrophages , 2001 .
[34] A. Attygalle,et al. A cyanoallyl glucoside from Alliaria petiolata, as a feeding deterrent for larvae of Pieris napi oleracea. , 2001, Journal of natural products.
[35] J. Cossy,et al. A Short Synthesis of Cordiachromene. , 2000 .
[36] A. Sökmen,et al. The in vitro antibacterial activity of Turkish medicinal plants. , 1999, Journal of ethnopharmacology.
[37] D. Susko,et al. Variable patterns of seed maturation and abortion in Alliaria petiolata (Brassicaceae) , 1998 .
[38] J. Renwick,et al. Isovitexin 6″-O-β-d-glucopyranoside: A feeding deterrent to Pieris napi oleracea from Alliaria petiolata , 1998 .
[39] Shigehiro Asano,et al. Total synthesis of allixin; an anti-tumor promoter from garlic , 1997 .
[40] J. Pezzuto,et al. Antimalarial activity of tropical Meliaceae extracts and gedunin derivatives. , 1997, Journal of natural products.
[41] J. Fernandes,et al. Sesquiterpenes, triterpenoids, limonoids and flavonoids of Cedrela odorata graft and speculations on the induced resistance against Hypsipyla grandella , 1997 .
[42] N. Shaath,et al. The essential oil of allium sativum L., liliaceae (garlic) , 1995 .
[43] M. Hasegawa,et al. Mono- and sesquiterpene variation in Pinus caribaea needles and its relationship to Atta laevigata herbivory , 1994 .
[44] Kouji Matsumoto,et al. Cytotoxic naphthoquinones from Mansoa alliacea , 1992 .
[45] A. Gentry. A Synopsis of Bignoniaceae Ethnobotany and Economic Botany , 1992 .
[46] D. L. Hazlett. Provenance, age, and defoliation effects on the growth of Cordia alliodora in Central America , 1989 .
[47] I. Al‐Shehbaz,et al. Distribution and chemotaxonomic significance of glucosinolates in certain middle-eastern Cruciferae , 1987 .
[48] E. W. Davis,et al. The ethnomedicine of the Waorani of Amazonian Ecuador. , 1983, Journal of ethnopharmacology.
[49] K. Stevens,et al. The structure and synthesis of alliodorin , 1976 .
[50] R. Cole. 1-Cyanoepithioalkanes: major products of alkenylglucosinolate hydrolysis in certain Cruciferae. , 1975 .
[51] K. Stevens,et al. Alliodorin, a phenolic terpenoid from cordia alliodora , 1973 .
[52] R. Aplin,et al. Extracts of Cedrela odorata L.—IV: The structure of odoratin, an undecanortriterpene , 1972 .
[53] B. Burke,et al. Extractives of Cedrela odorata L.—III , 1969 .
[54] J. Powell,et al. 180. West African timbers. Part VI. Petroleum extracts from species of the genera Khaya, Guarea, Carapa, and Cedrela , 1963 .