Fungicidal potential of methoxylated flavones from citrus for in vitro control of Colletotrichun gloeosporioides, causal agent for anthracnose disease in tropical fruits

Autor: Vargas Arispuro, I.; Martínez Tellez, M.A.; Hernández Álamos, María del Mar; Primo Yúfera, E.; Vallejo, S.; Almada Ruiz, E.; 

Tipo de documento: Artículo de revista

Revista: Pest Management Science. ISSN: 1526-498X. Año: 2003. Número: 59(11). Volumen: 59. Páginas: 1245-1249.

doi 10.1002/ps.747

JCR:
Edición:
Science  Área: Agronomy  Quartil: Q1  Lugar área: 7/53  F. impacto: 1,331 
Edición:
Science  Área: Entomology  Quartil: Q1  Lugar área: 11/64  F. impacto: 1,331 

CIRC: GRUPO A - EXCELENCIA

Referencias:

  • Waller, J.M., Colletotrichum disease of perennial and other cash crops (1992) Colletrotrichum, Biology, Pathology and Control, pp. 167-185. , ed by Bailey JA and Jeger MJ, CAB International, Wallingford, UK
  • Freeman, S., Shabi, E., Cross-infection of subtropical and temperate fruits by Colletrotrichum species from various hosts (1996) Physiol Mol Plant Pathol, 49, pp. 395-404
  • Fitzell, R.D., Peak, C.M., The epidemiology of anthracnose disease of mango: Inoculum sources, spore production and dispersal (1984) Ann Appl Biol, 104, pp. 53-59
  • Jeger, M.J., Plumbley, R.A., Post-harvest losses caused by anthracnose (Colletotrichum gloeosporioides) of tropical fruits and vegetables (1988) Biodeterioration, 7, pp. 642-646
  • Freeman, S., Katan, T., Shabi, E., Characterization of Colletotrichum species responsible for Anthracnose diseases of various fruits (1998) Plant Dis, 82, pp. 596-605
  • Ploetz, R.C., Mango disease caused by fungi (1994) Compendium of Tropical Fruit Diseases, pp. 34-41. , ed by Ploetz RC, Zentmyer GA, Nishijima WT and Rohrbach KG, American Phytopathological Society, St Louis, MN
  • Jeffrries, P., Dodd, J.C., Jeger, M.J., Plumbley, A., The biology and control of Colletotrichum species on tropical fruit crops (1990) Plant Pathol, 39, pp. 343-366
  • Hartill, W.F.T., Post-harvest rots of avocado in New Zealand and their control (1992) Proc Brighton Crop Prot Conf, pp. 1157-1162. , BCPC, Farnham, Surrey, UK
  • Brown, G.E., Factors affecting postharvest development of Colletotrichum gloeosporioides in citrus fruits (1975) Phytopathology, 65, pp. 404-409
  • Timmer, L.W., Brown, G.E., Zitko, S.E., The role of Colletotrichum spp in postharvest anthracnose of citrus and survival of C acutatum on fruit (1998) Plant Dis, 82, pp. 415-418
  • March, C., Sanz, I., Primo-Yúfera, E., Antimicrobial activities on Mediterranean plants (1991) Zentralbl Mikrobiolo, 146, pp. 291-295
  • Roitman, J.N., James, L.F., Chemistry of toxic range plants. Highly oxygenated flavonol methyl ethers from Gutierezia microcephala (1985) Phytochemistry, 24, pp. 835-848
  • Panichpol, K., Watwerman, P.G., Novel flavonoids from stem of Popowia caulifiora (1978) Phytochemistry, 17, pp. 1363-1367
  • Berahia, T., Gaydou, E.M., Cerrati, C., Wallet, J., Mass spectrometry of polymethoxylated flavones (1994) J Agric Food Chem, 42, pp. 1696-1700
  • Machida, K., Osawa, K., Structure of flavonoid constituents in iyo (Citrus iyo) peel (1988) Nippon Nogeikagaku Kaishi, 62, pp. 1777-1779
  • Otsuka, H., Isolation of isolinariin-A and isolinariin-B, new flavonoid glycosides from Linaria japonica (1992) J Nat Prod, 55, pp. 1252-1255
  • Sugiyama, S., Umehara, K., Kuroyanagi, M., Ueno, A., Taki, T., Studies on the differentiation induced of myeloid leukemic cell from Citrus species (1993) Chem Pharm Bull, 4, pp. 714-719
  • Chen, J., Montanari, A., Widmer, W., Two new polymethoxylated flavones, a class of compounds with potential anticancer activity, isolated from cold pressed Dancy tangerine peel oil solids (1997) J Agric Food Chem, 45, pp. 364-368
  • Howard, C.A., Albregts, E.E., Chandler, C.K., Evaluation the fungicides for control of gray mold and fruit anthracnose (1991) Fung Nematicide Test, 46, pp. 105-109
  • Adaskaveg, J.E., Hartin, R.J., Characterization of Colletotrichum acutatum isolates causing anthracnose of almond and peach in California (1997) Phytopathology, 87, pp. 979-987
  • Freeman, S., Nizani, Y., Dotan, S., Even, S., Sando, T., Control of Colletotrichum acutatum in strawberries under laboratory, greenhouse, and field conditions (1997) Plant Dis, 81, pp. 749-752
  • Bommarito, S.G., Greenough, R.D., Tudela, A.F., Inhibition of mango anthracnose (Colletotrichum gloeosporioides) and stem-end rot, (Phomposis magniferae) by ethanolic leaf extracts of neem (Azadirachta indica Juss) in the Northern Mariana Islands (1998) Phytopathology, 88, pp. S9
  • Tomas-Barberán, F.A., Msonthi, J.D., Hostettmann, K., Antifungal epicuticular methylated flavonoids from Helichrysum nitens (1988) Phytochemistry, 27, pp. 753-755
  • Piatelli, M., Impellizzeri, G., Fungistatic flavones in the leaves of citrus species resistant and susceptible to Deuterophoma tracheiphila (1971) Phytochemistry, 10, pp. 2657-2660
  • Laks, P.E., Pruner, M.S., Flavonoids biocides structure/activity relations of flavonoid phytoalexin analogues (1989) Phytochemistry, 28, pp. 87-91
  • Harborne, J.B., The flavonoids of the Rutales (1983) Plant and Fungal Toxins, , ed by Keeler RF and Tu AT, Marcel Dekker, Academic Press, New York
  • Kandaswami, C., Perkins, E., Soloniuk, D., Drzewiecki, G., Middleton E., Jr., Antiproliferative effects of citrus flavonoids on human squamous cell carcinoma in vitro (1991) Cancer Lett, 56, pp. 147-152
  • Manthey, J.A., Guthrie, N., Grohmann, K., Biological properties of citrus flavonoids pertaining to cancer and inflammation (2001) Curr Medic Chem, 8, pp. 135-153