Ageratum conyzoides

Some flavone structures have been revised during the reporting period. The structure of 5,8,2 -triOH-6,7-diOMe flavone (compound 131 in Table 12.1) had been ascribed to a product isolated from Scutellaria baicalensis After synthesis, it needs to be revised to 5,7,2 -triOH-6,8-diOMe flavone (compound 132, Table 12.1). " Pedunculin, earlier isolated from Tithonia species and claimed as 5,8-diOH-6,7,4 -triOMe-flavone (compound 141, Table 12.1), needs to be revised, after synthesis, to 5,7-diOH-6,8,4 -triOMe flavone = nevadensin (compound 142 in Table 12.1). " In the previous review, the compound 5,6,7,4 -tetraOH-3, 5 -diOMe had erroneously been cited as a component of Artemisia assoana. Data have now been included for the correct structure, 5,7,4 -triOH-6,3, 5 -triOMe flavone (compound 251 in Table 12.1). A further flavone reported from Ageratum conyzoides (compound 263 in... 

Gonzalez, A.G. et al., Methoxyflavones from Ageratum conyzoides. Phytochemistry, 30, 1269, 1991. 

Vyas, A.V. and Mulchandani, N.B., Polyoxygenated flavones from Ageratum conyzoides. Phytochemistry, 25, 2625, 1986. 

Ageratum conyzoides L., A. houstonianum Mill Zingiber officinale Roscoe... 

Perilla frutescens, P. ocymoides, P. polystachya, P. arguta Euphorbia lathyrus, E. lucorum, E. resinfera, E. thymifolia Ageratum conyzoides, A. houstonianum... 

Ageratum conyzoides, A. houstonianum, Artemisia argyi, A. halodendron, A. igniaria, A. indica,... 

Ageratum conyzoides, A. houstonianum, Flagellaria indica Trillium camschatcense... 

Singh, H.P., Batish, D.R., Kaur, S., Kohli, R.K. Phytotoxic interference of Ageratum conyzoides with wheat (Triticum aestivum). J Agron Crop Sci 2003a 189 341-346. 

Kong, C., Hu, F., Xu, X. Allelopathic potential and chemical constituents of volatiles from Ageratum conyzoides under stress. J Chem Ecol 2002 28 1173-1182. 

ALLELO CHEMICALS FROM Ageratum conyzoides L. AND Oryza sativa L. AND THEIR EFFECTS ON RELATED PATHOGENS... 

The structures and sources of many allelochemicals with anti-microbial activity have been documented (Dixon, 2001 Grayer and Harbome, 1994 Harbome, 1999). In this chapter, evidence for anti-microbial functions of allelochemicals from weed Ageratum conyzoides L. and food crop Oryza sativa L. has been reviewed. Effects of these allelochemicals on related pathogen management in the A. conyzoides intercropped citrus orchard and the paddy ecosystem were discussed. 

Allelochemicals from Ageratum conyzoides and Oryza sativa... 

Adesogan, E.K., Okunade, A.L. A new flavone from Ageratum conyzoides. Phytochemistry 1979 18 1863-1864. 

Albersberg, W. G L. Singh, Y. Essential oil of Ageratum conyzoides. Flavor Fragrance J 1991 6 117-120. 

Gonzalez, A.G, Aguiar, Z.E., Grillo, T.A., Luis, J.G, Rivera, A., Calle, J. Methoxyflavones from Ageratum conyzoides. Phytochemistry 1991 30 1269-1271. 

Horie, T., Tominaga, H. Kawamura, Y. Revised structure of a natural flavone from Ageratum conyzoides. Phytochemistry 1993 32 1078-1077... 

Hu, F., Kong, C.H. Allelopathy of Ageratum conyzoides. VI. Effects of meteorological conditions on allelopathy of Ageratum conyzoides. Chin J Appl Ecol 2002a 13 76-80. (In Chinese)... 

Ladeira, A.M., Zaidan, L.B.P., Figueiredo, Ribeiro, R.D.C.L. Ageratum conyzoides L.(Compositae) germination, flowering and occurrence of phenolic derivatives at different stages of development Hoehnea 1987 14 53-62. 

Menut, C., Lamaty, G, Zollo, P.H. A. Aromatic plants of tropical central Africa Part X. Chemical composition of essential oil of Ageratum houstonianum and Ageratum conyzoides from Cameroon. Flavor Fragrance J 1993 8 1-4. 

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