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Secondary metabolites diversity

Epoxides are often encountered in nature, both as intermediates in key biosynthetic pathways and as secondary metabolites. The selective epoxidation of squa-lene, resulting in 2,3-squalene oxide, for example, is the prelude to the remarkable olefin oligomerization cascade that creates the steroid nucleus [7]. Tetrahydrodiols, the ultimate products of metabolism of polycyclic aromatic hydrocarbons, bind to the nucleic acids of mammalian cells and are implicated in carcinogenesis [8], In organic synthesis, epoxides are invaluable building blocks for introduction of diverse functionality into the hydrocarbon backbone in a 1,2-fashion. It is therefore not surprising that chemistry of epoxides has received much attention [9]. [Pg.447]

Masuda, M., Abe, T., Sato, S., Suzuki, T. and Suzuki, M. 1997a. Diversity of halogenated secondary metabolites in the red alga Laurencia nipponica (Rhodomelaceae, Ceramales) J. Phycol. 33 196-208. [Pg.322]

Saponins are glycosylated secondary metabolites that are widely distributed in the Plant Kingdom.3,4 They are a diverse and chemically complex family of compounds that can be divided into three major groups depending on the structure of the aglycone, which may be a steroid, a steroidal alkaloid, or a triterpenoid. These molecules have been proposed to contribute to plant defense.3 6 Saponins are also exploited as drugs and medicines and for a variety of other purposes.4 Despite the considerable commercial interest in this important group of natural products, little is known about their biosynthesis. This is due in part to the complexity of the molecules, and also to the lack of pathway intermediates for biochemical studies. [Pg.82]

Plants produce an amazing diversity of secondary metabolites that not only play important biological roles in their adaptation to environments but also provide humans with dyes, flavors, drugs, fragrance, and other useful chemicals. However, many of the secondary metabolic pathways are found or are amplified only in limited taxonomic groups. In addition, the compounds are often restricted to a particular... [Pg.113]

Although herbivore pressure is more intense and is exerted by a more diverse assemblage of consumers in the tropics (Liming 1990), it is now known that herbivory fails to fully explain the production of secondary metabolites, and that these... [Pg.44]

While poisonous plants on grazing lands have a significant impact on livestock production throughout the world, the natural toxins (secondary metabolites) in the plant may have multiple and diverse functions, not only for the plant world but also for the benefit of mankind. Many current pharmaceuticals have been chemically optimized from natural toxins of plant origin. New plant compounds and familiar compounds with renewed interest, e.g., nutraceuticals, herbal preparations, nutritional supplements, etc, are increasingly finding their value in human nutrition and health. [Pg.20]

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Secondary metabolites

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