Triterpenes representative

Triterpenes represent a very large group of medicinal plant compounds, and so a separate chapter has been devoted to them (Chapter 6). 

The results show that DE-MS alone provides evidence of the presence of the most abundant components in samples. On account of the relatively greater difficulty in the interpretation of DE-MS mass spectra, the use of multivariate analysis by principal component analysis (PCA) of DE-MS mass spectral data was used to rapidly differentiate triterpene resinous materials and to compare reference samples with archaeological ones. This method classifies the spectra and indicates the level of similarity of the samples. The output is a two- or three-dimensional scatter plot in which the geometric distances among the various points, representing the samples, reflect the differences in the distribution of ion peaks in the mass spectra, which in turn point to differences in chemical composition of... 

Overall, however, the immensity of temperate land corresponds to a most various secondary metabolic production, different from that of tropical land. The most renowned alkaloids belong to the morphine class (Chart 6.2.A1), and, in combination with isoprenoids, to the ergot and triterpene classes (Chart 6.2. A2). Prominent in the peptides are the cyclosporins (the first of which was isolated from a fiingus collected in Norway), streptogramins, and P-lactams (Chart 6.2.P). The isoprenoids are represented by pyrethrin monoterpenes, cedrane sesquiterpenes, ginkgolide and taxane diterpenes, ophiobolane sesterterpenes, and arborane and amyrin-like triterpenes (Chart 6.2.1). In the polyketides, epothilones, recently discovered from Myxobacteria, and the long known rapamycin, are two prominent classes of macrolides (Chart 6.2.FA/PO/C). 

The biological activity and toxicity of terpenoids to herbivores has been discussed (56,84) and representatives of each major type of terpene are known to be active. Well known examples are sesquiterpene lactones, pyrethrins, and several classes of diter-penes and triterpenes. 

The lipid extracts from echinoderms have been found to contain 3.3 to 8.5% of monosaccharides. The only exception is the sea cucumber Cucumaria japonica, whose lipid extract contains 1.6% of monosaccharides, although a related species, C. fraudatrix, has been found to contain the highest proportion thereof (8.5%). It should, however, be noted that some carbohydrate-containing compounds in the lipid extracts of echinoderms may be represented not by glycolipids, but by steroid or triterpene glycosides.275"282... 

Van Tamelen has examined extensively the cyclization of monoepoxide-polyolefins (94). For example, he found (95) that the treatment of racemic epoxide 247 with SnCl in nitromethane provided a major product (35% yield) which was identified as the racemic tetracycle 248. This represents an over all, close simulation of the squalene tetracyclic triterpene bioconversion (except for optical activity). 

The terpenoids form a large and structurally diverse family of natural products derived from C5 isoprene units (Figure 5.1) joined in a head-to-tail fashion. Typical structures contain carbon skeletons represented by (Cs) , and are classified as hemiterpenes (C5), monoterpenes (C10), sesquiterpenes (C15), diterpenes (C2o), sesterterpenes (C25), triterpenes (C30) and tetraterpenes (C40) (Figure 5.2). Higher polymers are encountered in materials such as rubber. Isoprene itself (Figure 5.1) had been characterized as a decomposition product from various natural cyclic hydrocarbons, and was suggested as the fundamental building block for these compounds, also referred to as isoprenoids . Isoprene is produced naturally but is not involved in the formation of... 

The dammarenyl cation (21) represents the first branch point from which numerous mechanistic pathways of triterpene synthesis diverge. A detailed and interesting study of molecular modelling and conformational analysis indicates that the formation and... 

Terpenes are composed of isoprenyl (C-,) units and are conveniently grouped as monoter-penes (skeletal basis CI0 = 2X C-,), sesquiterpenes (G13 = 3X C3), diterpenes (C20 = 4X C-,), triterpenes (C3o = 6X C-,) and tetraterpenes (C40 = 8X G-j. The structures of some representative terpenes are shown in the Appendix (Section 3). Terpenes ultimately derive biosynthetically from acetate (C2) via the activated acetyl thioester (CH3—CO—S—X) acetyl-coenzyme A (acetylCoA CH3-CO-S-C0A) as outlined below (enzymes catalysing key steps being indicated in parentheses). 

If as above we simply represent alicyclic rings sharing two Gs by a vertical line, then we can represent the basic tetracyclic structure of lanosterol as G61G61 G6 C5 (noting that there are two double bonds and various alkyl substituents and also a 3-hydroxyl on the first of the alicyclic rings). Many subsequent reactions yield cholesterol, a major triterpene membrane component that modifies the fluidity of animal cell membranes and is a precursor for synthesis of animal bile acids (fat solubilizing amphipathic detergents) plant triterpenes and steroid hormones such as the corticosteroids cortisol and cortisone, the mineralocorticoid aldosterone and the sex hormones testosterone and 17-(3-oestradiol. The structure and bioactivity of the plant terpenes is sketched below. 

Fig. 6), led to the discovery of the mevalonate pathway leading to IPP 7 and DMAPP 8 (Fig. 1). In this pathway, isoprene units are derived, like fatty acids, from acetyl-coenzyme A 1. The key intermediate is mevalonate 4, which results from the reduction of hydroxymethylglutaryl-coenzyme A 3 catalyzed by the HMG-CoA reductase, and represents the committed step of the pathway. Confirmation of this pathway was obtained for the biosynthesis of plant sterols, triterpenes, and sesquiterpenes. 

About 130 saponins have been described in Astragalus spp. untill now. Table (2). D-xylose (xyl), D-glucose (g c), L-rhamnose (rha), L-arabinose (ara) represent the carbohydrate components of these glycosides pentoses are more frequent then hexoses. Apiose (apio), in the furanosic form, occurs only in cycloaraloside C, named also astrailienin A [140,61]. Glucuronic acid has been found only in pentacyclic triterpene saponins (as in soyasaponins). Astragalus saponins of cycloartane series... 

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