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Biologically active compounds, configuration

Chiral molecules are characterized by three-dimensional handedness and can exist in two enantiomeric forms of opposite absolute configuration (AC). Most natural products and biologically active compounds are chiral and their biological and molecular functions are closely related to their chirality, that is, AC and conformation. Furthermore, many drugs derived from natural products or of purely synthetic origin are currently used in enantiopure form. Therefore, the unambiguous determination of the AC of chiral compounds is critical for the studies of natural products and biomolecular systems.1... [Pg.92]

Ponasterones A, B, and C, and related biologically active compounds have been reviewed. The configuration of the 2a,3a-diol system of ponasterone B has been confirmed and mass spectral studies have revealed the presence of an extra hydroxy-group in ponasterone C which, on n.m.r. and c.d. evidence must be SP thereby leading to the revised structure (138). [Pg.427]

It is well known that, for biologically active substances, one enantiomer shows different biological activity from the other. For example, the studies by Mori et al. on the relationship between optical purity and biological activity of insect pheromones have revealed that the biological activities were dramatically changed by their optical purities. Therefore, it is important to determine the absolute configuration and accurate optical purity of biologically active compounds. [Pg.1082]

Efforts have been made to correlate electronic stmcture and biological activity in the tetracycline series (60,61). In both cases, the predicted activities are of the same order as observed in vitro with some exceptions. The most serious drawback to these calculations is the lack of carryover to in vivo antibacterial activity. Attempts have also been made (62) to correlate partition coefficients and antibacterial activity. The stereochemical requirements are somewhat better defined. Thus 4-epitetracycline and 5a-epitetracycline [65517-29-5] C22H24N20g, are inactive (63). The 6-epi compound [19369-52-9] is about one-half as active as the 6a (or natural) configuration. [Pg.180]

Divalent sulfur compounds are achiral, but trivalent sulfur compounds called sulfonium stilts (R3S+) can be chiral. Like phosphines, sulfonium salts undergo relatively slow inversion, so chiral sulfonium salts are configurationally stable and can be isolated. The best known example is the coenzyme 5-adenosylmethionine, the so-called biological methyl donor, which is involved in many metabolic pathways as a source of CH3 groups. (The S" in the name S-adenosylmethionine stands for sulfur and means that the adeno-syl group is attached to the sulfur atom of methionine.) The molecule has S stereochemistry at sulfur ana is configurationally stable for several days at room temperature. Jts R enantiomer is also known but has no biological activity. [Pg.315]

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Biological active compounds

Biological compounds

Biologically active compounds

Configuration compounds

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