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Natural products molecular structure

Role of the nature and molecular structure of the reacting species, interaiediates, products, solvents, and other components present in the system... [Pg.260]

Sabinene and carene are isomeric natural products with the molecular formula CjoHig (a) Ozonolysis of sabinene followed by hydrolysis in the presence of zinc gives compound A What IS the structure of sabinene" What other compound is formed on ozonolysis" (b) Ozonoly SIS of A carene followed by hydrolysis in the presence of zinc gives compound B What is the structure of A carene" ... [Pg.279]

A certain compound of molecular formula Ci9H3g was isolated from fish oil and from plank ton On hydrogenation it gave 2 6 10 14 tetramethylpentadecane Ozonolysis gave (CH3)2C=0 and a 16 carbon aldehyde What is the structure of the natural product" What is the structure of the aldehyde" ... [Pg.280]

A compound was obtained from a natural product and had the molecular formula C14H20O3 It contained three methoxy (—OCH3) groups and a —CH2CH=C(CH3)2 substituent Oxidation with either chromic acid or potassium permanganate gave 2 3 5 trimethoxybenzoic acid What is the structure of the compound" ... [Pg.469]

The number of reaction sequences required for liberation of trimethylamine 4 indicates the degree of incorporation of a particular nitrogen into the molecular skeleton. Because of that feature, the Hofmann elimination has been used for the structural analysis of natural products, e.g. alkaloids. [Pg.164]

Many new drugs are discovered by studying the properties of compounds found in plants or other materials that have been used as medicines for centuries (Fig. F. 1). Once chemists have extracted a biologically active compound from a natural product, they identify its molecular structure so that it can be manufactured. This section focuses on the first step in identifying the molecular structure, the determination of the empirical and molecular formulas of the compound. [Pg.70]

The application areas for LC-MS, as will be illustrated later, are diverse, encompassing both qualitative and quantitative determinations of both high-and low-molecular-weight materials, including synthetic polymers, biopolymers, environmental pollutants, pharmaceutical compounds (drugs and their metabolites) and natural products. In essence, it is used for any compounds which are found in complex matrices for which HPLC is the separation method of choice and where the mass spectrometer provides the necessary selectivity and sensitivity to provide quantitative information and/or it provides structural information that cannot be obtained by using other detectors. [Pg.187]

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