Stille reactions with lead compounds

The compound in which the 3-keto group is reduced to a hydrocarbon interestingly still acts as an orally active progestin. The preparation of this compound starts with the hydrolysis of dihydrobenzene (13-2) to afford 19-nortestosterone (15-1). Reaction with ethane-1,2-thiol in the presence of catalytic acid leads to the cyclic thioacetal (15-2). Treatment of this intermediate with Raney nickel in the presence of alcohol leads to the reduced desulfurized derivative (15-3). The alcohol at 17 is then oxidized by any of several methods, such as chromic acid in acetone (Jones reagent), and the resulting ketone (15-4) treated with hthium acetylide. There is thus obtained the progestin lynestrol (15-5) [18]. 

The model had been substantiated by measuring the potential dependent electrosorption isotherms of all species involved that show that the proto-nated alcaloids are those species that are by far most strongly adsorbed, whereas the acetyl pyridines are least strongly adsorbed, especially at lower pH relative to the electrosynthesis, which is performed at pH 4 to 4.5. The optically inductive reduction of 2- and 4-acetyl pyridine to the optically active carbinols demands the formation of a dense but not too densely packed surface layer of adsorbed protonated alcaloid, which still allows for insertion of the oxo-compound or the ketyl radical, respectively. Performing the reaction with too high alcaloid concentrations leads to compaction on the adsorbate layer, the ketyl radical is squeezed out, and optimal induction is no longer observed. 

The reaction of formamide with aromatic compounds under ultraviolet irradiation is still unexplored and only preliminary results have so far been obtained. In the cases already studied it has been found that this reaction must be sensitized with a ketonic sensitizer, usually acetone, in order to take place. The mechanism of the photoamidation of aromatic compounds certainly differs from the one of simple olefins. The detailed mechanism still awaits further experimental evidence, and in some cases involves, most probably, radical combinations and not addition of radical to unsaturated systems. Interactions of the excited sensitizer with aromatic compounds, having in some cases triplet energies similar or just a bit higher than those of the sensitizers used, must be brought into consideration. Experimentally it has been shown that the photosensitized amidation of benzene leads to benzamide (11),... 

The survey in Figure 9.23 shows that N nucleophiles can react with carbonyl compounds in the following ways (1) An addition to the C=0 double bond followed by an SN1 reaction leads to the formation of AW-acetals (details Section 9.2.4). (2) An addition to the C=0 double bond is followed by an El reaction by which, amongst others, enamines are formed (details Section 9.3). (3) Imines are produced. We still need to discuss whether the reaction of O nucleophiles with carbonyl compounds also gives us two options—parallel to the two possibilities (1) and (2) mentioned above. According to Figure 9.12 alcohols and carbonyl compounds always afford 0,0-acetals—through an addition and an SN1 reaction (details Section 9.2.2). 

With an increasing interest in peptides as potential lead compounds in drug design, the technique has become particularly important in the pharmaceutical industry. The utility of HR-MAS NMR for the characterization of peptides attached to solid-phase supports has been demonstrated by Jelinek et alP The improved resolution afforded by MAS is clearly demonstrated in Fig. 3. In fact, the quality of the spectra is such that resonance assignments and structure determination of the peptide were accomplished with the peptide still attached to the solid-phase support. Similarly, Dhalluin et alP used HR-MAS NMR to monitor the progress of a reaction on a solid-phase support. 

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