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Hydroxyl lactams

The (+)-13a-hydroxyaphyllidine structure was proposed on the basis of the C15H22N2O2 molecular formula determined by HRMS, IR absorptions at 3270, 1635 and 1560 cm (suggesting the presence of hydroxyl, lactam and ethylene functions), and also of the UV spectrum which indicates a vinyl amide group (A ax 239 nm). The position of the hydroxyl group was assessed by comparison of the C NMR data of (+)-13a-hydroxyaphyllidine and aphyllidine, which showed similar resonances for the carbon atoms of rings A, B, and C, and also by... [Pg.274]

The latter results from an unusual intramolecular Cannizzaro-tjrpe reaction involving a transannular hydride transfer from C-20 to C-7. Oxidation of LXXVI followed by reduction gave the epimeric hydroxyl lactam LXXVII with the hydroxyl (p ax 1682 cm i) in the original configuration of ajaconine. The hydroxyl in LXXVI is thus trans to the i r-bridge and in LXXVII is cis thereto. Further evidence on this point is provided by the behavior of the methiodide (LXXVIII) of the azo-methine alcohol (LXVII). The product liberated from this salt by hot, methanolic alkali is a hydroxyl-free base (LXXIX, 10) and hence... [Pg.152]

Huonnations with DAST proceed with high chemoselectivity In general, under very mild reaction conditions usually required for the replacement of hydroxyl groups, other functional groups, including phenolic hydroxyl groups [112], remain intact This provides a method for selective conversion of hydroxy esters [95 97] (Table 6), hydroxy ketones [120, 121], hydroxy lactones [722, 123], hydroxy lactams [124] and hydroxy nitriles [725] into fluoro esters, fluoro ketones, fluoro lactones, fluoro lactams, and fluoro nitnles, respectively (equations 60-63)... [Pg.228]

Thus, the acidity oi a lactam is evidently not a reliable quantity for predicting the course of the methylation. The acidity gives information only as to the reaction velocity. In this connection the reaction course of isomethylreductone (6) is illuminating, " With diazomethane in ether containing 1 mole of water, the enolraethyl ether (7) is formed. However, if water is present only in traces, then the alcoholic hydroxyl group is selectively attacked to give 8. [Pg.252]

Reduction of the imine with sodium borohydride leads to an intermediate amino-ester that cyclizes spontaneously to the <5-lactam function. Solvolysis of the acetyl group with methoxide followed by acylation of the hydroxyl group thus liberated with trimethoxybenzoyl chloride leads to 38. Bischler-Napieralski cyclodehydration (phosphorus oxychloride) effects closure of the remaining ring. Reduction of the imine thus formed with sodium borohydride gives 39. This, it should be noted, leads to the... [Pg.320]

Various bioisosteric replacements for a phenolic hydroxyl have been explored. One such, a lactam NH, is incorporated into the design of the 3-adrenergic blocker, carteolol O)- The fundamental synthon is carbostyril derivative K This is reacted in the usual manner with epichlorohydrin to give which is in turn reacted with t-butylamine to complete the synthesis of carteolol (3 ), a drug that appears to have relatively reduced nonspecific myocardial depressant action. Carrying this de-... [Pg.183]

The reactions that accomplished the conversion of intermediate 16 into intermediate 23 have taken place very smoothly. It is worth acknowledging that the //-hydroxy lactam moiety did not, at any stage, participate in any undesirable side reaction processes. The stability of the //-hydroxy lactam substructure in the presence of basic reagents is particularly noteworthy since a destructive retro-aldol cleavage reaction could have conceivably occurred on several occasions. The stability of this potentially labile moiety permits all of the desired transformations leading from 16 to 23 to be conducted without prior protection of the C-8 hydroxyl group. [Pg.256]

The antibiotic activity of certain (3-lactams depends largely on their interaction with two different groups of bacterial enzymes. (3-Lactams, like the penicillins and cephalosporins, inhibit the DD-peptidases/transpeptidases that are responsible for the final step of bacterial cell wall biosynthesis.63 Unfortunately, they are themselves destroyed by the [3-lactamases,64 which thereby provide much of the resistance to these antibiotics. Class A, C, and D [3-lactamases and DD-peptidases all have a conserved serine residue in the active site whose hydroxyl group is the primary nucleophile that attacks the substrate carbonyl. Catalysis in both cases involves a double-displacement reaction with the transient formation of an acyl-enzyme intermediate. The major distinction between [3-lactamases and their evolutionary parents the DD-peptidase residues is the lifetime of the acyl-enzyme it is short in (3-lactamases and long in the DD-peptidases.65-67... [Pg.373]

Thus, neither halogen substitution nor ring strain induces enzymatic hydrolysis. Molecules 21 and 22 may be bound in such a way that the (3-lactam carbonyl lies too far away from the catalytic serine hydroxyl group.72... [Pg.375]

Table VI gives mass spectral data for members that show the oxostephasunoline-type cleavage (13). These fragmentation patterns obviously differ from those of the foregoing two groups, indicating the presence of a hydroxyl group at C-6 and a y-lactam. In the case of oxostephasunoline (4) (4), the most abundant ion peak appears at mjz 258. Table VI gives mass spectral data for members that show the oxostephasunoline-type cleavage (13). These fragmentation patterns obviously differ from those of the foregoing two groups, indicating the presence of a hydroxyl group at C-6 and a y-lactam. In the case of oxostephasunoline (4) (4), the most abundant ion peak appears at mjz 258.
Oxostephasunoline (4) was isolated from the roots of Stephania japonica(4). The UV spectrum of oxostephasunoline (4) showed an absorption maximum at 286 nm, and the IR spectrum depicted bands at 3550,3500, and 1670 cm, indicating the presence of a hydroxyl group and a y-lactam. The mass spectrum (Table VI) exhibited the most abundant ion peak at m/z 258, and the H-NMR spectrum (Table II) revealed the presence of three methoxyl and one N-methyl group. The downfield shift (53.06) of the JV-methyl resonance indicated that oxostephasunoline (4) was a y-lactam, which was further supported by the IR band at 1670 cm 1, significant features of the mass spectrum (Table VI), and the 13C-NMR spectrum (Table III). On exhaustive H-NMR analysis similar to the case of stephasunoline (17), the structure of oxostephasunoline (4) including the stereochemistry was practically proved (4). [Pg.329]

Lactones, Lactides, Lactams, and Lactims. When the hydroxy acid from which water may be considered to have been eliminated has a trivial name, the lactone is designated by substituting -olactone for -ic acid. Locants for a carbonyl group are numbered as low as possible, even before that of a hydroxyl group. [Pg.34]

The total synthesis of ( )-geissoschizine (30) was reported by Yamada et al. (156) in 1974. The geometrically pure p-nitrophenyl ester 272 was condensed with tryptamine, and then the resulting amide 273 was transformed to lactam aldehyde 274 by hydroxylation with osmium tetroxide, metaperiodate oxidation, and Pictet-Spengler cyclization. [Pg.190]


See other pages where Hydroxyl lactams is mentioned: [Pg.85]    [Pg.231]    [Pg.143]    [Pg.80]    [Pg.119]    [Pg.85]    [Pg.231]    [Pg.143]    [Pg.80]    [Pg.119]    [Pg.22]    [Pg.29]    [Pg.30]    [Pg.46]    [Pg.65]    [Pg.67]    [Pg.129]    [Pg.588]    [Pg.591]    [Pg.47]    [Pg.183]    [Pg.193]    [Pg.313]    [Pg.38]    [Pg.287]    [Pg.91]    [Pg.393]    [Pg.1415]    [Pg.183]    [Pg.1]    [Pg.18]    [Pg.74]    [Pg.95]    [Pg.376]    [Pg.220]    [Pg.240]    [Pg.502]    [Pg.232]    [Pg.72]    [Pg.230]   
See also in sourсe #XX -- [ Pg.643 ]




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