Penicillin 6-oxidized

M.J. Moloney (1990), J. Robertson (1992) and T.J. Donohoe (2001). Although connected to Baldwin they were by appointment quite independent. Baldwin was knighted in 1997. Later following the work on penicillin oxidation... 

Therapeutics. Compounds containing the furan or tetrahydrofuran ring are biologically active and are present in a number of pharmaceutical products. Eurfurjdamine [617-89-0] is an intermediate in the diuretic, furosemide. Tetrahydrofurfurylamine [4795-29-3] may also have pharmaceutical applications. 5-(E)imethyiaininomethyi)furfuryi alcohol [15433-79-17 is an intermediate in the preparation of ranitidine, which is used for treating ulcers. 2-Acet5dfuran [1192-62-7] prepared from acetic anhydride and furan is an intermediate in the synthesis of cefuroxime, a penicillin derivative. 2-Euroic acid is prepared by the oxidation of furfural. Both furoic acid [88-14-2] and furoyl chloride [527-69-5] are used as pharmaceutical intermediates. 

Cephalosporin 5-oxides and penicillin 5-oxides (221) can be converted into isothiazol-3-ones (222) by the action of bases. These reactions proceed via an intermediate azetidinonesulfenic acid (223 Scheme 37) (77SST(4)339). Attempts to prepare /3-lactam compounds from isothiazoles have, as yet, been unsuccessful (81X2181). 

At Smith Kline French a general approach to cephalosporin and penicillin nuclear analogs was developed that utilizes a monocyclic /3-lactam (59) with the correct cis stereochemistry as a key intermediate. This is prepared by reaction of the mixed anhydride of azidoacetic acid and trifluoroacetic acid with imine (58) followed by oxidative removal of the dimethoxybenzyl group. This product could be further elaborated to intermediate (60) which, on reaction with a -bromoketones, provides isocephalosporins (61). These nuclear analogs displayed antibacterial properties similar to cephalosporins (b-79MI51000). 

Ampicillin—see Penicillin, D-n-aminobenzyl-Amprolium coccidiostat mode of action, 1, 212 as veterinary product, 2, 515 Amquinsin, 2, 517 Amylobarbitone metabolism, 1, 237 Anabasine, 2, 511 synthesis, 2, 385 Anabasine, N-methyl-N -oxide... 

The A,A -diisopropylhydrazide, prepared to protect penicillin derivatives, is cleaved oxidatively by the following methods. ... 

A number of di- and trisubstituted hydrazides of penicillin and cephalosporin derivatives were prepared to study the effect of A-substitution on ease of oxidative cleavage. ... 

Oxidation of phenyl hexyl sulphide with sodium metaperiodate gave also only a trace amount of the corresponding sulphoxide72. On the other hand, Hall and coworkers73 prepared benzylpenicillin and phenoxymethyl penicillin sulphoxides from the corresponding benzyl esters by oxidation with sodium metaperiodate in dioxane solution with a phosphate buffer. A general procedure for the synthesis of penicillin sulphoxides was reported later by Essery and coworkers74 which consists in the direct oxidation of penicillins or their salts with sodium metaperiodate in aqueous solution at pH 6.5-7.0. 1-Butadienyl phenyl sulphoxide 4475 and a-phosphoryl sulphoxides 4576 were also prepared by the same procedure. 

Drugs can also Interfere with laboratory results by negating certain nonspecific oxidation and reduction reactions essential for the chemical assay. Penicillin, streptomycin and ascorbic acid are known to react with cupric Ion thus, false positive results for glucose may occur If a copper reduction method Is used. If the specific enzymatic glucose-oxidase method Is employed, ascorbic acid can cause a false negative result by preventing the oxidation of a specific chromogen In the reaction. 

Reaction of these antibiotics with chlorine mostly generated chlorinated and OH-substituted by-products [86, 87]. Unlike fluroquinolones, whose quinolone ring is left mostly intact, disinfection with CIO2 may diminish the antibiotic capacity of tetracyclines because it leads to cleavage of the tetracyclines ring system [86,88]. On the other hand, oxidation of p-lactam antibiotics such as penicillin, amoxicillin, and cefadroxil with CIO2 leads to the formation of hydroquinone and a wide range of substituted phenols [89]. 

Arslan-Alaton, 1 Dogruel, S Baykal, E Gerone, G. Combined chemical and biological oxidation of penicillin formulation effluent. Journal of Environmental Management, 2004 73 (2), 155-163. 

The common motif shared by non-heme iron oxygenases contains an active site, where two histidines and one carboxylate occupy one face of the Fe(ll) coordination sphere. These enzymes catalyze a variety of oxidative modification of natural products. For example, in the biosynthesis of clavulanic acid, clavaminic acid synthase demonstrates remarkable versatility by catalyzing hydroxylation, oxidative ring formation and desaturation in the presence of a-ketoglutarate (eq. 1 in Scheme 7.22) [80]. The same theme was seen in the biosynthesis of isopenicillin, the key precursor to penicillin G and cephalosporin, from a linear tripeptide proceeded from a NRPS, where non-heme iron oxygenases catalyze radical cyclization and ring expansion (eq. 2 in Scheme 7.22) [81, 82]. 

Winterfeldt has shown that the reaction of dimethyl sulfoxide with DMAD gives tetramethyl furantetracarboxylate (345), and it was suggested that this reaction may proceed through the intermediates 342, 343, and.344 (Scheme 52). The reaction of /-butylsulfenic acid with methyl propiolate, however, gives /3v -bis(/ra/is-carbomethoxy)divinyl sulfoxide (348) (Scheme 53). The penicillin S-oxide (349) is known to react with DMAD to give the adduct 352, and this reaction has been assumed to proceed through the sulfenic acid intermediate 350 (Scheme 54). ... 

An interesting reaction related to the ring expansions of penicillin S-oxides (208) was observed in the thermal rearrangement of 2,2,4A-tetramethyl-thiethan-3-one 1-oxide to the five-membered thiolane ring 209. Oxidation attempts of these thermally unstable thietanone oxides led via ring opening to the more stable heterocycle. The reaction mechanism (Scheme 11) was... 

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