Deoxy derivatives oxidation products

When the structures of derivatives of the parent compounds depart more and more from those of the original sugars, the bridged-system nomenclature may be advantageously applied over the carbohydrate terms. This could be the case when one, or both, of the OH groups on C-4 and C-8 is (are) absent, as in the deoxy series (see Section V,3), and also in the oxidation products (see Section V,4), where sugar-derived names become complex. 

Raoul S, Cadet J (1996) Photosensitized reaction of 8-oxo-7,8-dihydro-2 -deoxyguanosine Identification of 1-(2-deoxy-p-D-erytftro-pentofuranosyl)cyanuric add as the major singlet oxygen oxidation product. J Am Chem Soc 118 1892-1898 Raoul S, Bardet M, Cadet J (1995) y Irradiation of 2 -deoxyadenosine in oxygen-free aqueous solutions Identification and conformational features of formamidopyrimidine nucleoside derivatives. Chem Res Toxicol 8 924-933... 

The complex Ru(tpy)(bpy)02 [tpy = 2,2,2"-terpyridine, bpy = 2,2 -bypyridine] oxidizes organic substrates by hydride abstraction or oxo transfer. This complex, and its derivatives, cleave DNA by oxidation of the sugar at the V position and oxidation of guanine. Oxidation at the V position leads to the release of free bases and a furanone product. The kinetic parameters for the oxidation of D-ribose, 2-deoxy-D-ribose, and nucleotides by Ru(tpy)(bpy)02 were determined in phosphate buffer (pH 7). The increased reactivity of DNA as compared to RNA was rationalized on the basis of deactivation of the sugar oxidation product by the polar effect of the 2 -hydroxyl group.160... 

The formation of the pyridinol is prevented if, in the step 19 to 20, no anion can be eliminated from C-3 this is the case with 5-amino-3,5-dideoxy-l,2-0-isopropylidene-a-D-er /thro-pentofuranose, which, on acid hydrolysis, afFords only the Amadori rearrangement product and no pyridine derivative. The reaction then proceeds, according to the above mechanism, in only one direction from 19. The 3-deoxypentose is prepared, in a manner analogous to the formation of 15, from 3-deoxy-l,2-0-isopropylidene-a-D-riho-hexofuranose through catalytic reduction of the phenylhydrazone of its periodate-oxidation product. ... 

Oxidation products from starch are also available indirectly. For example, Horton and coworkers485-487 prepared 6-aldehydo amylose and starch derivatives by photolysis of 6-azido-6-deoxy derivatives. The oxidation pattern of starches can be determined by hydrolysis of the reaction product and subsequent identification of the components of such hydrolyzates as their trimethylsilyl derivatives 488... 

The structure of the osazone derived from dehydroascorbic acid remains in dispute. Recently (Vol. 13, p. 95) it was described as the phenylhydrazine-phenylazo-structure (34), but it is now claimed that the bis(hydrazone) formula (35) fits the n.m.r. and u.v. data more satisfactorily. The structure of the bi-cyclic oxidation product of (35) has been shown to be a 3,6-anhydride (36) by n.m.r. and m.s. A n.m.r. study of the formation of dehydroascorbic acid hydrazones revealed that the two 2-phenylhydrazides (37) were formed initially and subsequently underwent dehydration to give the two rotationally isomeric 2-phenyIhydrazones. Reaction of 6-bromo-6-deoxy-isoascorbic acid (D-ery thro) with phenyl hydrazine afforded the cyclized bis(hydrazone) (38). Treatment of D-threo-ascorbic acid bis(phenylhydrazone) with caustic soda afforded the cyclized product (39). The corresponding D-erythro- and L-threo-isomers were also prepared and the side-chains have been modified in various ways. 

Products from the pyrolysis of cellulose in the absence of a catalyst were found to be mainly derivatives of 1,6-anhydro-D-glucoseand other, unsaturated, products. One product, formed in 1.4% yield, was found to be 1,5-anhydro-4-deoxy-D- /yc ro-hex-l-en-3-ulose. This product was also formed during the pyrolysis of amylose, amylopectin, and laminarin. A further product from cellulose, probably formed as an oxidation product, was 3,5-dihydroxy-2-methyl-4/f-pyran-4-one. Sixty-three compounds were detected in the condensate of smoke produced by pyrolysis of cellulose. These compounds included furans, cyclic ketones, lactones, benzene derivatives, aliphatic ketones, and aldehydes. One of the major products was 2-hydroxy-3-methyl-cyclopenten-l-one. 

Other methods of identification include the customary preparation of derivatives, comparisons with authentic substances whenever possible, and periodate oxidation. Lately, the application of nuclear magnetic resonance spectroscopy has provided an elegant approach to the elucidation of structures and stereochemistry of various deoxy sugars (18). Microcell techniques can provide a spectrum on 5-6 mg. of sample. The practicing chemist is frequently confronted with the problem of having on hand a few milligrams of a product whose structure is unknown. It is especially in such instances that a full appreciation of the functions of mass spectrometry can be developed. 

The (—)-anisomycin work is presented in Scheme 35. Its key step centered around the formation of a pyrrolidine ring that possessed all three of the asymmetric centers present in the target this was done by nucleophilic displacement of a 3-tosyloxy function in an appropriately functionalized 6-amino-6-deoxy-p-i.-talose derivative, whose 1,2-diol was later released and oxidatively cleaved with sodium periodate. Grignard coupling, O-acetylation, and catalytic hydrogenation then furnished the desired natural-product target. 

Experimental conditions have been found for oxidation of uridine 5 -(a-D-galactopyranosyl pyrophosphate) with D-galactose oxidase.265 The reaction product is the a-D-ga(acto-hexodialdose derivative (55). Analogous treatment of uridine 5 -(acetamido-2-deoxy-a-D-galactopy-ranosyl pyrophosphate), and subsequent reduction of the product with sodium borohydride-t, affords a convenient synthesis of the 6 -tritiated derivative.2656... 

Piperidones of two types have been prepared from saccharide derivatives. Those of one type are lactams, exemplified by 187, obtained by oxidizing255 5-azido-5-deoxy-2,3-0-isopropyidene-/3-D-ribo-furanose (185) to 186, reducing the lactone 186 to the amine, and cyclizing this to 187. The other type comprises the 4-piperidones such as 189 this is obtained256 by oxidizing methyl a-D-arabinopyrano-side (188) with periodate, and treating the product with methylamine and 3-oxopentanedioic acid the bicyclic compound obtained from the a-glycoside differs from that from the /3 anomer. 

The use of tt trahydrofuryl derivatives for synthesis of racemic sugar derivatives has also been reported. It was found that iodine tris(tri-fluoroacetate) oxidizes tetrahydrofuryl trifluoroacetate, to yield a mixture of four diastereomeric 3-deoxypentofuranoses (413-416) in the ratios of 25 15 4 6. The main product, 3-deoxy-f/ireo-pentofuranose tris(trifluoroacetate) (413), readily crystallized out of the reaction mixture.269... 

Quite analogous ring-closures occur when the 1-O-acetyl derivatives of the rhamnopyranose and talopyranose derivatives are treated with sodium azide in N,N-dimethylformamide. l-O-Acetyl-6-deoxy-2,3-0-isopropylidene-4-0-mesyl-a-L-mannopyranose is converted exclusively into l,4-anhydro-6-deoxy-2,3-0-isopropylidene-/3-L-talo-pyranose. In this instance, the azide nucleophile attacks the l-O-ace-tyl group, liberating an 0-1 oxide ion which reacts with inversion of C-4. The 4-epimeric, l-O-acetyl-6-deoxy-talose derivative gives 60% of the direct inversion product l,4-anhydro-6-deoxy-2,3-0-isopropyli-dene-a-L-mannopyranose, together with other products.50... 

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