Use as starting materials

The hydroxyl groups of glucose (and, of course, other saccharides) must be regio- and stereo-selectively attacked, if this most abundant natural carbon compound is to be used as starting material. We shall first show with a few selected examples, how this can be achieved (A.H. Haines, 1976 J. Lehmann, 1976 L. Hough, 1979). 

Acidic hydrolysis of these compounds regenerates the initial 2-aminothiazole (510). The reduction of 2-thiazolylamidines provides a good synthetic route to secondary 2-aminothiazoles (see Section I.l.E). They can be used as starting materials to obtain biheterocyclic products such as l-(5-nitro-2-thiazolyl)-2-thioxoimidazolidine (275) (Scheme 169) (511). 

Other quaternary salts may provide the starting material (24, 25). A-4-Thiazoline-2-thiones (25) may be used as starting material they react... 

Because of their use in the rubber industry various sulfenamido thiazoles (131) have been prepared. They are obtained in good yields through the oxidation of A-4-thiazoline-2-thiones (130) in aqueous alkaline solution in the presence of an amine or ammonia (Scheme 66) <123, 166, 255, 286, 308, 309). Other oxidizing agents have been proposed (54, 148. 310-313) such as iodine (152), chlorine, or hydrogen peroxide. Disulfides can also be used as starting materials (3141. 

Thiazole disulfides react with amines in the presence of oxidizing agents to yield 2-sulfenamidothiazoles (314). Results obtained in the ben-zothiazole series (323) indicate that they could be used as starting material to obtain 2-halosulfothiazoles. 

These products are used as starting material for the preparation of 2-substituted thiazol-4-ylacetic acids. a-Benzoyloxythiopropionamide and a-benzoyloxy-a-benzoylthioacetamide condensed with an equimolar amount of an a-haloketone in alcoholic solution yield the following compounds (409, 419, 569) 24, Rj = CH3, PhCO, R2 = Me... 

Give the structures of three isomeric dibromides that could be used as starting materials for the preparation of 3 3 dimethyl 1 butyne J... 

Hecogenin has been used as starting material for the preparation of betamethasone (78) this genin is found in the sisal plant, sisalana. The... 

Fig. 11. Flow diagram for the beater additive process. Kraft represents the kraft process wood pulp and NC is nitrocellulose used as starting materials...

The modem fermentation industries developed from the early era of antibiotics. Over 4000 antibiotics have been discovered since the 1950s. However, only about 100 are produced on a commercial scale and over 40 of these are prepared by a combination of microbial synthesis and chemical modifications. Antibiotics produced by fermentation and used as starting materials in chemical syntheses are given in Table 2. 

Table 2. Antibiotics Used as Starting Materials for Chemical Syntheses ...

The discussion herein is limited to several simple compounds that are stable, readily available, and used as starting materials for many other organoiron compounds. 

Instead of amines, sulfonamides have also been used as starting materials, producing the highly reactive sulfonyl isocyanates, which have found apphcations in the manufacture of dmgs for diabetics and as drying agents (qv) (4,9,16). 

Both dimethyl carbonate [616-38-6] and diphenyl carbonate [102-09-0] have been used, in place of carbon monoxide, as reagents for the conversion of amines into isocyanates via this route (28,29). Alternatively, aniline [62-53-3] toluene diamines (I JJA), and methylene dianilines (MDA) have also been used as starting materials in the carbonylations to provide a wide variety of isocyanate monomers. 

Mercurous Nitrate. Mercurous nitrate [10415-75-5] Hg2N20 or Hg2(N02)2, is a white monoclinic crystalline compound that is not very soluble in water but hydrolyzes to form a basic, yellow hydrate. This material is, however, soluble in cold, dilute nitric acid, and a solution is used as starting material for other water-insoluble mercurous salts. Mercurous nitrate is difficult to obtain in the pure state directly because some mercuric nitrate formation is almost unavoidable. When mercury is dissolved in hot dilute nitric acid, technical mercurous nitrate crystallizes on cooling. The use of excess mercury is helpful in reducing mercuric content, but an additional separation step is necessary. More concentrated nitric acid solutions should be avoided because these oxidize the mercurous to mercuric salt. Reagent-grade material is obtained by recrystaUization from dilute nitric acid in the presence of excess mercury. 

Ethyl-2-methylpyridine (7) is used as starting material for niacin (27). 2,6-Dimethylpyridine (5) is used for the antiarteriosclerotic pyridinol... 

Key intermediates in the industrial preparation of both nicotinamide and nicotinic acid are alkyl pyridines (Fig. 1). 2-Meth5l-5-ethylpyridine (6) is prepared in ahquid-phase process from acetaldehyde. Also, a synthesis starting from ethylene has been reported. Alternatively, 3-methylpyridine (7) can be used as starting material for the synthesis of nicotinamide and nicotinic acid and it is derived industrially from acetaldehyde, formaldehyde (qv), and ammonia. Pyridine is the principal product from this route and 3-methylpyridine is obtained as a by-product. Despite this and largely due to the large amount of pyridine produced by this technology, the majority of the 3-methylpyridine feedstock is prepared in this fashion. 

Other approaches to (36) make use of (37, R = CH ) and reaction with a tributylstannyl allene (60) or 3-siloxypentadiene (61). A chemicoen2ymatic synthesis for both thienamycia (2) and 1 -methyl analogues starts from the chiral monoester (38), derived by enzymatic hydrolysis of the dimethyl ester, and proceeding by way of the P-lactam (39, R = H or CH ) (62,63). (3)-Methyl-3-hydroxy-2-methylpropanoate [80657-57-4] (40), C H qO, has also been used as starting material for (36) (64), whereas 1,3-dipolar cycloaddition of a chiral nitrone with a crotonate ester affords the oxa2ohdine (41) which again can be converted to a suitable P-lactam precursor (65). 

Pyrazolo[3,4-d]pyridazines (555) can be prepared readily from hydrazines and pyrazoles substituted in positions 4 and 5 with an acyl and an ester group, or with two ester groups. 4,5-Pyrazolinediones have been used as starting materials for the synthesis of the quinoxaline derivatives (548) (see above) and of pyrazolo[3,4-e][l,2,4]triazines (556)... 

Also due to the high barrier of inversion, optically active oxaziridines are stable and were prepared repeatedly. To avoid additional centres of asymmetry in the molecule, symmetrical ketones were used as starting materials and converted to oxaziridines by optically active peroxyacids via their ketimines (69CC1086, 69JCS(C)2648). In optically active oxaziridines, made from benzophenone, cyclohexanone and adamantanone, the order of magnitude of the inversion barriers was determined by racemization experiments and was found to be identical with former results of NMR study. Inversion barriers of 128-132 kJ moF were found in the A-isopropyl compounds of the ketones mentioned inversion barriers of the A-t-butyl compounds lie markedly lower (104-110 kJ moF ). Thus, the A-t-butyloxaziridine derived from adamantanone loses half of its chirality within 2.3 days at 20 C (73JCS(P2)1575). 

When crude aulfonyl chlorides were used as starting materials, the reaction mixture was washed with a suitable solvent to remove organic impurities. In the case of higher-melting crystalline sulfonyl chlorides, heating to 50 may be necessary to complete their reduction. The solution of the sulfinate salt may be kept overnight, if desired, with no decrease in the yield of sulfonyl cyanide. 

Some aulfinates are commercially available. They may be used as starting materials for the preparation of aulfonyl cyanides also. Yields, however, are not significantly better than when the much cheaper and more readily available sulfonyl chlorides are used as starting materials. Good to excellent results are obtained, even when starting from rather impure sulfonyl chlorides. Illustrative examples are given in Table I. 

The lactone A was also used as starting material in the synthesis of the primary prostaglandins via an allylic substitution-semi-pinacolic rearrangement sequence (Ref. 2). 

Compounds with the following side chain at C-17 have been used as starting materials (5)/ The... 

A-Bromo- as well as A-chloroamines have been used as starting materials. For practical reasons (greater stability) the easily accessible A-chloro compounds are preferred. 

Note 1. The same result is obtained when the corresponding 19-oxime is used as starting material, instead of the nitroso dimer. 

Cyclohexyl bromide, for exfflnple, is converted to cyclohexene by sodium ethoxide in ethanol over 60 times faster than cyclohexyl chloride. Iodide is the best leaving group in a dehydrohalogenation reaction, fluoride the poorest. Fluoride is such a poor leaving group that alkyl fluorides are rarely used as starting materials in the preparation of alkenes. 

MFg] , capped trigonal prismatic [MFv], and even square-antiprismatic [MFg] salts can all be isolated. By contrast with the fluorides, aqueous solutions of MCI5 and MBrs (M = Mb, Ta) yield only oxochloro- and oxobromo-complexes, though the application of non-aqueous procedures allows their use as starting materials. 

Thus, simple ketones or aliphatic aldehydes may be successfully used as starting materials in the CSIC (Carbanion mediated Sulfonate Intramolecular Cyclization) reaction. Ai-alkylsulfonamides could be also cyclized under CSIC conditions (99T(55)7625) affording the spiroisothiazoline 79. By treatment with TMSCl, Nal in acetonitrile at r.t., hydrolysis of the enamine and formation of the corresponding keto derivative 80 was obtained. 

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