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By acetylation

NHCOCH3. White crystals, m.p. 18l-l83"C. Soluble sulphacetamide is the sodium salt which is soluble in water. Il is prepared by acetylating sulphanilamide and hydrolysing one acetyl group. Being more soluble than most of the sulphonamides it is used in treating infections of the urinary tract and of the conjunctiva. [Pg.376]

The secondary amines present in the crude quinaldine are most effectively removed by acetylation. [Pg.301]

The procedure is not usually applicable to aminosulphonic acids owing to the interaction between the amino group and the phosphorus pentachloride. If, however, the chlorosulphonic acid is prepared by diazotisation and treatment with a solution of cuprous chloride in hydrochloric acid, the crystalline chlorosulphonamide and chlorosulphonanilide may be obtained in the usual way. With some compounds, the amino group may be protected by acetylation. Sulphonic acids derived from a phenol or naphthol cannot be converted into the sulphonyl chlorides by the phosphorus pentachloride method. [Pg.553]

Phenacetiii may also be prepared by acetylation of the commercially available p phenetidine ... [Pg.997]

The principal reactions of this class of compounds are summarized in Scheme 172. In most of these reactions the reactive nucleophilic center is the terminal NHj group, although the other exocyclic nitrogen may also be involved, as shown by acetylation, which yields 284 and 285. However, the structure of compound 281 is not the one proposed in a recent report (1582) that attributes the attack to the other exocyclic nitrogen. The formation of osazones (287) from sugars, 2-hydrazinothiazoles, and hydrazine has been reported (525, 531). [Pg.100]

Anilino vinyl derivatives of thiazolium (30, R = H) or acetanilido (30, R = C0CH3), as well as formyl methylene 30b (methods E-G), give asymmetrical dyes when condensed with a methyl reactive group of another species (Scheme 42). Mesosubstituted symmetrical or unsymmet-rical thiazolocyanines are obtainable via /S-alkylmercaptovinyl thiazolium derivatives (32) (methods H and I) (Scheme 43). a or /S carbon atoms of the trimethine chain can be substituted by acetyl when a dye is treated with acetic anhydride (method L). The hydrolysis of neocyanines lead to trimethine cyanine by fractional elimination of a composant chain (method K). [Pg.55]

The best known aryl ester is O acetylsalicylic acid better known as aspirin It is pre pared by acetylation of the phenolic hydroxyl group of salicylic acid... [Pg.1006]

Functional Group Analysis. The total hydroxyl content of lignin is determined by acetylation with an acetic anhydride—pyridine reagent followed by saponification of the acetate, and followed by titration of the resulting acetic acid with a standard 0.05 W sodium hydroxide solution. Either the Kuhn-Roth (35) or the modified Bethge-Liadstrom (36) procedure may be used to determine the total hydroxyl content. The aUphatic hydroxyl content is determined by the difference between the total and phenoHc hydroxyl contents. [Pg.141]

A left-handed double-heUcal stmcture has been proposed for geUan in the crystalline state, based on x-ray diffraction studies (227). The presence of acetyl groups presumably dismpts interchain aggregation, since these groups are postulated to be on the outside of the heUces. The role played by acetyl and glyceryl ester groups and their influence on the double-heUcal stmcture has been studied using computet models (232). [Pg.299]

If pure isomers are required, the ortho and meta compounds can be prepared by indirect methods. o-Nitrotoluene can be obtained by treating 2,4-dinitrotoluene with ammonium sulfide followed by diazotization and boiling with ethanol. / -Nitrotoluene can be prepared from -toluidine by acetylation, nitration deacetylation, diazotization, and boiling with ethanol. A fairly pure -nitrotoluene, which has been isolated from the isomeric mixture, can be purified further by repeated crystallization. [Pg.70]

The preceding reactions do not occur if the terminal hydroxyl group in the polymer is no longer present, eg, if it has been end-capped by acetylation. [Pg.327]

Nitration. Direct nitration of aromatic amines with nitric acid is not a satisfactory method, because the amino group is susceptible to oxidation. The amino group can be protected by acetylation, and the acetylamino derivative is then used in the nitration step. Nitration of acetanilide in sulfuric acid yields the 4-nitro compound that is hydroly2ed to -rutroaruline [100-01-6]. [Pg.231]

Furium. N[4-(5-Nitro-2-furanyl)-2-thia2olyl]acetamide, has demonstrated activity against baciUi and pathogenic enterobacteria (24). The product, prepared from thiourea and 2-bromo-l-(5-nitro-2-furanyl)ethanone followed by acetylation of the intermediate aminothia2ole with acetic anhydride in pyridine (25), is marketed in several countries for both human and veterinary use. [Pg.460]

A -Heterocyclic-A -acetylsulfanilamides. These derivatives may be prepared by condensation of the heterocycUc amine with /)-nitroben2enesu1fony1 chloride foUowed by acetylation of the nitro compound. The product may be reduced under mild conditions to give the 4-amiQO-A/ -heterocychc-A/ -acetyl derivative. Other approaches, however, have been developed (46,47). [Pg.469]

More useful than the preceding methods is cleavage of alkoxides by acetyl chloride or bromide. One, two, three, or four alkoxyls can be replaced by chloride or bromide. Benzoyl chloride gives poor yields, however. The tri- and tetrachlorides, which are stronger Lewis acids than mono- and dichlorides, coordinate with the alkyl acetate formed and yield distillable complexes (46,55,56). [Pg.144]

A cost-efficient synthesis of foHc acid via Schiff base formation is feasible only if 6-formylpterin (23) is readily available. This compound is prepared by the reaction of 2-bromomalondialdehyde dimethylacetal [59453-00-8] (25) with trianainopyrimidinone (10), followed by acetylation and cleavage of the acetal to give compound (23) in 51% overall yield (38). [Pg.39]

Coum rinic Acid Compounds. These synthetic phyUoquinone derivatives and congeners have been employed as anticoagulants since the isolation of 3,3 -methylenebis(4-hydroxy-2H-l-benzopyran-2-one) [66-76-2] (bis-4-hydroxycoumarin or dicoumarol) (1) from spoiled sweet clover in 1939. The ingestion of the latter was responsible for widespread and extensive death of bovine animals at that time. The parent compound for the synthesis of many congeners is 4-hydrocoumarin, which is synthesized from methyl salicylate by acetylation and internal cyclization. The basic stmctures of these compounds are shown in Figure 2, and their properties Hsted in Table 6 (see Coumarin). [Pg.177]

The separation of Hquid crystals as the concentration of ceUulose increases above a critical value (30%) is mosdy because of the higher combinatorial entropy of mixing of the conformationaHy extended ceUulosic chains in the ordered phase. The critical concentration depends on solvent and temperature, and has been estimated from the polymer chain conformation using lattice and virial theories of nematic ordering (102—107). The side-chain substituents govern solubiHty, and if sufficiently bulky and flexible can yield a thermotropic mesophase in an accessible temperature range. AcetoxypropylceUulose [96420-45-8], prepared by acetylating HPC, was the first reported thermotropic ceUulosic (108), and numerous other heavily substituted esters and ethers of hydroxyalkyl ceUuloses also form equUibrium chiral nematic phases, even at ambient temperatures. [Pg.243]

A Methylanthrapyridone and Its Derivatives. 6-Bromo-3-methylanthrapyridone [81-85-6] (75) is an important iatermediate for manufacturiag dyes soluble ia organic solvents. These solvent dyes are prepared by replacing the bromine atom with various kiads of aromatic amines. 6-Bromo-3-methylanthrapyridone is prepared from 1-methyl amino-4-bromoanthra quin one (43) by acetylation with acetic anhydride followed by ring closure ia alkaU. The startiag material of this route is anthraquiaoae-l-sulfonic acid (16). [Pg.317]

The cellulose molecule is rigid and forms strong hydrogen bonds with adjacent molecules. It is thus insoluble and decomposes before softening on heating. Partial replacement of hydroxyl groups by acetyl groups has a number of effects ... [Pg.623]

The identification of a specific nitrating species can be approached by comparing selectivity with that of nitration under conditions known to involve the nitronium ion. Examination of part B of Table 10.7 shows that the position selectivity exhibited by acetyl nitrate toward toluene and ethylbenzene is not dramatically different from that observed with nitronium ion. The data for i-propylbenzene suggest a lower ortho para ratio for acetyl nitrate nitrations. This could indicate a larger steric factor for nitration by acetyl nitrate. [Pg.573]

Apply sample solution followed by acetyl chloride [70] and then remove the excess reagent in a stream of hot air. [Pg.70]

Sharp also found that pyropseudaconitine, when boiled with acetic anhydride, yields triacetyldemethylpyropseudaconitine, CggHg O jN, colourless prisms, m.p. 228°, + 28-4° (CHCI3), formed by acetylation of... [Pg.683]

Hydroxyl groups are stable to peracids, but oxidation of an allylic alcohol during an attempted epoxidation reaction has been reported." The di-hydroxyacetone side chain is usually protected during the peracid reaction, either by acetylation or by formation of a bismethylenedioxy derivative. To obtain high yields of epoxides it is essential to avoid high reaction temperatures and a strongly acidic medium. The products of epoxidation of enol acetates are especially sensitive to heat or acid and can easily rearrange to keto acetates. [Pg.10]

Iodine azide is a highly selective reagent addition to the 16-double bond of androsta-4,16-diene-3-ones is possible and some selectivity in addition to the 16-double bond of A -dienes has been observed.Hydroxy groups in the steroid should be protected, e.g., by acetylation, since in some instances oxidized side products are formed. [Pg.24]

The properties of chlorine azide resemble those of bromine azide. Pon-sold has taken advantage of the stronger carbon-chlorine bond, i.e., the resistance to elimination, in the chloro azide adducts and thus synthesized several steroidal aziridines. 5a-Chloro-6 -azidocholestan-3 -ol (101) can be converted into 5, 6 -iminocholestan-3l -ol (102) in almost quantitative yield with lithium aluminum hydride. It is noteworthy that this aziridine cannot be synthesized by the more general mesyloxyazide route. Addition of chlorine azide to testosterone followed by acetylation gives both a cis- and a trans-2iddMct from which 4/S-chloro-17/S-hydroxy-5a-azidoandrostan-3-one acetate (104) is obtained by fractional crystallization. In this case, sodium borohydride is used for the stereoselective reduction of the 3-ketone... [Pg.25]

The C-20 epimeric diacetates (69) and (70) are obtained in a total yield of 30% by acetylation of the mixture formed from 21-acetoxy-3j -hydroxy-pregn-5-en-20-one (68) with methylmagnesium bromide. ... [Pg.68]

An alternate method for preparing a A -acetoxypregnane from A -20-keto starting materials involves the conjugate 1,4-addition of a Grignard reagent to C-16, followed by acetylation of the resulting enolate before work-... [Pg.186]

Cyclic sulfates rapidly react with the fluoride ion sources to give monofluoro derivatives Thus, the 2,3-cyclic sulfate of methyl-4 6 O benzylidene p D manno pyranoside cleanly reacts with tetramethylammonium fluoride to give methyl 4,6-0-benzylidene 2 deoxy 2 fluoro-p-D-glucopyranoside-3-sulfate Acid hydrolysis followed by acetylation gives 2 deoxy 2 fluoro-P-D-glucopyranoside triacetate in 84% isolated yield [5S] (equation 38)... [Pg.215]


See other pages where By acetylation is mentioned: [Pg.167]    [Pg.453]    [Pg.1067]    [Pg.1071]    [Pg.391]    [Pg.137]    [Pg.101]    [Pg.405]    [Pg.79]    [Pg.469]    [Pg.428]    [Pg.431]    [Pg.440]    [Pg.279]    [Pg.292]    [Pg.91]    [Pg.1084]    [Pg.304]    [Pg.680]    [Pg.404]    [Pg.281]   
See also in sourсe #XX -- [ Pg.193 , Pg.193 , Pg.194 ]




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Aniline acetylation by acetic anhydride

By addition of acetyl

By addition of acetyl hypofluonte

Determination of Lignin in Wood and Pulp by the Acetyl Bromide Method

Nitration by acetyl nitrate

Oxidation, by air conversion of acetyl to carboxyl

Selectivity by Expression of Phosphinothricin Acetyl Transferase

Substitution by acetyl

The First Step in Fatty Acid Synthesis Is Catalyzed by Acetyl-CoA Carboxylase

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