Basicity acetamide

Amines undergo an analogous reaction to yield acetamides, the more basic amines having the greater activity ... 

The chloroacetamide can also be cleaved by first converting it to the pyridinium-acetamide (Pyr, 90°, 1 h, 70-90% yield) followed by mild basic hydrolysis (0.1 7/NaOH, 25°). ... 

This replacement reaction has been reported to take place on treatment of 5-R-l,3-dimethyluracil derivatives (R = H, Me, CN, F, Br, Cl,) with of-substituted (R ) acetamides (R =C0NH2, CN, COMe, Ph) in basic medium. The reaction provides an easy entry to the synthesis of 3-R-5-R -2,6-dihydroxypyridines (Scheme 22). 

Thus amides are found to be only very weakly basic in water [pKa for ethanamide(acetamide) is =0-5], and if two C=0 groups are present the resultant imides, far from being basic, are often sufficiently acidic to form alkali metal salts, e.g. benzene-1,2-dicarboximide (phthalimide, 8) ... 

Alkaline hydrolysis in a solvent (dimethylformamide, dimethylsulphoxide or dimethyl-acetamide) containing sodium hydroxide has been investigated [164]- Fabric geometry [165] and the degree of heat setting of the polyester also influence the results. As the temperature of heat setting was increased, the accelerating effect of dodecylbenzyldimethylammonium chloride decreased [166]. Basic-dyeable polyester is particularly sensitive to alkaline hydrolysis [167]. In some cases, saponification has been used to produce special effects such as a leather-like finish [168]. 

An X-ray crystal structure of 28 bound in the thumb-region of the NS5B polymerase showed little interaction of the acetamide moiety with the protein. Alterations at this position were explored in order to improve the physical properties of the compound. Incorporation of basic amines as part of this side-chain, leading to zwitterionic compounds, reduces plasma binding and has a beneficial effect on cell activity and pharmacokinetic profiles. In the cell-based replicon assay, racemic 29 has an EC50 of 152 nM in the presence of 10% fetal calf serum and 376 nM in the presence of 50% normal human serum [71],... 

Hydration of nitriles providing carboxamides is usually carried out m strongly basic or acidic aqueous media - these reactions require rather bars conditions and suffer from incomplete selectivity to the desired amide product. A few papers in the literature deal with the possibihty of transition metal catalysis of this reaction [28-30]. According to a recent report [30], acetonitrile can be hydrated into acetamide with water-soluble rhodium(I) complexes (such as the one obtained from [ RhCl(COD) 2] and TPPTS) under reasonably mild conditions with unprecedently high rate... 

Olsen and co-workers used a solution of nitronium tetrafluoroborate in acetonitrile for the V-nitration of acetamides and urethanes at —30°C. The following nitramides were obtained by this method V-nitroacetamide (13 %), V-nitro-2-chloroacetamide (55 %), V-nitro-n-butylacetamide (40 %), V-nitrobenzamide (53 %), ethyl V-nitro-n-butylcarbamate (91 %) and V-nitrosuccinimide (43 %). The low yield of V-nitroacetamide, a primary nitramide, is attributed to competing hydrolysis due to the release of tetrafluoroboric acid as the reaction progresses. The scope of the reaction is improved by moving to more basic solvents like ethyl acetate, 1,4-dioxane and trimethyl phosphate. ... 

Pre-eminent amongst examples is the case of amides, which do not show the typical basicity of amines. Acetamide, for example, has pATa — 1.4, compared with a 10.7 in the case of ethylamine. This reluctance to protonate on nitrogen is caused by delocalization in the neutral amide, in which the nitrogen lone pair is able to overlap into the n system. This type of resonance stabilization would not be possible with nitrogen protonated, since the lone pair is already involved in the protonation process. Indeed, if amides do act as bases, then protonation occurs on oxygen, not on nitrogen. Resonance stabilization is still possible in the D-protonated amide, whereas it is not possible in the A-protonated amide. Note that resonance stabilization makes the D-protonated amide somewhat less acidic than the hydronium ion (pATa — 1.7) the amide oxygen is more basic than water. 

I ollowed by acylation gives the acetamide, S3. Alkylation of the phenol with 2-dimethylaminoethyl chloride gives the corresponding basic ether (S4). Hydrolysis of the amide gives the free... 

The inclusion of aromatic rings as part of the side chains results in quite potent agents, possibly because the rigid rings better define the position of the basic nitrogen. Reaction of para-hydroxyacetanilide (19-1) with formaldehyde and diethylamine affords the corresponding Mannich product (19-2) hydrolysis of the acetamide then leads to the aniline (19-3). Treatment of that compound with dichloro-quinoline (17-6) leads to the displacement of chlorine on the heterocyclic ring and the formation of amodiaquine (19-4) [21]. 

In a closely related example, a Mannich reaction of the somewhat more complex phenol (20-1) with formaldehyde and fert-butylamine gives the aminomethylated product (20-2). Hydrolysis of the acetamide protecting group then affords the corresponding aniline (20-3). Alkylation with the quinoline (17-6) in this case also proceeds on aniline nitrogen. The selectivity over the more basic secondary side nitrogen can probably be ascribed to steric hindrance about the latter. There is thus obtained tebuquine (20-4) [22]. 

Both acetamide and acetic acid are more readily protonated at the carhonyl oxygen than the basic site. The protonation of the nonbonding electrons on the oxygen atom of a carbonyl or hydroxyl group is an important first step in the reactions under acidic conditions of compounds such as acetamide, acetic acid and alcohols. The conjugate acids of these compounds are more reactive towards Lewis bases than the unprotonated forms are. Therefore, acids are used as catalysts to enhance reactions of organic compounds. 

PdCl2(bipy)] gave acetamide in good yield and with 100% selectivity when used as catalyst in basic solution. A complex having the composition [PdCl(OH)bipy(H20)] (143) was isolated and shown to be an effective catalyst for reaction (185). 

A number of studies have also been made of the hydrolysis of nitriles in the coordination sphere of cobalt(III). Pinnell et al.3 4 found that benzonitrile and 3- and 4-cyanophenol coordinated to pentaamminecobalt(III) are hydrolyzed in basic solution to the corresponding N-bonded carboxamide (equation 22). The reaction is first order in hydroxide ion and first order in the complex with koH= 18.8M 1s 1 at 25.6 °C for the benzonitrile derivative. As fc0H for the base hydrolysis of benzonitrile is 8.2 x 10-6 M-1 s at 25.6 °C, the rate acceleration is ca. 2.3 x 106-fold. The product of hydrolysis is converted to [(NH3)5CoNH2COPh]3+ in acidic solution and the pJC of the protonated complex is 1.65 at 25 °C. Similar effects have been observed with aliphatic nitriles.315 Thus, base hydrolysis of acetonitrile to acetamide is promoted by a factor of 2 x 106 on coordination to [Co(NH3)5]3+. 

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