Acetylene derivs amides

The thiazofurin acyclic analog 925 was prepared from 924 as shown in the scheme (87H947). 1,3-Dipolar cycloaddition of the acetylenic derivative 927 to the diazo derivative 926 gave the pyrazole 928, whose amidation and debenzylation gave 929 (93MI11). 

Some multicomponent syntheses of trisubstituted oxazoles were described. a-Isocyano-a-alkyl(aryl)acetamides, as 131 <05S161>, was demonstrated to be a useful starting material for a three-component reaction involving isoquinoline 129 <05SL532>. A four-component synthesis was also published starting from an aldehyde, a silylamide, an acyl chloride and a terminal acetylene derivative. The overall process is a modification of a four-component synthesis of a propargylic amide 134 which can be eventually isolated <05T 11317>. 

Without additional reagents Reaction of orthoformic acid amides with acetylene derivatives... 

Keteniminium salts undergo [2-1-2] cycloaddition reactions with unreactive olefins, such as ethylene, cyclopentene, cyclohexene and styrol to give cyclobutane ammonium salts 23, which are readily hydrolyzed to give cyclobutanones 24. Likewise, reaction with acetylene derivatives affords cyclobutenylidene ammonium salts 25, which are also readily hydrolyzed to give the cyclobutenones 26. Some of the [2-1-2] cycloadducts obtained from keteniminium salts and olefines are shown in Table 4.17. The keteniminium salts are easily synthesized from suitable dimethylamides and phosgene, or trifluoromethanesulfonic acid anhydride. The reaction of the amide with phosgene generates a chloro compound 21, which is in equilibrium with the ketenimine salt 22. 

Sodium amide Acetylene derivatives from 1,2-dibromides via a,j -ethylenebromides... 

Vinyl ethers are prepared in a solution process at 150—200°C with alkaH metal hydroxide catalysts (32—34), although a vapor-phase process has been reported (35). A wide variety of vinyl ethers are produced commercially. Vinyl acetate has been manufactured from acetic acid and acetylene in a vapor-phase process using zinc acetate catalyst (36,37), but ethylene is the currently preferred raw material. Vinyl derivatives of amines, amides, and mercaptans can be made similarly. A/-Vinyl-2-pyrroHdinone is a commercially important monomer prepared by vinylation of 2-pyrroHdinone using a base catalyst. 

Most by-product acetylene from ethylene production is hydrogenated to ethylene in the course of separation and purification of ethylene. In this process, however, acetylene can be recovered economically by solvent absorption instead of hydrogenation. Commercial recovery processes based on acetone, dimetbylform amide, or /V-metby1pyrro1idinone have a long history of successfiil operation. The difficulty in using this relatively low cost acetylene is that each 450, 000 t/yr world-scale ethylene plant only produces from 7000 9000 t/yr of acetylene. This is a small volume for an economically scaled derivatives unit. 

Dicarbomethoxyacetylene has also been added to the pyrrolidine enamine derivative of acetylacetone, demonstrating a new synthesis of phthalic esters (345). A 3-acylpyridine synthesis was achieved by the addition of an acetylenic aldehyde to the vinylogous amide derived from ammonia and dihydroresorcinol (346). 

Hydrazides of vicinal acetylene-substituted derivatives of benzoic and azole carboxylic acids are important intermediate compounds because they can be used for cyclization via both a- and /3-carbon atoms of a multiple bond involving both amine and amide nitrogen atoms (Scheme 131). Besides, the hydrazides of aromatic and heteroaromatic acids are convenient substrates for testing the proposed easy formation of a five-membered ring condensed with a benzene nucleus and the six-membered one condensed with five-membered azoles. 

In the case of acetylenic amides, the carbonyl oxygen atom turned out to be nucleoplilic enough to directly attack the coordinated triple bond, owing to the conjugation with the amide moiety. Thus, cGa-dialkyl substituted 2-ynylamides smoothly underwent oxidative cyclization-alkoxycarbonylation to afford new oxazoline derivatives in good yields (Eq. 44) [102,113]. 

The investigations on acetylenic compounds in the thiophene series added to the evidence that in most cases thiophene resembles benzene (78). It has been shown in our laboratories that reactions with sodium amide and sodium acetylide in liquid ammonia could be readily utilized in this series. The introduction of a triple bond in the side chain of a thiophene ring was possible only by employing halogenatcd thiophene derivatives such as ... 

Bowman et al. reported the total synthesis of ellipticine (228) involving an imidoyl radical cascade reaction (730). For this key step, the required imidoyl radical was generated from the imidoyl selanide 1290, which was obtained from ethyl 2-(4-pyridyl)acetate (1286). Reaction of 1286 with LDA, followed by addition of methyl iodide, led to the corresponding methyl derivative 1287. Treatment of 1287 with 2-iodoaniline (743) in the presence of trimethylaluminum (AlMes) afforded the amide 1288. Using Sonogashira conditions, propyne is coupled with the amide 1288 to afford the aryl acetylene 1289. The aryl acetylene 1289 was transformed to the... 

As a part of research on the immnnosnppresant rapamycin it was found that acetylenic amides derived from diethylamine and proline gave the corresponding amide-diones with RuO /aq. Na(10 )/CCl -CH3CN [287]. 

N-Substituted amides derived from 2-chloro- or4-chloronicotinic acid react with CH-acidic nitriles in the presence of base to yield amino derivatives of [l,6]naphthytid-5(6//)-ones and [2,7]naphthyrid-l(2//)-ones <1997JHC397>. 3-(l-Alkylamino)pyridines react with electron-deficient alkynes (acetylene dicatboxylates) in the presence of acid to give l,2-dihydro[2,7]naphthyridine-3,4-dicarboxylates in up to 72% yield compounds unsubstituted at C-1 were readily oxidized with potassium permanganate to naphthyridine-l-ones <2005TL3953>. 

Some acetylenic (with a non-terminal triple bond) or allenic compounds, RCH=C CH2, can be transformed into alkali metal derivatives of terminal acetylenes by treatment with a very strong base. Treatment of an acetylenic compound with the grouping CHjCsC- or CH3C=CCH=CH- with one equivalent of an alkali amide (preferably the soluble potassium... 

Base-induced isomerization of propargyl amide 29a gives chiral ynamide 30a, which is subjected to ring-closure metathesis to afford cyclic enamide 31a. Diels-Alder reaction of 31a with dimethyl acetylene dicarboxylate (DMAD) gives quinoline derivative 32. In a similar manner, propargyl amide 29b is converted into ynamide 30b, RCM of which gives bicyclic compounds 31b and 31b in a ratio of 1 to 1 (Scheme 10). 

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