Morpholines, substituted

Aryl and morpholine substituted analogs of rocagiamide were synthesized and tested for insecticidal and antifungal activity [153]. The Pd-catalyzed amination of bromophenyl derivative 90 with morpholine gave moderate yield of 91. 

T he exchange of the chloro substituents in the pyridazine part of substituted 1,4-dichloropyri-do[3,4-fi ]pyridazines by reaction with cyclic amines, such as morpholine, substituted morpholines, pyrrolidine, and piperidine at reflux temperature gives products 12.119,121,135,138 The crude dichloro compound may be used.119... 

A novel type of ring closure is the reaction of 6-amino-5-dichloroacetylaminopyrimidines (285) with sulfur and morpholine under the conditions of a Kindler reaction (B-64MI21605). 7-Morpholinopteridin-6-ones (287) are formed, either via thiooxamide derivatives (286) or via corresponding 7,8-dihydropteridines (284 equation 102). Chloral hydrate also reacts with 2-substituted 5,6-diaminopyrimidin-4-ones to form pteridin-6-ones (56JCS3311, 64JCS565) by a so far unknown mechanism. 

In recent years there has been some substitution of TDI by MDI derivatives. One-shot polyether processes became feasible with the advent of sufficiently powerful catalysts. For many years tertiary amines had been used with both polyesters and the newer polyethers. Examples included alkyl morpholines and triethylamine. Catalysts such as triethylenediamine ( Dabco ) and 4-dimethyla-minopyridine were rather more powerful but not satisfactory on their own. In the late 1950s organo-tin catalysts such as dibutyl tin dilaurate and stannous octoate were found to be powerful catalysts for the chain extension reactions. It was found that by use of varying combinations of a tin catayst with a tertiary amine... 

That the methyl group in the less substituted isomer of the enamine (20) is axial was borne out by the work of Johnson et al. (18) in the total synthesis of the glutarimide antibiotic //-dehydrocycloheximide (24). The acylation of the morpholine enamine of 2,4-dimethylcyclohexanone (25) with 3-glutarimidylacetylchloride (26), followed by the hydrolysis of the intermediate product (27) with an acid buffer, led to the desired product in 35 % yield. The formation of the product in a rather low yield could most probably be ascribed to the relatively low enamine-type aetivity exhibited by the tetrasubstituted isomer, which fails to undergo the acylation reaction, and also because in trisubstituted isomer one of the CHj groups is axial. Since the methyl groups in the product are trans to each other, the allylic methyl group in the less substituted isomer of the enamine should then be in the axial orientation. 

The presence of 1,3-diaxial interaction between the C-2 alkyl group and the C-4 axial hydrogen atom is reflected in the rate of enamine formation of 2-substituted cyclohexanone. It has been shown by Hunig and Salzwedel (20) that even under forcing conditions, the yield of pyrrolidine and morpholine enamines of 2-methylcyclohexanone does not exceed 58%, whereas the C-2 unsubstituted ketones underwent enamine formation under rather milder conditions in better than 80 % yield. 

Risaliti et al. (22), have shown that in the addition of the electrophilic olefins to the enamines of cyclohexanone, the formation of the less substituted enamine is favored when a bulky group is present at the electrophilic carbon atom. For instance, the reaction of (8-nitrostyrene with the morpholine enamine of cyclohexanone gave only the trisubstituted isomer (30) with the substituent in the axial orientation (23). The product on hydrolysis led to the ketone (31) to which erythro configuration was assigned on the grounds illustrated in Scheme 3 (24). 

In a similar manner the addition of ethyl azodicarboxylate to the morpholine enamine of cyclohexanone furnished the less substituted isomer (34) with the substituent in the axial orientation (2, 26). 

Campbell and Jung (34) have reported that the reaction of 2 moles of o-halo-substituted benzoyl chloride with the morpholine enamine of cyclohexanone gave the corresponding 2,2-dibenzoyI derivative (57). 

The piperidine, pyrrolidine, and morpholine enamines of cyclohexanone substituted in the 3-position by methyl, phenyl, and l-butyl have been prepared (49). The complexity of the NMR spectra in the ethylenic hydrogen region indicated a mixture of isomeric enamines. Estimation of the per cent of each isomer by examination of the NMR spectra was not possible, nor were the isomeric enamines separable by vapor-phase chromatography. 

Treatment of an epimeric mixture of 4-substituted 2-(trimethylsilyloxy)-5-phenyl-3-phenylthio-l,4-oxazine 264 with ZnBr2 led to the stereoselective formation of perhydropyrido[2,l-c][l,4]oxazine 266 via the iminium ion 265 by the phenyl bearing stereocenter directed addition of the olefinic double bond from the /S-face of the cyclic moiety (97SL799, 98T10309). Similarly, an epimeric mixture of (45,9aS)-l-trimethylsilyloxy-4-phenyl-3,4,6,7-tetra-hydropyrido[2,l-c][l,4]oxazine was prepared by cyclization of (Z)-5(S)-phenyl-3-phenvlsulfanyl-2-trimethylsilyloxy-4-[4-(trimethylsilyl)but-3-enyll morpholine (OOSC2565). 

In a scheme intended to produce a more highly substituted oxazolidone, epichlorohydrin is condensed with morpholine in the presence of strong base to give the aminoepoxide, 27. Ring opening of the oxirane by means of hydrazine gives the hydroxy-hydrazine (28). Ring closure with diethyl carbonate leads to the substituted oxazolidone (29). Condensation with 18 affords furaltadone (30). ... 

This is a typical nucleophilic acyl substitution reaction, with morpholine as the nucleophile and chloride as the leaving group. 

Primary and secondary aliphatic amines, morpholine and 2-methylaziridine and aniline and even the sterically hindered 2.2,6,6-tetramethylpiperidine readily react with 6-bromo-trithiadiazepine 7, in certain cases in the presence of /V./V-diisopropylethylamine, at room temperature by substitution of the bromine atom ammonia, for example, yields trithiadiazepin-6-amine 22 (R1 = R2 = H). There is compelling evidence that these reactions proceed by an elimination-addition mechanism via the heteroaryne, trithiadiazepyne 21.391... 

When enamines are treated with alkyl halides, an alkylation occurs that is analogous to the first step of 12-14. Hydrolysis of the imine salt gives a ketone. Since the enamine is normally formed from a ketone (16-12), the net result is alkylation of the ketone at the a position. The method, known as the Stork enamine reaction is an alternative to the ketone alkylation considered at 10-105. The Stork method has the advantage that it generally leads almost exclusively to monoalkylation of the ketone, while 10-105, when applied to ketones, is difficult to stop with the introduction of just one alkyl group. Alkylation usually takes place on the less substituted side of the original ketone. The most commonly used amines are the cyclic amines piperidine, morpholine, and pyrrolidine. 

Wakefield and Varvounis have continued their study of abnormal nucleophihc substitution in 3-trichloromethylpyridines <95T(51)12791>. For example, morpholine and 3-... 

The aziridine aldehyde 56 undergoes a facile Baylis-Hillman reaction with methyl or ethyl acrylate, acrylonitrile, methyl vinyl ketone, and vinyl sulfone [60]. The adducts 57 were obtained as mixtures of syn- and anfz-diastereomers. The synthetic utility of the Baylis-Hillman adducts was also investigated. With acetic anhydride in pyridine an SN2 -type substitution of the initially formed allylic acetate by an acetoxy group takes place to give product 58. Nucleophilic reactions of this product with, e. g., morpholine, thiol/Et3N, or sodium azide in DMSO resulted in an apparent displacement of the acetoxy group. Tentatively, this result may be explained by invoking the initial formation of an ionic intermediate 59, which is then followed by the reaction with the nucleophile as shown in Scheme 43. 

Morpholine also gives the allyhc amine in high yield. The reaction is thought to involve a known hydridopaUadium-catalyzed isomerization of alkynes to aUenes followed by reaction of the latter with the hydridopalladium complex to give 1-phenyl-substituted q -allylpalladium complexes. These complexes react with amines affording the allylic amines. Primary amines give the diallylic amines. An intramolecular version has been developed for the synthesis of 2-(2-phenyl)-pyrroUdines and -piperidines [319]. 

Hydroxymethylation (formaldehyde) of nitro-imidazole 76 affords 77, which is oxidized to aldehyde 78. To prepare the other fragment for this convergent synthesis, reaction of epichlorohydrin with morpholine leads to the aminoepoxide 79, which is reacted with hydrazine to afford 80. Reaction of this substituted hydrazine with dimethyl carbonate affords oxazolinone 81 by sequential ester interchange reactions. Condensation of 81 with aldehyde 78 affords the antitricho-... 

The supported aqueous phase methodology was applied to the system Pd(OAc)2/5 TPPTS, a catalytic precursor for the Trost-Tsuji reaction. The characterization of the solid by 31P MAS NMR confirms the presence of Pd°(TPPTS)3 as the main surface species. The catalytic properties of the solid were tested for the allylic substitution of E-cinnamylethylcarbonate by different nucleophiles such as ethyl acetoacetate, dimethyl malonate, morpholine, phenol, and 2-mercapto-pyridine. The absence of palladium leaching was demonstrated, and having solved the problem of water leaching from the solid to the organic phase, the SAP-Pd catalyst was successfully recycled several times without loss in its activity. It was used in a continuous flow experiment which... 

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