PYRROLIDINE, 1-BUTYL

Pyrrolidin 1-Butyl-2,5-dimethyl-E21e, 5256 (5-NR2-en Cycli-sier.)... 

Pyrrole, 2,4-dimf,thyl-3-ethyl-, 21,67 Pyrrole, 2,4-diphenyl-, 27, 33 Pyrrolidine, 1-butyl-, 25,14... 

Piperidine, 3-aryIoxymethyI-4-phenyI-as antidepressant, 1, 169 Piperidine, JV-bromo-photoelectron spectroscopy, 2, 142 Piperidine, cis-4- t-butyl-r- cyclohexyl-1 -phenyl-X-ray analysis, 2, 161 Piperidine, 3-chloro-pyrrolidines from, 4, 147 Piperidine, N-chloro-photoelectron spectroscopy, 2, 142 reactions, 2, 373 trimerization, 3, 510 Piperidine, 4-cycIopentyI-2,6-dioxo-synthesis... 

Interestingly the pyrrolidine enamine of 3-t-butylcyclohexanone (41) consists of a 3 2 mixture of A and A isomers (79 and 80). The preference for the A isomer in this case is due to the relief of two of the four skew butane interactions, which are present in the isomer. The A isomer, owever, contains two additional interactions, i.e., one modified skew utane interaction 0.4 kcal/mole (42) and one interaction between c C-2 vinylic hydrogen atom and the ethyl portion of the t-butyl group hich is pointed toward it. 

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. 

The method illustrates the ability of the sodium hydride-dimethylformamide system to effect the alkylation of aromatic sulfonamides under mild conditions and in good yield. The method appears to be fairly general. The submitters have prepared N,N-diethyl- and N,N-di- -butyl- >-toluenesulfonamide as well as 2-(/ -tolyIsuIfonyl)benz[/]isoindoline from 2,3-bis-(bromomethyl)naphthalene, and 1 %-tolylsulfony])pyrrolidine from 1,4-dichIorobutane the yield of purified product exceeded 75% in each case. 

An example of double asymmetric induction has been reported. The resolved enantiomers of rac-4 have been converted to the aluminum enolates and reacted at —78 °C with enantiomer-ically pure ter/-butyl (S)-2-fonnyl-l-pyrrolidine carboxylate46. A comparison of the two reactions reveals that the reaction pair leading to the (5Fe,/ ,5)-product is matched while the alternative reaction pair is mismatched. 

The reactions of the isopropyl-substituted 3-dimethylaminopropenyli-denechromium complex 109 with terminal alkynes 90 bearing a bulky substituent (e.g., R=ter -butyl, mesityl, adamantyl etc.), in the presence of moist pyridine, yield 2-(acylmethylene)pyrrolidines 110 (Scheme 23) [84]. The dihydroazepinetricarbonylchromium complexes 111 were found to be the key... 

D. 2(S)-(fl-tert-Butoxycarbonyl-a-(R)-hydroxyethyl)-4-(R)-hydroxy-pyrrolidine- 1-carboxylic acid, tert-butyl ester. The identical procedure was followed, in this case using the (,S)-BINAP catalyst (5)-l. Hydrogenation is conducted for 64 hr, and the reaction mixture is then transferred to a 250-mL, round-bottomed flask and concentrated to dryness. The residue is dissolved in 17 mL of methanol and cooled to 15°C. After the slow addition of 7 mL of DI water, the solution is aged for 15 min gradually forming a thin slurry. More DI water (75 mL) is added over 1 hr and the mixture is allowed to stand for an additional 1 hr at 15°C. The resulting crystals (Note 19) are filtered at 15°C, washed with 10 mL of 1 4-MeOH water, and then dried overnight in a vacuum oven (35°C, 686 mm) to yield 7.0 g (70%) of (R)-hydroxy ester 4b (Note 20). 

I -Phenyl-pyrrolidin + 4-Anilino-butanol l -tert.-Butyl-pyrrolidin + 4-terl.-Butylamino-butano ... 

GC analysis for methanol, 1-propanol, 1-butanol, pyrrolidine, N-methylpyrrolidine, 2-pynolidinone, N-methyl-2-pyrrolidinone, gamma-butrolactone, dimethylsuccinate, and N-butyl-2-pyrrolidinone was performed with a Hewlett-Packard Model 5890 Gas Chromatograph equipped with a 30-meter, 0.53 mm I.D., 0.50-micron film, Nukol capillary column (Supelco, Bellefonte, PA) and a flame ionization detector (FID). 

N-Substituted pyrrolidines were subjected to catalytic transfer hydrogenolysis affording pyrrolidines, but the yields were low. However, when di-tert-butyl dicarbonate was added to the N-substituted pyrrolidines before catalytic hydrogenolysis, the N-Boc derivatives were all formed in good yield (Scheme... 

Denmark and coworkers have found that methylaluminum bis (2,6-di-tert-butyl-4-methyl-phenoxide) (MAD) or methylaluminum bis(2,6-diphenylphenoxide) (MAPh) is effective as the Lewis acid promoter for cycloaddition of 2,2-disubstituted 1-nitroalkenes (Eq. 8.100).158 Other Lewis acids such as SnCl4, TiCl4, and TiCl2(Oi-Pr)2 fail to promote the cycloaddition of 2,2-disubstituted 1-nitroalkenes. The products are converted into 3,3-disubstituted pyrrolidines via hydrogenolysis.158 Reductive cleavage of N-0 bonds produces oxime hemiacetals, which are further reduced to amido aldehydes and finally to pyrrolidines. This reaction provides a useful synthetic method for pyrrolidines, which is discussed later. 

The /V -hydroxylamino compounds (404) and (405), obtained from the reaction of tert-butyl acetate with 3,4-dihydroisoquinoline-A-oxide or 5,5-dimethyl-pyrroline-/V-oxide, when boiled in methylene chloride in the presence of triphenylphosphine, carbon tetrachloride and triethylamine, are transformed to (1,2,3,4- tetrahydroisoquinolin-l-ilidene) acetate (406) or (pyrrolidin-2-ilidene) acetate (407) (Scheme 2.181) (645). 

Treatment of 329, the A-butyl-A-4-pentenyl analogue of 327, with trifluoroacetic acid and r-butylthiolate radicals (from r-butylthiol) under irradiation with visible light gives the aminyl radical 330, which cyclizes to the pyrrolidine 331 and a r-butylthiolate radical is regenerated (equation 115). It is believed that the process involves, at least partially,... 

Alkylation of trifluoro- and trichloroacetamides with a-bromoacetic esters has been utilized for the synthesis of a wide range of a-aminoacetic acids [11-13] (Table 5.13). Hydrolysis of the intermediate a-trihaloacetamidoacetic esters with methanolic potassium hydroxide converts the methyl and ethyl esters directly into the amino carboxylic acids. /-Butyl a-aminoacetates are more stable, but they are hydrolysed under phase-transfer catalytic conditions (see Chapter 9.2). Reaction of the trihaloacetamides with 1,4-dibromobutane and 1,5-dibromopentane and subsequent hydrolysis provides a simple route to pyrrolidine-2-carboxylic acid (75%) and piperidine-2-carboxylic acid (58%) [11, 12],... 

Comparison of the configuration of the stannane with the prodncts of reaction reveals that primary alkyl halides that are not benzyhc or a to a carbonyl react with inversion at the lithium-bearing carbon atom. In the piperidine series, the best data are for the 3-phenylpropyl compound, which was shown to be >99 1 er. In the pyrrolidine series, the er of the analogous compound indicates 21-22% retention and 78-79% inversion of configuration. Activated alkyl halides such as benzyl bromide and teri-butyl bromoacetate afford racemic adducts. In both the pyrrolidine and piperidine series, most carbonyl electrophiles (i.e. carbon dioxide, dimethyl carbonate, methyl chloroformate, pivaloyl chloride, cyclohexanone, acetone and benzaldehyde) react with virtually complete retention of configuration at the lithium-bearing carbon atom. The only exceptions are benzophenone, which affords racemic adduct, and pivaloyl chloride, which shows some inversion. The inversion observed with pivaloyl chloride may be due to partial racemization of the ketone product during work-up. 

N-Methyl-, N-ethyl, N-isopropyl- and N-ferf-butyl-pyrrolidines, which are readily available from the reaction of dichloro- or dibromobutanes and their corresponding amines, all gave N-alkyl dichloropentathiepinopyrroles 214 as the main products in low-to-moderate yield (16-31%). Additionally,... 

A model for the structural relationship of /V-butyl-1 -deoxynojirimycin (131, Scheme 33) with ceramide, the substrate of ceramide glucosyltransferase, was suggested by Butters and coworkers. They conducted a comparative investigation on a range of 14 derivatives of 1-deoxynojirimycin substituted at the ring nitrogen and/or C-l, as well as 5 pyrrolidine-type inhibitors selected by superpositioning of the iminoalditol with a portion of the ceramide structure.364... 

Then, nucleophilic aromatic substitution was applied for the synthesis of l,2,4,6,7,9-hexafluoro-l,4-dibenzodioxin from 2,3,4,6-tetrafluorophenol in the presence of sodium /-butylate <1995JFC(73)265>. In a similar way, cyano-1,4-dibenzodioxins and cyano-l,4-dibenzodithiins have been synthesized by fluorine displacement reactions with catechols <2001NJC379, 2001NJC385>. In accordance with a similar mechanism, the synthesis of spiro (l,4-benzodioxin-2,4 -piperidines) 205 and spiro (l,4-benzodioxin-2,3 -pyrrolidines) 206 have been developed from alcohols 207 and 208, respectively, both of them being obtained from 2-fluorophenol 210 with the corresponding epoxide 209 (Scheme 18) <2003SL813>. 

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