Pyrrolidine alkene

The similarity between the reactions of alkenes and cyclopropanes is further demonstrated by the reactions of electrophilic cyclopropanes and cyclopropenes with enamines. Cyclopropylcyanoester74, when treated with the pyrrolidine enamine of cyclohexanone, undergoes what would be a 1,2 cycloaddition in the analogous alkene case, but is actually a 1,3 cycloaddition here, to form adduct 75 (90). A similar reaction between the... 

A pseudo 1,2 cycloaddition (actually a 1,3 cycloaddition, but may be considered a 1,2 type if a three-membered ring is considered analogous to an alkene) is observed when the pyrrolidine enamine of cyclohexanone is allowed to react with N-carbethoxyaziridine (129) to produce octahydro-indole 130 91). Octahydroindoles and pyrrolidines can also be produced through the intramolecular alkylation of the enamines of certain halo-ketourethanes 176a). 

The (TMS)3Si radical addition to terminal alkenes or alkynes, followed by radical cyclization to oxime ethers, were also studied (Reaction 50). The radical reactions proceeded effectively by the use of triethylborane as a radical initiator to provide the functionalized pyrrolidines via a carbon-carbon bond-forming process. Yields of 79 and 63% are obtained for oxime ethers connected with an olefin or propargyl group, respectively. 

Secondary amines can be added to certain nonactivated alkenes if palladium(II) complexes are used as catalysts The complexation lowers the electron density of the double bond, facilitating nucleophilic attack. Markovnikov orientation is observed and the addition is anti An intramolecular addition to an alkyne unit in the presence of a palladium compound, generated a tetrahydropyridine, and a related addition to an allene is known.Amines add to allenes in the presence of a catalytic amount of CuBr " or palladium compounds.Molybdenum complexes have also been used in the addition of aniline to alkenes. Reduction of nitro compounds in the presence of rhodium catalysts, in the presence of alkenes, CO and H2, leads to an amine unit adding to the alkene moiety. An intramolecular addition of an amine unit to an alkene to form a pyrrolidine was reported using a lanthanide reagent. 

The reaction can be done intramolecularly. N-Benzyl pent-4-ynamide reacted with tetrabutylammonium fluoride to an alkylidene lactam. Similar addition of a tosylamide-alkene, with a palladium catalyst, led to a vinyl Al-tosyl pyrrolidine. Similar cyclization reactions occur with tosylamide-alkynes. ... 

Imidazole and its derivatives continued to play an important role in asymmetric processes. Optically active pyrroloimidazoles 26 were prepared by the cycloaddition of homochiral imidazolium ylides with activated alkenes <96TL1707>. This reaction was used in the enantioselective preparation of pyrrolidines <96TL1711>. A review of the use of chiral imidazolidines in asymmetric synthesis was published <96PAC531> and the preparation and use of a new camphor-derived imidazolidinone-type auxiliary 27 was reported < 6TL4565> <96TL6931>. 

The pincer complexes 89-90 (Fig. 2.14) catalyse the intramolecular hydroamination/ cyclisation of unactivated alkenes, yielding pyrrolidines and piperidines (n = 1,2, respectively). The reactions can be carried out in benzene or water with high... 

In 2003, Livinghouse et al. also reported that chelating bis(thiophosphonic amidates) complexes of lanthanide metals, such as yttrium or neodymium, were able to catalyse intramolecular alkene hydroaminations. These complexes were prepared by attachment of the appropriate ligands to the metals by direct metalation with Ln[N(TMS)2]3- When applied to the cyclisation of 2-amino-5-hexene, these catalysts led to the formation of the corresponding pyrrolidine as a mixture of two diastereomers in almost quantitative yields and diastereos-electivities of up to 88% de (Scheme 10.81). 

In addition to cydocondensation reactions of the Paal-Knorr type, cycloaddition processes play a prominent role in the construction of pyrrole rings. Thus, 1,3-dipo-lar cycloadditions of azomethine ylides with alkene dipolarophiles are very important in the preparation of pyrroles. The group of de la Hoz has studied the micro-wave-induced thermal isomerization of imines, derived from a-aminoesters, to azomethine ylides (Scheme 6.185) [346]. In the presence of equimolar amounts of /i-nitrostyrenes, three isomeric pyrrolidines (nitroproline esters) were obtained under solvent-free conditions in 81-86% yield within 10-15 min at 110-120 °C through a [3+2] cycloaddition process. Interestingly, using classical heating in an oil bath (toluene reflux, 24 h), only two of the three isomers were observed. 

Nitrogen-containing heterocyclic compounds, including 1,2,3,4-tetrahydroqui-noline, piperidine, pyrrolidine and indoline, are also popular hydrogen donors for the reduction of aldehydes, alkenes, and alkynes [75, 76]. With piperidine as hydrogen donor, the highly reactive 1-piperidene intermediate undergoes trimer-ization or, in the presence of amines, an addition reaction [77]. Pyridine was not observed as a reaction product. 

Cycloadditions. Desilylation of 1 in CH,CN with LiF results in an azomethine ylide (a), which undergoes cycloaddition reactions with dipolarophiles and activated alkenes to give pyrrolidines. 

Highly efficient and stereoselective addition of tertiary amines to electron-deficient alkenes is used by Pete et al. for the synthesis of necine bases [26,27], The photoinduced electron transfer of tertiary amines like Af-methylpyrrolidine to aromatic ketone sensitizers yield regiospecifically only one of the possible radical species which then adds diastereospecifically to (5I )-5-menthyloxy-2-(5//)-furanone as an electron-poor alkene. For the synthesis of pyrrazolidine alkaloids in approximately 30% overall yield, the group uses a second PET step for the oxidative demethylation of the pyrrolidine. The resulting secondary amine react spontaneously to the lactam by intramolecular aminolysis of the lactone (Scheme 20) [26,27]. 

The azomethine ylide formed in situ from benzaldehyde and an A -alkyl AA reacts with an alkene to give a mixture of diastereomeric pyrrolidines (85TL2775). 

The reaction rate of enyne 107j having a terminal alkyne is very slow, and the starting material is recovered [Eq. (6.80)]. ° Presumably, the terminal alkene of the product 108j should further react with ruthenium carbene complex Ih to form XVII, whose ruthenium carbene should be coordinated by the olefin in the pyrrolidine ring. Thus, the catalytic activity of Ih should be decreased. If complex XVII reacts with ethylene, 108j and methylidene ruthenium carbene complex Ih should be regenerated. On the basis of this idea, the reaction was carried out under ethylene... 

Vinylamines (enamines) are reduced by alane, mono- and dichloroalane to saturated amines, and hydrogenolyzed to amines and alkenes [710]. Reduction is favored by dichloroalane while hydrogenolysis is favored by alane. Alane, chloroalane and dichloroalane gave the following results with -N-pyrrolidinylcyclohexene V-pyrrolidinylcyclohexane in 13, 15 and 22% yield, and pyrrolidine and cyclohexene in 80, 75 and 75% yields, respectively [710]. Saturated amines were also obtained by treatment of enamines with sodium borohydride [711], with sodium cyanoborohydride [103, 712] (Procedure 22, p. 210) and by heating for 1-2 hours at 50-70° with 87% or 9S% formic acid (yields 37-89%) [320]. 

The asymmetric lithiation/substitution of Af-Boc-Af-(3-chloropropyl)-2-alkenylamines 395 by w-BuLi/(—)-sparteine (11) provides (5 )-Af-Boc-2-(alken-l-yl)pyrrolidines 397 via the allyllithium-sparteine complexes 396 (equation 106) . Similarly, the piperidine corresponding to 397 was obtained from the Af-(4-chlorobutyl)amine. Intramolecular epoxide openings gave rise to enantioenriched pyrrolidinols. Beak and coworkers conclude from further experiments that an asymmetric deprotonation takes place, but it is followed by a rapid epimerization a kinetic resolution in favour of the observed stereoisomer concludes the cyclization step. 

Thermal hetero [3 + 2] cycloaddition reaction of dipolar alkene with 0-alkyloximes produces substituted pyrrolidines. Thus, heating a mixture of alkyUdenecyclopropane 102 with awfi-0-alkyloximes 101 yields substituted pyrrolidines, which upon hydrolysis under mild conditions give 3-alkoxycarbonylpyrrolidines 103 in moderate to good yields (equation 43) ". ... 

C.Y. Cheng, B.l. Liou, S.T. Jih, Stereoselective synthesis of frans-( )-A/- 2-[4-(3,4-dichlorophenyl)but-2-en-2-yl]cyclohexyl pyrrolidine as an alkene mimetic of the aryla-cetamide analgesics, J. Chinese Chem. Soc. (Taipei, Taiw/an) 40 (1993) 67-71. 

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