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Pyrrolidines Prolines

As with the above pyrrolidine, proline-type chiral auxiliaries also show different behaviors toward zirconium or lithium enolate mediated aldol reactions. Evans found that lithium enolates derived from prolinol amides exhibit excellent diastereofacial selectivities in alkylation reactions (see Section 2.2.32), while the lithium enolates of proline amides are unsuccessful in aldol condensations. Effective chiral reagents were zirconium enolates, which can be obtained from the corresponding lithium enolates via metal exchange with Cp2ZrCl2. For example, excellent levels of asymmetric induction in the aldol process with synj anti selectivity of 96-98% and diastereofacial selectivity of 50-200 116a can be achieved in the Zr-enolate-mediated aldol reaction (see Scheme 3-10). [Pg.144]

Reduziert man z.B. N-Methyl-N-phenyl-acetamid mit Natrium/fl. Ammoniak/Atha-nol, so erhalt man in 56%-iger Ausbeute Acetaldehyd2. Hexansaure-diathylamid wird durch Natrium/fl. Ammoniak/Essigsaure in 53%-iger Ausbeute zu Hexanal reduziert3 und 1-Acetyl- bzw. l-(3-Phenyl-propanoyl)-2-carboxy-pyrrolidin bilden bei Reduktion mit Lithium/Methylamin/-70°2-Carboxy-pyrrolidin (Prolin)4 ... [Pg.671]

Progress has been made toward enantioselective and highly regioselective Michael type alkylations of 2-cyclohexen-l -one using alkylcuprates with chiral auxiliary ligands, e. g., anions of either enantiomer of N-[2-(dimethylamino)ethyl]ephedrine (E. J. Corey, 1986), of (S)-2-(methoxymethyl)pyrrolidine (from L-proline R. K. EHeter, 1987) or of chiramt (= (R,R)-N-(l-phenylethyl)-7-[(l-phenylethyl)iinino]-l,3,5-cycloheptatrien-l-amine, a chiral aminotro-ponimine G. M. Villacorta, 1988). Enantioselectivities of up to 95% have been reported. [Pg.20]

One of the most intensively studied protic chiral ligands, which moreover allows enantioselectivities of up to 95% ee, is the proline-derived (25 )-l- [(25,)-l-methyl-2-pyrrolidinyl]methyl -2-pyrrolidine methanol (6)19-21. [Pg.150]

Hydroxy-L-prolin is converted into a 2-methoxypyrrolidine. This can be used as a valuable chiral building block to prepare optically active 2-substituted pyrrolidines (2-allyl, 2-cyano, 2-phosphono) with different nucleophiles and employing TiQ as Lewis acid (Eq. 21) [286]. Using these latent A -acylimmonium cations (Eq. 22) [287] (Table 9, No. 31), 2-(pyrimidin-l-yl)-2-amino acids [288], and 5-fluorouracil derivatives [289] have been prepared. For the synthesis of p-lactams a 4-acetoxyazetidinone, prepared by non-Kolbe electrolysis of the corresponding 4-carboxy derivative (Eq. 23) [290], proved to be a valuable intermediate. 0-Benzoylated a-hydroxyacetic acids are decarboxylated in methanol to mixed acylals [291]. By reaction of the intermediate cation, with the carboxylic acid used as precursor, esters are obtained in acetonitrile (Eq. 24) [292] and surprisingly also in methanol as solvent (Table 9, No. 32). Hydroxy compounds are formed by decarboxylation in water or in dimethyl sulfoxide (Table 9, Nos. 34, 35). [Pg.124]

Evidence exists that the relative solubility of amines and inhibitors in heterogeneous oil-water systems could be decisive in formation of nitrosamines and blocking these reactions, Nitrosopyrrolidine formation in bacon predominates in the adipose tissue despite the fact that its precursor, proline, predominates in the lean tissue (5,6,7). Mottram and Patterson (8) partly attribute this phenomenon to the fact that the adipose tissue furnishes a medium in which nitrosation is favored, Massey, et al, (9) found that the presence of decane in a model heterogeneous system caused a 20-fold increase in rate of nitrosamine formation from lipophilic dihexylamine, but had no effect on nitrosation of hydrophilic pyrrolidine. Ascorbic acid in the presence of decane enhanced the synthesis of nitrosamines from lipophilic amines, but had no effect on nitrosation of pyrrolidine. The oil-soluble inhibitor ascorbyl palmitate had little influence on the formation of nitrosamines in the presence or absence of decane. [Pg.150]

Mechanism of NPYR Formation The consistent occurrence of NPYR in fried bacon and cooked-out fat has led to an intensive search for both the precursors and mechanism that could account for its formation. Although model system studies have implicated a number of compounds including proline, collagen, putreseine, spermidine, pyrrolidine and glycyl-L-glycine as possible... [Pg.166]

How proline is converted to NPYR has not yet been fully elucidated and could conceivably occur by either of two pathways (29, ). One pathway involves the initial N-nitrosation of proline, followed by decarboxylation, while in the other, proline is first decarboxylated to pyrrolidine followed by N-nitrosation to NPYR. Since the conversion of N-nitrosoproline (NPRO) to NPYR occurs at a much lower temperature than the transformation of proline to pyrrolidine, the pathway involving intermediacy of NPRO is thus the more likely route ( ). It has been reported that preformed NPRO in raw bacon is not the primary precursor of NPYR in cooked bacon (29,33-5), as shown by the fact that ascorbyl paImitate, when added to bacon, inhibits the formation of NPYR (33). However, this by no means rules out the intermediacy of NPRO which could be formed at the higher temperatures attained during the frying process (29,36). [Pg.167]

An enzyme that catalyzes the reduction of A -piperidein-2-carboxylate to piperidine-2-car-boxylate (r-pipecolate) in the catabolism of o-lysine by Pseudomonas putida ATCC12633 is an NADPH-dependent representative of a large family of reductases that are distributed among bacteria and archaea (Muramatsu et al. 2005). It also catalyzes the reduction of A -pyrrolidine-2-carboxylate to L-proline. [Pg.163]

The enantioselectivity of Sn(II) enolate reactions can be controlled by chiral diamine additives. These reagents are particularly effective for silyl thioketene acetals.162 Several diamines derived from proline have been explored and l-methyl-2-(l-piperidinomethyl)pyrrolidine 21 is an example. Even higher enantioselectivity can be achieved by attachment of bicyclic amines to the pyrrolidinomethyl group.163... [Pg.130]

The same system was used by Frechet s group of to achieve a multicomponent one-pot cascade reaction with mutually interfering acid and proline-derived pyrrolidine catalysts [31]. The concept is illustrated in Figure 5.1. The protonation of imidazo-lidone (3) by the immobilized PSTA (5) gives the desired iminium catalyst (6), while... [Pg.146]

A spiro[pyrrolidine-2,3 -oxindole] library <1998TL2235> has been synthesized via a three-component 1,3-dipolar cycloaddition in the solution phase. Isatins 432 were treated with L-proline or L-thiaproline and chalcone 433 in a MeOH-H20, CH3CN-H20, or dioxane-H20 solution. Spiropyrrolidines 49 (Scheme 96) were obtained as the sole products in good yield and high purity (Table 15). [Pg.693]

The three-component reaction between isatin 432a, a-aminoacids 433 (proline and thioproline) and dipolarophiles in methanol/water medium was carried out by heating at 90 °C to afford the pyrrolidine-2-spiro-3 -(2-oxindoles) 51. The first step of the reaction is the formation of oxazlidinones 448. Loss of carbon dioxide from oxazolidinone proceeds via a stereospecific 1,3-cycloreversion to produce the formation of oxazolidinones almost exclusively with /razw-stereoselectivity. This /f-azomethine ylide undergo 1,3-dipolar cycloaddition with dipolarophiles to yield the pyrrohdinc-2-r/ V -3-(2-oxindolcs) 51. (Scheme 101) <2004EJ0413>. [Pg.697]

Various schemes have been proposed to explain the production of nitrogen-containing heterocyclic compounds, such as pyrrolidines and piperidines, from proline. Nitrogen heterocyclic compounds are often potent flavouring chemicals. [Pg.16]

The pyrrolidine-oxazoline catalysts 26 (Fig. 29.13) can be conveniently synthesized from proline in five steps, and have been used to hydrogenate the methyl-stilbenes 1 and 8 in 92% ee and 94% ee, respectively [26]. [Pg.1037]

In the study of Weber et al.,41 a series of proline-derived hydrazones were prepared, and the reactions of the hydrazones with organocerium reagents were examined. It is clear from the table in Scheme 2 24 that the diastereoselectivity of the examined reactions depends on the nature of the side chain. (S )-l-amino-2-(2-methoxyethoxymethyl) pyrrolidine (40) gave the highest selectivity for various nucleophiles. [Pg.91]

The pyrrolidine ring is part of numerous natural products, and we have restricted the field to those alkaloids that contain an isolated pyrrolidine ring. We have thus excluded the so-called Sceletium (mesembrine) and Dendrobium (den-drobine) alkaloids, which have also been reviewed (3-5). The pyrrolidine ring is frequently encountered in proline residues of cyclopeptide alkaloids these have been reviewed already (7) and will not be discussed here. [Pg.281]

Although no experiment has yet been reported to support the idea, it seems clear that a majority of the pyrrolidine alkaloids arise from the ornithine, pu-trescine, and proline pool. This could be the case for ficine (61) and isoficine (62), vochysine (63), and phyllospadine (64) but also of the Darlingia alkaloids, which share common features with hygrine this assertion probably also holds for the ruspolinone (25) and odorine-roxburghlin (59) families. Peripentadenine, isolated from a plant of the family Elaeocarpaceae, bears resemblance to other alkaloids of the elaeocarpus type such as isoelaeocarpicine (124) (161). It cannot be excluded, however, that spermidine may be a biosynthetic intermediate instead of putrescine. The question of the origin of ant alkaloid substances remains so far without an obvious answer. [Pg.308]


See other pages where Pyrrolidines Prolines is mentioned: [Pg.559]    [Pg.559]    [Pg.19]    [Pg.42]    [Pg.525]    [Pg.610]    [Pg.719]    [Pg.721]    [Pg.146]    [Pg.53]    [Pg.239]    [Pg.344]    [Pg.522]    [Pg.5]    [Pg.324]    [Pg.174]    [Pg.22]    [Pg.36]    [Pg.156]    [Pg.197]    [Pg.111]    [Pg.144]    [Pg.256]    [Pg.425]    [Pg.155]    [Pg.196]    [Pg.32]    [Pg.657]    [Pg.669]    [Pg.673]    [Pg.1]   


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Proline pyrrolidine derivative from

Pyrrolidine- or Proline-Related Alkaloids

Substituted Pyrrolidines not Derived from Proline

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