Mannich-type reactions derivatives

Titanium enolates of various carbonyl compounds play an increasingly important role in Mannich-type reactions with different electrophiles. Recently, Liotta and co-workers reported a novel diastereoselective addition of chloro-titanium enolate 80 of iV-acylthiazolidinethione to various types of O-methyl oximes to afford the desired anti-azetines, precursors of a,/3-disubstituted /3-amino carbonyl derivatives 82 (Scheme 32).109... 

Zirconium enolates of various carbonyl compounds have also been investigated for Mannich-type reactions with different electrophiles. According to Shibasaki s method,148 the coupling reaction between a 3-acetoxy-4-alkyl-/3-lactam and the in r(/ -generated zirconium enolate 96 of a cyclohexanone derivative was realized as a key step during the total synthesis of an anitibiotic (Scheme 42).117,149... 

Highly enantioselective Mannich-type reactions of A-(2-hydroxyphenyl) aldi-mines with ketene trimethylsilyl acetals and of A-Boc-aldimines with acetyl acetone or furan are catalyzed by chiral phosphonic acids 9 derived from 3,3 -diaryl-(l )-BlNOL and POCI3 (Scheme 12.7). ... 

Several examples of Bi(0Tf)34H20-catalyzed Mannich-type reactions of various A-benzyloxycarbonylamino sulfones 1 with silyl enol ethers are summarized in Table 5. A-Benzyloxycarbonylamino sulfones 1 derived from differently substituted benzaldehydes were reacted with trimethyl(l-phenylvinyloxy)silane in dichloromethane at room temperature. The corresponding (3-amino ketones 24 were smoothly obtained (Table 5, entries 1-6). The reaction was efficient using electron-deficient benzaldehyde-derived sulfones, and the corresponding (3-amino ketones 24... 

Optimization of the previously reported Mannich-type reaction of trimethyl (pent-2-en-3-yloxy)silane with the sulfone Is derived from phenyl acetaldehyde (Table 5, entry 11) led to the corresponding (3-amino ketone in a good yield with moderate diastereoselectivity (2 mol% Bi(0Tf)3-4H20, yield = 84%, 24v/24v syn/anti = 72 28) (Scheme 8). Reduction of the major diastereoisomer 24v with lithium tri-ferf-butoxyaluminohydride afforded 25 as the only one diastereoisomer. Further cyclization of the latter with NaH afforded 4-benzyl-6-ethyl-5-methyl-l,3-oxazinan-2-one 26. The relative configuration of the six-membered carbamate was established as cis-cis by NMR analysis. 

In order to obtain further insight into the mechanism of the Mannich-type reaction, sulfone IP and silyl enol ether derived from acetophenone were reacted in the presence HOTf or TMSOTf, which could be produced in the reaction medium when using Bi(0Tf)3-4H20 as catalyst. It appeared that these two compounds efficiently catalyze the Mannich-type reaction (Table 7, entries 2 and 3). The reaction does not occur in the presence of 2,6-di-/<7V-buty I-4-methyl-pyridine [DTBMP] (1.0 equiv. of lp, 1.3 equiv. of silyl enol ether, 0.5 mol% of Bi(0Tf)34H20, 1.5 mol% of 2,6-di-/c/V-buty l-4-methy I-pyridine, 22 °C, 20 h, 99% recovery of lp), which indicates that triflic acid is involved in the mechanism (Table 7, entry 4). 

Several examples of Bi(OTf)3-catalyzed Mannich-type reactions with various silyl enol ethers are summarized in Table 12. Silyl enol ethers derived from aromatic and aliphatic ketones were reacted with an equimolar mixture of aldehyde and aniline (Scheme 10). The corresponding (3-amino ketones 27 were obtained in good yields (Table 12, entries 1M-) from aromatic-derived silyl enol ethers, except for the more hindered isobutyrophenone derivative. Silyl enol ethers derived from cyclopentanone or cyclohexanone afforded the (3-amino ketones in good yields (Table 12, entries 5 and 6). 

Table 12 Mannich-type reaction with silyl enol ethers derived from ketones...

Table 13 Mannich-type reaction with silyl ketene acetals derived from esters or thioesters...

Examples of the Bronsted-acid catalysts and hydrogen-bond catalysts are shown in Figure 2.1. We have recently reported the Mannich-type reaction of ketene silyl acetals with aldimines derived from aromatic aldehyde catalyzed by chiral phosphoric acid 7 (Figure 2.2, Scheme 2.6) [12]. The corresponding [5-amino esters were obtained with high syn-diastereoselectivities and excellent enantioselectivities. 

Most notably, the Antilla laboratory has employed VANOL and VAPOL phosphoric acid derivatives in several novel asymmetric transformations. In addition, TADDOL and phosphordiamide phosphoric acid derivatives have been applied in several Mannich-type reactions. 

N-Unsubstituted tetrahydro-l,3-oxazines (3 R3 = H) take part in Mannich-type reactions, e.g., 3-(2-nitrobutyl)-tetrahydro-1,3-oxa-zine1,37,47-53 and the corresponding bicyclic compound1,37 were thus obtained. A reaction with paraformaldehyde and acetophenone derivatives yields 3 (R1 = H, alkyl, or Ph, R2 = CHaCHaCOPh).71,72... 

The aldol reaction of an enolate or enolate equivalent with an imine is referred to as the Mannich-type reaction. Asymmetric Mannich-type reactions provide useful routes for the synthesis of enantiomerically enriched p-amino acid derivatives, which are versatile chiral building blocks for the synthesis of nitrogen-containing biologically important compounds [23]. Despite the enormous progress made in asymmetric aldol reactions [24], the corresponding asymmet-... 

In 1997, Kobayashi and colleagues reported the first truly catalytic enantioselective Mannich-type reactions of aldimines 24 with silyl enolates 37 using a novel chiral zirconium catalyst 38 prepared from zirconium (IV) fert-butoxide, 2 equivalents of (R)-6,6 -dibromo-l,l -bi-2-naphthol, and N-methylimidazole (Scheme 13) [27, 28], In addition to imines derived from aromatic aldehydes, those derived from heterocyclic aldehydes also worked well in this reaction, and good to high yields and enantiomeric excess were obtained. The hydroxy group of the 2-hydroxyphenylimine moiety, which coordinates to the zirconium as a bidentate ligand, is essential to obtain high selectivity in this method. 

Tricyclic thiazepine derivatives were analogously prepared via an intramolecular Mannich-type reaction <1995JME2145, 2000JOC4269>. 

In 2004, Kobayashi reported for the first time Lewis acid-catalyzed organic reactions such as Aldol- and Mannich-type reactions proceeded smoothly in scCC>2 using PEG derivatives as surfactants. This could be the first attempt to use PEG as surfactant, facilitating the formation of emulsions in a single scCC>2 phase to synthesize small organic molecules [57]. 

In Yb(OTf)3-catalyzed Mannich-type reaction of the imine with silicon enolate conducted in SCCO2, the desired product is obtained in only 10 % yield after 3 h due to the low solubility of reactants in scC02 (Scheme 3.11, R1, R2, R3, R4, Rs=Ph, Bn, Me, Me, OMe) [57]. Addition of PEG is found to improve the yield to 72 %. The formation of emulsions can be observed in the presence of PEG. The highest yield (72 %) can be reached at 15 MPa CO2 pressure using PEG400 (MW = 400). This system has been applicable to various substrates including imines derived from aromatic and heterocyclic as well as aliphatic aldehydes and silicon enolates derived from esters, thioesters, and a ketone as depicted in Scheme 3.11. 

Trost and coworkers recently reported that these dinuclear zinc complexes catalyze Mannich reactions with unmodified aromatic hydroxy ketones as donors with excellent enantioselectivity [18]. Mannich-type reactions between an N-para-meth-oxyphenyl (PMP)-protected a-ethyl glyoxalate and hydroxyacetophenone in the presence of a catalytic amount of catalyst 5a afford the desired N-PMP protected amino acid derivative in 76 % yield with a dr of 7 1 and 95 % ee (Eq.5). 

Barbas and coworkers later demonstrated that other amino acid derivatives in addition to proline can catalyze the direct asymmetric Mannich-type reaction with good enantioselectivity (Fig. 6) [29]. 

Addition of nucleophiles to electrophilic glycine templates has served as an excellent means of synthesis of a-amino acid derivatives [2c, 4—6]. In particular, imines derived from a-ethyl glyoxylate are excellent electrophiles for stereoselective construction of optically active molecules [32], This research and retrosyn-thetic analysis led us to believe that amine-catalyzed asymmetric Mannich-type additions of unmodified ketones to glyoxylate derived imines would be an attractive route for synthesis of y-keto-ce-amino acid derivatives [33], Initially, L-proline-catalyzed direct asymmetric Mannich reaction with acetone and N-PMP-protected a-ethyl glyoxylate was examined in different solvents. The Mannich-type reaction was effective in all solvents tested and the corresponding amino acid derivative was isolated in excellent yield and enantioselectivity (ee >95 %). Direct asymmetric Mannich-type additions with other ketones afford Mannich adducts in good yield and excellent regio-, diastereo- and enantioselectivity (Eq. 8). 

The corresponding /i-amino aldehydes are reduced in situ and the corresponding amino alcohols are isolated in good yield with up to >99 % ee. The Mannich reactions proceed with excellent chemoselectivity and inline formation occurs with the acceptor aldehyde at a faster rate than C-C bond-formation. Moreover, the one-pot three-component direct asymmetric cross-Mannich reaction enables aliphatic aldehydes to serve as acceptors. The absolute stereochemistry of the reaction was determined by synthesis and reveled that L-proline provides syn /i-amino aldehydes with (S) stereochemistry of the amino group. In addition, the proline-catalyzed direct asymmetric Mannich-type reaction has been connected to one-pot tandem cyanation and allylation reaction in THF and aqueous media affording functional a-amino acid derivatives [39, 42]. 

Proline derivatives, such as (2S,4R)-4-hydroxyproline (2), (2S,4R)-4-tert-butoxy-proline, (2S,3S)-3-hydroxyproline [71b] and tetrazole-containing pyrrolidine 9 [75] also catalyzed the Mannich-type reactions using aldehydes as nucleophiles via enamine intermediates, and afforded the syn-isomer as the major diaster-eomer with high enantioselectivity at room temperature. On the other hand,... 

The (S)-proline-catalyzed Mannich-type reactions that afford enantiomerically enriched aminoaldehyde derivatives constitute efficient routes to access enantiomerically enriched a- and / -amino acid derivatives and /Mactams [71a,b] and enzyme inhibitors [79] (Scheme 2.17). The Mannich products obtained from the... 

A more general and highly diastereoselective Mannich-type reaction was developed by Ohshima and Shibasaki. The tartrate-derived diammonium salt 43c possessing 4-fluorophenyl substituents was identified as an optimal catalyst for the reaction of 28 with various N-Boc imines under solid (Cs2CC>3)-liquid (fluoroben-zene) phase-transfer conditions, as exemplified in Scheme 4.24 [64]. The usefulness of the Mannich adduct 67b was further demonstrated by the straightforward synthesis of the optically pure tripeptide 68. 

In related reactions, Snapper and Hoveyda et al. reported an asymmetric version of Mannich-type reactions catalyzed by silver acetate.38,39 Propargyl imines proved to be susceptible to nucleophilic addition of sily lenol ethers derived from acetate esters in the... 

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