Mannich reaction with

In another attempt to achieve efficient coordination, we have used a strongly chelating diamine (4.43) in the Mannich reaction with 4.39 (Scheme 4.12). The reaction was performed in aqueous ethanol, producing 4.44-2HC1 in 64% yield. 

The desired pyridylamine was obtained in 69 % overall yield by monomethylation of 2-(aminomethyl)pyridine following a literature procedure (Scheme 4.14). First amine 4.48 was converted into formamide 4.49, through reaction with the in situ prepared mixed anhydride of acetic acid and formic acid. Reduction of 4.49 with borane dimethyl sulfide complex produced diamine 4.50. This compound could be used successfully in the Mannich reaction with 4.39, affording crude 4.51 in 92 % yield (Scheme 4.15). Analogous to 4.44, 4.51 also coordinates to copper(II) in water, as indicated by a shift of the UV-absorption maximum from 296 nm to 308 nm. 

Disubstituted pyridazine-3,6(l//,2//)-diones add halogens to the 4,5-double bond, followed by dehydrohalogenation to give 4-halo derivatives. 1,2-Disubstituted 5-bromopyridazine-3,6(l//,2F0 diones react with bromine to give the corresponding 4,5-dibromo derivative. The Mannich reaction with 2-arylpyridazin-3(2//)-one occurs at position 4. 

Mannich reaction with pyridazinone 1-oxides takes place at the a- or y-positions relative to the iV-oxide group, in contrast to the reaction in the pyridazinone series, where N-substituted products are formed. Pyridazin-3(2FT)-one 1-oxide gives first the corresponding 6-substituted derivative with excess of the reagents, 4,6-disubstituted products are obtained. When position 6 is blocked the corresponding 4-dialkylaminomethyl derivatives are obtained. 

An indole protected by a Mannich reaction with formaldehyde and dimethyl-amine is stable to lithiation. The protective group is removed with NaBH4 (EtOH, THE, reflux). The related piperidine analogue has been used similarly for the protection of a triazole. ... 

In a modified approach, the carbolinyl acetate 393 underwent a Mannich reaction with formaldehyde and acetone to give the keto ester 396 which, with base, cyclized to the diketone 397. This diketone (397) has recently been used to prepare a number of interesting pentacyclic compounds. 

The derivative from an isomeric fused system has been described as a sedative-hypnotic compound. The synthesis starts by condensation of the aminopicoline 32 with the haloketone 33. The resulting pyrrolo[l,2-a]pyridine 34 then undergoes a Mannich reaction with formaldehyde and dimethylamine to give the aminomethylated derivative 35. After quatemization of the di-methylamino group in 35 with methyl iodide, the ammonium group is displaced by cyanide to... 

Enolate-Mediated Mannich Reactions with Methyleneiminium Salts... 

The three examples in Table 9 show Mannich reactions with 7V,A -dimethyl(methylene)im-inium salts. In the case of 5, a d.r. (exo/endo) 20 80 of the products was reported3 0. 

Recent efforts in the development of efficient routes to highly substituted yS-ami-no acids based on asymmetric Mannich reactions with enantiopure sulfmyl imine are worthy of mention. Following the pioneering work of Davis on p-tolu-enesulfmyl imines [116], Ellman and coworkers have recently developed a new and efficient approach to enantiomerically pure N-tert-butanesulfmyl imines and have reported their use as versatile intermediates for the asymmetric synthesis of amines [91]. Addition of titanium enolates to tert-butane sulfmyl aldimines and ketimines 31 proceeds in high yields and diastereoselectivities, thus providing general access to yS -amino acids 32 (Scheme 2.5)... 

Inclusion of an acetylenic linkage as part of the side chain is apparently consistent with antidepressant activity. Reaction of propargyl magnesium bromide with dibenzocycloheptadieneone leads to carbinol 82. A Mannich reaction with formaldehyde and dimethylamine leads to 83 which, upon dehydration... 

A beautiful example of a domino [3+3]-sigmatropic rearrangement is the synthesis of the enantiopure antifungal antibiotic (-)-preussin (4-14) by Overman [5], which starts from the amine 4-10 and decanal to give the iminium ion 4-11 (Scheme 4.3). This undergoes a [3+3]-sigmatropic rearrangement to provide 4-12, followed by a Mannich reaction with the formation of 4-13. 

Even though the CMR and MBR operate under conditions in which pressure is developed, gaseous reactants or media often can be handled in these systems without problems arising through over-pressure. Mannich reactions with dimethylamine, Baylis-Hillman reactions with formaldehyde, aminoreductone formation with ammonia, all proceeded without difficulty, as did Willgerodt reactions in which gases are formed during the process. 

Malonic ester syntheses, 30, 7 Malononitrile, 37, 53 Malonyl dichloride, 33, 20 Mandelic acid, 36, 3 Mandelic acid, />-bromo, 35,11 Mannich reaction, with acetone, 37,18 Mercaptoacetaldehyde, diethyl ACETAL, 35, 51... 

Silyl Nitronates in the Mannich Reaction The Mannich reaction with SENAs (Scheme 3.194) was also modified (459). This reaction in nonpolar solvents produced previously unavailable 3-nitroamines (331), which are unstable in water and other protic solvents. 

Scheme 6.30. Zr-catalyzed enantioseiective Mannich reactions with chiral VAPOL ligands remarkably, reactions remain as enantioseiective at 100 °C as they are at 25 °C. Deprotection to give the fi-amino ester is carried out in a single step.

Mannich and double-Mannich reaction with [l,2,4]triazolo[3,4- ]benzothiazole-3-thione 178 and />-toluidine, phenylenediamine, and benzidine, in the presence of formaldehyde, gave compounds 72-74 (unreported yields) (Scheme 3) <2002MI3, 2002MI4>. 

Oxyiminium cations formed from iV,0-diaIkyhydroxylamines and formaldehyde are sufficiently reactive for Mannich reactions with activated arenes. Mannich reactions of oxyiminium cations with indoles (e.g. 74, equation 48) " as well as pyrroles and furans but not phenol and thiophene have been reported. 

The groups of Rueping [25] and Gong [26] have developed the aza-hetero-Diels-Alder reaction of aryl imines and cyclohexenone to give isoquinuclidines in good endojexo selectivities and high yields and ee s by 1 and la, respectively (Scheme 5.13). In the presence of acid, cyclohexenone enolizes to afford the dienol which subsequently undergoes a Mannich reaction with the protonated aldimine followed by intramolecular aza-Michael addition to produce the formal Diels-Alder adducts. 

Dixon reported that saturated BINOL 45 sufficiently activates various N-Boc aryl imines toward Mannich reaction with acetophenone-derived enamines to yield P-amrno aryl ketones in good yields and enantioselectivities (Scheme 5.62) [116]. The same group applied a BINOL-derived tetraol catalyst to the addition of meth-yleneaminopyrroHdine to N-Boc aryl imines. Interestingly, appendage of two extra diarymethanol groups to the BINOL scaffold resulted in a marked increase in enantiomeric excess [117]. 

Regioselective aminomethylation and subsequent cyclization of methyl 2,4-dihydroxybenzoate 517 was accomplished through a Mannich reaction with formaldehyde and primary amines in methanol to yield 3-substituted-3,4-dihydro-2/7-l,3-benzoxazine derivatives 518 (Equation 60). Simultaneous mixing of the reactants resulted in poor yields, but good yields were achieved by the pretreatment of paraformaldehye with a primary amine to form a Schiff base, followed by the addition of compound 517 <2001TL7273>. 

As a further illustration of the reactivity of the 3 position toward electrophiles, the methoxyindole (25-1) readily undergoes Mannich reaction with formaldehyde and dimethylamine to afford the aminomethylated derivative (25-2). Treatment of that intermediate with potassium cyanide leads to the displacement of dimethylamine and the formation of the nitrile (25-3), possibly by an elimination-addition sequence involving a 3-exomethylene-indolenine intermediate. The protons on the methylene group adjacent to the nitrile are quite acidic and readily removed. Reaction of (25-3) with methyl carbonate in the presence of sodium methoxide gives the carbo-methoxylated derivative (25-4). Catalytic hydrogenation leads to reduction of the nitrile to a primary amine. There is thus obtained the antihypertensive agent indorenate (25-5) [26]. 

The work on organocatalytic aldol condensation continues unabated. In a recent advance, Armando Cdrdova of Stockholm University has found Angew. Chem. Int. Ed. 2004,43, 6528) that (S)-proline also will catalyze the Mannich reaction with high enantiomeric excess. Acyclic ketones also participate efficiently. 

Notes Useful reagents for Mannich reactions with active methylene compounds. Particularly useful for the preparation of exo methylene groups. 

Oxazolidin-2-one (202) has been attached to poly(ethylenimine) (203) by Mannich reaction with formaldehyde (Scheme 97) (72NKK1179). The resultant polymer (204) was a... 

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