Mannich double

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. 

Intramolecular Mannich reactions of iminium 1 and acyliminium ions (see Section D.1.4.5.) with electron-rich double bonds are important reactions in the synthesis of naturally occurring alkaloids. In general, the iminium ions are not isolated but produced as intermediates. 

Formal isomerization of the double bond of testosterone to the 1-position and methylation at the 2-position provides yet another anabolic/androgenic agent. Mannich condensation of the fully saturated androstane derivative 93 with formaldehyde and di-methylamine gives aminoketone 94. A/B-trans steroids normally enolize preferentially toward the 2-position, explaining the regiospecificity of this reaction. Catalytic reduction at elevated temperature affords the 2a-methyl isomer 95. It is not at all unlikely that the reaction proceeds via the 2-methylene intermediate. The observed stereochemistry is no doubt attributable to the fact that the product represents the more stable equatorial isomer. The initial product would be expected to be the p-isomer but this would experience a severe 1,3-diaxial non-bonded interaction and epimerize via the enol. Bromination of the ketone proceeds largely at the tertiary carbon adjacent to the carbonyl (96). Dehydrohalogenation... 

Tropinone is a structural component of several alkaloids, including atropine. The synthesis is based on a double Mannich process with iminium ions as intermediates. The Mannich reaction in itself is a three-component domino process, which is one of the first domino reactions developed by humankind. 

In 2003, Williams and Mander reported a method designed to access the hetisine alkaloids (Scheme 1.3) [27]. This approach, based upon a previously disclosed strategy by Shimizu et al. [28], relied on arylation of a bridgehead carbon via a carbocation intermediate in the key step. Beginning with (1-keto ester 46, double Mannich reaction provided piperidine 47. Following a straightforward sequence, piperidine 47 was transformed to the pivotal bromide intermediate 48. In the key step, bromide 48 was treated with silver (I) 2,4,6-trinitrobenzenesulfonate in nitro-methane (optimized conditions) to provide 49 as the most advanced intermediate of the study, in 54 % yield. 

The final step to 46 is cyclocondensation of 3,7-diazabicyclo[3.3.1]nonane (51), bispidine70, with formaldehyde. There are two different approaches to 51 (i) a pyridine is converted to a piperidine and (ii) the double Mannich or Robinson-Schopf condensation of ketone 52 with formaldehyde and primary amines affords 1,5-disubstituted 3,7-dazabicyclo[3.3.1]nonan-9-one (53), bispidone, from which 5,7-disubstituted l,3-diazaadamantan-6-one (61) is derived. Route (i) is adopted by Galinovsky and Langer,71 Stetter and... 

This chapter has introduced the aldol and related allylation reactions of carbonyl compounds, the allylation of imine compounds, and Mannich-type reactions. Double asymmetric synthesis creates two chiral centers in one step and is regarded as one of the most efficient synthetic strategies in organic synthesis. The aldol and related reactions discussed in this chapter are very important reactions in organic synthesis because the reaction products constitute the backbone of many important antibiotics, anticancer drugs, and other bioactive molecules. Indeed, study of the aldol reaction is still actively pursued in order to improve reaction conditions, enhance stereoselectivity, and widen the scope of applicability of this type of reaction. 

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>. 

The key step of the synthesis, which involved a classical Mannich condensation in the synthesis by Evans and Scott (as well as in the biogenesis of alkaloids in general [10]), is substituted by a 1,3-dipolar cycloaddition of a nitrone to a carbon-carbon double bond [11] which provides an alternative route for the formation of a new C(l)-C(2) bond with the concomitant creation of a 1,3-consonant relationship between an oxygen atom and a dialkylamino group. In order to arrive at a typical Mannich base two more steps are, however, necessary. The similarity between the two processes is shown is Scheme 13.2.7 ... 

Takemoto et al. discovered N-phosphinoyl-protected aldimines as suitable electrophilic substrates for the enantioselective aza-Henry [224] (nitro-Mannich) reaction [72] with nitromethane, when utilizing thiourea 12 (10mol%) as the catalyst in dichloromethane at room temperature [225]. The (S)-favored 1,2-addition of nitromethane to the electron-deficient C=N double bond allowed access to various P-aryl substituted N-phosphinoyl-protected adducts 1-5 in consistently moderate to good yields (72-87%) and moderate enantioselectivities (63-76%) as depicted in Scheme 6.73. Employing nitroethane under unchanged reaction conditions gave adduct 6 as a mixture of diastereomers (dr 73 27) at an ee value of 67% (83% yield) of the major isomer (Scheme 6.73). 

Oehrberg S, Christiansen PE, Behnke K, Borup AL, Severin B, Soegaard J, Calberg H, Judge R, Ohrstrom JK, Manniche PM (1995) Paroxetine in the treatment of panic disorder. A randomised, double-blind, placebo-controUed study. Br J Psychiatry 167 374-379... 

There are cases in which appropriate modification of one unsaturated oxazolone yields a new unsaturated oxazolone analogue. Most of the examples described in the literature involve modification of the substituent on the exocyclic double bond. For example, a series of 4-[2-hydroxy-3-(aminomethyl)benzylidene]-5(4//)-oxazo-lones 382 that were evaluated for bactericidal and fungicidal activities were obtained from Mannich reaction of 4-(2-hydroxybenzylidene)-5(4//)-oxazolones 381 (Scheme 7.123). ... 

A similar vinylogous Mannich reaction has been used by Martin in the total syntheses of the heteroyohimboid alkaloids (—)-ajmalicine and (—)-tetrahydroalstonine <1995JOC3236>. An attempted synthesis of an opioid analgesic 2,4-dibenzyl-3,7-diazabicyclo[3.3.1]nonan-9-one-l,5-dicarboxylate (piperidone) by a double Mannich reaction of oxoglutarate, 2 equiv of phenylacetaldehyde, and methylamine did not give the expected product but instead gave rise to an unexpected [l,6]naphthyridine derivative (Scheme 57) <1998PHA442>. 

Systematic bond disconnection of porantherine [151] with recognition of the double bond-carbonyl equivalence for synthesis generated a synthetic pathway which is based on two intramolecular Mannich reactions. The symmetrical nature of the amino diketone precursor identified by the retrosynthetic analysis facilitates its preparation and subsequent transformations. Moreover, all the hetero atoms (donors) are separated by odd-numbered carbon chains and such arrangements are most amenable to normal modes of assembly. 

Iminium salts (182) were starting materials in reactions with enamines (93CB133 94CB1437), which proceed by two different pathways with the formation of bicyclic ketones (183) and with the formation of substituted pyridines. The authors assume that the reaction takes place by a double electrophilic attack of the salt (182) in the /3-positions of the enamine and the resulting immonium cations undergo a retro-Mannich type of reaction with the opening of one of the piperidine rings. 

Keywords Catalyst, Alkylation, Allylation, Arylation, Mannich reaction, Carbon-nitrogen double bond, Imine, Nitrone, Aldimine, Organozinc reagents, Silyl ketene acetal, Silyl enol ether, Amine, (3-Amino acid... 

Scheme 12.1. Racemic synthesis of tropinone using a double Mannich 3CR, by Robinson [4].

In the alternative Mannich route to the spiro intermediate 14, the indole ring of 4 is oxidized first. The resulting oxoindoline 11 is then converted by treatment with senecialdehyde (5, prenal ) into a mixture of four diastereomers of compound 12, which are acetylated, as a mixture, to 14. The two total syntheses differ with respect to the formation of the diketopiperazine structure and the introduction of the C8-C9 double bond of spirotryprostatin B (2), with quite divergent overall yields. 

Mannich cyclization. Reaction of the alkynylamine 1 with formaldehyde, sodium iodide (3 equiv.), and camphorsulfonic acid (CSA, 1 equiv.) results directly in the piperidine 2 in 81-90% yield. In the absence of Nal, no cyclization is observed even after a reaction at 100° for 3 hours. The vinylic iodide group is useful for elaboration to exocyclic tetrasubstituted double bonds. 

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