Amination reactions Brpnsted base catalysis

Some of the most important evidence for the two-step mechanism comes from studies of base catalysis, in this regard, reactions involving primary and secondary amines have played a central role1-5. The initially formed cx-adduct, 1, is zwitterionic and contains an acidic proton, which can be removed by a base which may be the nucleophile itself. Conversion of 1 to products can then occur via the uncatalysed k2 pathway or via the base-catalysed hl pathway. The influence of Brpnsted base catalysis, the experimental observation of 1,1- and 1,3-cr-adducts, the sensitivity of the system to medium effects, are some experimental evidence of the mechanism depicted in equation 1. 

The reaction was found to be first order with respect to amines and acrylamides and no base catalysis was observed. The reaction is believed to occur in a single step in which the addition of amine to Cp of acrylamide and proton transfer from amine to Ca of acrylamide take place concurrently with a four-membered cyclic transition-state structure. The Hammett (px) and Brpnsted (/3X) coefficients are rather small, suggesting an early transition state (TS). The sign and magnitude of the cross-interaction constant, pxy(= —0.26), is comparable to those found in the bond formation processes in the. S n2 and addition reactions. The normal kinetic isotope effect ( h/ d > 1.0) and relatively low A and large negative Avalues are also consistent with the mechanism proposed.192... 

Abstract The organocatalytic asymmetric Mannich reaction and the related aza-Morita-Baylis-Hillman have been reviewed. The activities in this field have been snbdivided based on the types of catalysts that have been ntilized, which includes catalysis by enamine-forming chiral amines, chiral Br0nsted bases, chiral Brpnsted acids, and phase-transfer catalysts. 

Chen et al. [26] reported the use of a bifunctional thiourea catalyst 61 during the organocatalyzed thia-Michael addition of thiophenol to unsaturated imide 58c (Scheme 3.29). Michael adduct 60c was obtained in 60% ee and 97% yield by conducting the reaction in dichloromethane at -78°C. The authors speculated that while the tertiary amine of the bifunctional catalyst 61 would act as a proton shuttle according to a Brpnsted acid/base catalysis, the presence of the thiourea moiety might possibly cooperate in the stabilization of the more stable Z-enolate intermediate via hydrogen bond formation as illustrated in Scheme 3.31. 

Based on previous studies where the imines were reduced with Hantzsch dihydropyridines in the presence of achiral Lewis [43] or Brpnsted acid catalysts, [44] joined to the capacity of phosphoric acids to activate imines (for reviews about chiral phosphoric acid catalysis, see [45-58]), the authors proposed a reasonable catalytic cycle to explain the course of the reaction (Scheme 3) [41]. A first protonation of the ketimine with the chiral Brpnsted acid catalyst would initiate the cycle. The resulting chiral iminium ion pair A would react with the Hantzsch ester lb giving an enantiomerically enriched amine product and the protonated pyridine salt B (Scheme 3). The catalyst is finally recovered and the byproduct 11 is obtained in the last step. Later, other research groups also supported this mechanism (for mechanistic studies of this reaction, see [59-61]). 

Wanner et al. developed an efficient Pictet-Spengler reaction of secondary amines and aldehydes via the formation of active sulfenyliminium ions in situ from N-sulphenyltryptamine 16, catalyzed by chiral Brpnsted acids 5d (Scheme 2.6b) [9a], The enantioselectivity may be delivered from asymmetric counterion-directed catalysis [9a], Based on a similar strategy, they achieved the total synthesis of (+)-yohimbine via a phosphoric acid-catalyzed Pictet-Spengler reaction, which employed an A -(5-oxy-2,4-pentadienyl)tryptamine derivative and methyl 5-oxo-2(phenylseleno)pentanoate as starting materials [9b],... 

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