Hydrogen biomimetic sources

The catalytic, asymmetric hydrogenations of alkenes, ketones and imines are important transformations for the synthesis of chiral substrates. Organic dihydropyridine cofactors such as dihydronicotinamide adenine dinucleotide (NADH) are responsible for the enzyme-mediated asymmetric reductions of imines in living systems [86]. A biomimetic alternative to NADH is the Hantzsch dihydropyridine, 97. This simple compound has been an effective hydrogen source for the reductions of ketones and alkenes. A suitable catalyst is required to activate the substrate to hydride addition [87-89]. Recently, two groups have reported, independently, the use of 97 in the presence of a chiral phosphoric acid (68 or 98) catalyst for the asymmetric transfer hydrogenation of imines. 

Based on the above activation mechanism we wondered whether it would be possible to develop a biomimetic, organocatalytic reductive amination or transfer hydrogenation of ketimines. We reasoned that the activation of the imine by catalytic protonation through the Brpnsted acid should enable the hydrogen transfer from a suitable NADH mimic to yield the corresponding amine (Fig. 2). Hence, initial experiments focused on the examination of various Brpnsted acids in combination with different hydride sources (Rueping et al. 2005a). 

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