Asymmetric synthesis with a chiral catalyst generated from asymmetric autocatalysis

Asymmetric autocatalysis. Chiral symmetry breaking and the origins of homochirality of organic molecules

Biological homochirality, such as that of l-amino acids, has been a puzzle with regards to the chemical origin of life. Asymmetric autocatalysis is a reaction in which a chiral product acts as an asymmetric catalyst to produce more of itself in the same absolute configuration. 5-Pyrimidyl alkanol was found to act as an asymmetric autocatalyst in the enantioselective addition of diisopropylzinc to pyrimidine-5-carbaldehyde. Asymmetric autocatalysis of 2-alkynyl-5-pyrimidyl alkanol with an extremely low enantiomeric excess of ca. 0.00005% exhibited significant asymmetric amplification to afford the same pyrimidyl alkanol with >99.5% enantiomeric excess and with an increase in the quantity of the same compound. We have employed asymmetric autocatalysis to examine the origin of homochirality. Asymmetric autocatalysis triggered by circularly polarized light, chiral minerals such as quartz, chiral organic crystals composed of achiral compounds gave highly enantioenriched pyrimidyl alkanol with absolute configurations corresponding with those of the chiral triggers. Absolute asymmetric synthesis without the intervention of any chiral factor was achieved. Chiral isotopomers acted as chiral triggers of asymmetric autocatalysis.

Asymmetric Autocatalysis as a Relay for Remote Amplification of Chirality of Target Molecules Used as Triggers

Nearly racemic target molecules are enantiomerically enriched through an asymmetric autocatalytic relay for a remote amplification of chirality. Target alkynols with very low initial ee act as chiral triggers for asymmetric amplification of the Soai autocatalyst, which in turn enables the formation of the same alkynols with greater enantiomeric purity. Additionally, the stereochemical correlation between the trigger/target and autocatalyst molecules is discussed.

Fast methods of enantiopurity determination for the Soai reaction: Towards a general enantioenrichment detector?

The Soai reaction system possesses a remarkable combination of characteristics (enantioselective autocatalysis, strong positive nonlinearity leading to asymmetric amplification, ability to be triggered by wide variety of exogenous enantioenriched materials) that make it a potential starting point for a generalized detector for enantioenrichment. In this study we apply standard approaches used in pharmaceutical process research to the problem of developing a rapid method for analysis of the enantiopurity of the Soai reaction product. Several methods for rapid analysis (<1 min per sample) are described, including an approach using chiral supercritical fluid chromatography (SFC) and an approach using achiral chromatography with circular dichroism (CD) detection. Some thoughts on incorporation into a device for generalized enantioenrichment detection are presented.