Quantitative Difference in Solubility of Diastereomeric (²H/¹H)-Isotopomers

Abstract: Many achiral organic compounds become chiral by an isotopic substitution of one of the enantiotopic moieties in their structures. Although spectroscopic methods can recognize the molecular chirality due to an isotopic substitution, the effects of isotopically chiral compounds in enantioselective reactions have remained unsolved because the small chirality arises only from the difference between the number of neutrons in the atomic nuclei. The difference between the diastereomeric isotopomers of reactive source… Show more

“…Because d - and l -α-amino acids can act as a chiral trigger for the amplification of their own d - and l -intermediate aminonitriles, respectively, the process, including hydrolysis, represents the self-replication of chiral α-amino acids. 43 In addition, the enantiotopic single-crystal face of achiral imine 25 and isotopically chiral amine arising from 2 H/ 1 H substitution 44 are responsible for the enantioselective synthesis of aminonitriles. Therefore, further research on the asymmetric Strecker-type reaction using a chiral crystal of racemic cyanohydrin would expand the focus on the origin and induction of enantioenriched α-amino acids (Fig.…”

Asymmetric Strecker reaction at the solid/solid interface

“…Because d - and l -α-amino acids can act as a chiral trigger for the amplification of their own d - and l -intermediate aminonitriles, respectively, the process, including hydrolysis, represents the self-replication of chiral α-amino acids. 43 In addition, the enantiotopic single-crystal face of achiral imine 25 and isotopically chiral amine arising from 2 H/ 1 H substitution 44 are responsible for the enantioselective synthesis of aminonitriles. Therefore, further research on the asymmetric Strecker-type reaction using a chiral crystal of racemic cyanohydrin would expand the focus on the origin and induction of enantioenriched α-amino acids (Fig.…”

Asymmetric Strecker reaction at the solid/solid interface

Asymmetric Autocatalysis as an Efficient Link Between the Origin of Homochirality and Highly Enantioenriched Compounds

Between Theory and Practice: Computational/Experimental Integrated Approaches to Understand the Solubility and Lipophilicity of PROTACs