Chapter 9 - The Role of Homochirality in Evolution

Abstract

The presence and biological role of enantiomers of chiral biomolecules, enzymes, the change of D-amino acid level, and the study of reactions show that homochirality is a relativistic concept and is a continuous process during the life span of an individual organism and during the entire history of evolution. The recognition of homochirality in nature and its development has opened a new way to understand the relationship between homochirality and evolution, and the role of homochirality in evolution. The presence and biological role of two enantiomers of chiral biomolecules and two oxidases show that racemization and its reverse process are also proceeding in living organisms indicating that homochirality is a very complex phenomenon. It is necessary to understand the nature of racemization, antiracemization, and homochirality. The presence of these and their biological role in different species are variable. This may demonstrate a certain relationship between homochirality and evolution.