Isolation and characterization of AaAER, a novel double bond reductase from Artemisia annua

We isolated a 2-alkenal reductase (AaAER) gene from Artemisia annua L. cDNA library through homologous cloning strategy. Enzymatic properties of AaAER, including substrate selectivity, enzyme kinetics, and key factors affecting enzyme activity, were characterized in vitro. We found that AaAER mainly functions in catalyzing the reduction of adjacent straight chain “C = C” double bond in the carbonyl group. This suggests the possibility of its participation in downstream events of the HPL (hydroperoxide lyase) pathway and contribution to cell detoxification in plants. Although, AaAER shares some substrates with AaDbr 1 and AaDbr 2, which are involved in artemisinin biosynthesis, AaAER was unable to reduce the adjacent double bond of carbonyl group in artemisinic aldehyde. We also analyzed the possible causes for highly homologous reductases with different types of substrates and non-homologous enzymes sharing the same substrate. The identification of a novel double bond reductase in A. annua provides an opportunity to explore the mechanism underlying the detoxification of aldehyde ketone molecules, which are generated by HPL downstream pathway and the redox process in the metabolic pathway of artemisinin synthesis.