Abstract
Asymmetric CC bond formation catalyzed by aldolases requires the supplementation of nucleophiles and receptors in the reaction medium. However, aldol condensation using a single ketone as substrate has never been reported yet. In this work, we discovered that d-fructose-6-phosphate aldolase (FSA) could convert two 1-hydroxyalkanones, such as hydroxyacetone (HA) and 1-hydroxy-2-butanone, into two type of diketones. The initial product synthesis rate increased 3-fold and the yield reached to 56 %, when pure oxygen was directly inputted into the reaction medium. The results confirmed that oxygen participated in this reaction and hydrogen peroxide was generated. Metal ions Co2+ and Cu2+ remarkably increased the conversion yield compared with the control. For this reaction mechanism, we conjectured that HA may be oxidized to methylglyoxal by enzyme FSA in the presence of oxygen in the medium, and then FSA catalyzes the aldol addition between HA and its oxidative product MG to form diketone products. The obtained diketones could serve as important precursors for preparing furans and pyrroles.
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