Rare sugars have received increasing attention due to their important applications as sweeteners and building blocks. The substrate specificity and catalytic properties of ribose-5-phosphate isomerase A (RpiA) in isomerization of rare sugars have not been extensively explored. In this study, an RpiA from Ochrobactrum sp. CSL1 was cloned and expressed in Escherichia coli. The biochemical and reaction features were explored and its broad substrate specificity was identified. A higher reaction rate in isomerizing l-rhamnose to l-rhamnulose by OsRpiA, compared with OsRpiB found in the same strain indicated higher efficiency in preparing rare sugars, which was verified by kinetics study. The 2.8 Å resolution structure of OsRpiA was then solved and used in subsequent molecular dynamics experiments, providing a possible explanation for its distinct substrate specificity. The present study highlighted the unique role of microbial RpiA in preparing rare sugars, and its structural information provided a reliable reference for further reaction mechanism research and enzyme engineering work.
Keywords: Biocatalysis; Crystal structure; Ochrobactrum; Rare sugar; Ribose-5-phosphate isomerase; l-Rhamnose.
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