Abstract
SidA (siderophore A) is a flavin-dependent N-hydroxylating monooxygenase that is essential for virulence in Aspergillus fumigatus. SidA catalyzes the NADPH- and oxygen-dependent formation of N(5)-hydroxyornithine. In this reaction, NADPH reduces the flavin, and the resulting NADP(+) is the last product to be released. The presence of NADP(+) is essential for activity, as it is required for stabilization of the C4a-hydroperoxyflavin, which is the hydroxylating species. As part of our efforts to determine the molecular details of the role of NADP(H) in catalysis, we targeted Ser-257 for site-directed mutagenesis and performed extensive characterization of the S257A enzyme. Using a combination of steady-state and stopped-flow kinetic experiments, substrate analogs, and primary kinetic isotope effects, we show that the interaction between Ser-257 and NADP(H) is essential for stabilization of the C4a-hydroperoxyflavin. Molecular dynamics simulation results suggest that Ser-257 functions as a pivot point, allowing the nicotinamide of NADP(+) to slide into position for stabilization of the C4a-hydroperoxyflavin.
Highlights
SidA is a flavin-dependent monooxygenase that catalyzes the hydroxylation of ornithine and is essential for virulence in Aspergillus fumigatus
SidA is a flavin-dependent N-hydroxylating monooxygenase that is essential for virulence in Aspergillus fumigatus
Flavin-dependent monooxygenases catalyze the stereospecific insertion of an oxygen atom into a variety of substrates
Summary
SidA is a flavin-dependent monooxygenase that catalyzes the hydroxylation of ornithine and is essential for virulence in Aspergillus fumigatus. Class B flavin-dependent monooxygenases are a family of enzymes that catalyze NADPH- and oxygen-dependent hydroxylation, epoxidation, and ester bond formation on a variety of substrates [1, 2]. The position of NADPϩ suggests that it undergoes conformational changes after the hydride transfer step This has been termed the sliding mechanism of NADP(H) in this family of enzymes [14, 15]. We present biochemical data showing that Ser-257 plays an important role in the sliding mechanism of NADPϩ by acting as the pivot point, allowing the nicotinamide ring to slide into the position essential for stabilization of the C4a-hydroperoxyflavin
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