Engineering the active site of ascorbate peroxidase

Ayhan Çelik, Paul M. Cullis, Michael J. Sutcliffe, Rajesh Sangar, Emma Lloyd Raven

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The oxidation of a number of thioethers, namely methyl phenyl sulphide (1), ethyl phenyl sulphide (2), isopropyl phenyl sulphide (3), n-propyl phenyl sulphide (4), p-chlorophenyl methyl sulphide (5), p-nitrophenyl methyl sulphide (6) and methyl naphthalene sulphide (7), by recombinant pea cytosolic ascorbate peroxidase (rAPX) and a site-directed variant of rAPX in which the distal tryptophan 41 residue has been replaced with an alanine (W41A) has been examined. The electronic spectrum (pH 7.0, μ = 0.10 M, 25.0 °C) for the ferric derivative of W41A (λmax/nm = 411, 534, 560, 632) is indicative of an increased quantity of 6-coordinate, high-spin and/or 6-coordinate, low-spin haem compared to rAPX. Steady state oxidation of sulphides 1-4 and 7, gave values for kcat that are approximately 10-fold and 100-fold, respectively, higher for W41A than for rAPX. For rAPX, essentially racemic mixtures of R- and S-sulphoxides were obtained for all sulphides. With the exception of sulphide 7, the W41A variant shows substantial enhancements in enantioselectivity, with R:S ratios varying between R:S = 63:37 (sulphides 1 and 4) and R:S = 85:15 (sulphide 6). Incubation of sulphide 2 with rAPX or W41A and [18O] H2O2 shows 95% (rAPX) and 96% (W41A) transfer of labelled oxygen to the substrate. Structure-based modelling techniques have provided a fully quantitative rationalization of all the experimentally determined R:S ratios and have indicated that reorientation of the sidechain of Arg38, such that access to the haem is much less restricted, is influential in controlling the stereoselectivity for both rAPX and W41A.
    Original languageEnglish
    Pages (from-to)78-85
    Number of pages7
    JournalEuropean Journal of Biochemistry
    Volume268
    Issue number1
    DOIs
    Publication statusPublished - 2001

    Keywords

    • Ascorbate peroxidase
    • Peroxidase
    • Sulphoxidation

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