Abstract
Paracoccus denitrificans methylamine dehydrogenase (MADH) is an enzyme containing a quinone cofactor tryptophan tryptophylquinone (TTQ) derived from two tryptophan residues (betaTrp(57) and betaTrp(108)) within the polypeptide chain. During cofactor formation, the two tryptophan residues become covalently linked, and two carbonyl oxygens are added to the indole ring of betaTrp(57). Expression of active MADH from P. denitrificans requires four other genes in addition to those that encode the polypeptides of the MADH alpha(2)beta(2) heterotetramer. One of these, mauG, has been shown to be involved in TTQ biogenesis. It contains two covalently attached c-type hemes but exhibits unusual properties compared to c-type cytochromes and diheme cytochrome c peroxidases, to which it has some sequence similarity. To test the role that MauG may play in TTQ maturation, the predicted proximal histidine to each heme (His(35) and His(205)) has each been mutated to valine, and wild-type MADH was expressed in the background of these two mauG mutants. The resultant MADH has been characterized by mass spectrometry and electrophoretic and kinetic analyses. The majority species is a TTQ biogenesis intermediate containing a monohydroxylated betaTrp(57), suggesting that this is the natural substrate for MauG. Previous work has shown that MADH mutated at the betaTrp(108) position (the non-oxygenated TTQ partner) is predominantly also this intermediate, and work on these mutants is extended and compared to the MADH expressed in the background of the histidine to valine mauG mutations. In this study, it is unequivocally demonstrated that MauG is required to initiate the formation of the TTQ cross-link, the conversion of a single hydroxyl located on betaTrp(57) to a carbonyl, and the incorporation of the second oxygen into the TTQ ring to complete TTQ biogenesis. The properties of MauG, which are atypical of c-type cytochromes, are discussed in the context of these final stages of TTQ biogenesis.
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