The identification of the coproporphyrin-dependent heme biosynthetic pathway, which is used almost exclusively by monoderm bacteria, in 2015 by Dailey and coworkers triggered studies aimed at investigating the enzymes involved in this pathway that were originally assigned to the protoporphyrin-dependent heme biosynthetic pathway. Here we revisit the active site of coproporphyrin ferrochelatase by a biophysical and biochemical investigation using the physiological substrate coproporphyrin III, which in contrast to the previously used substrate protoporphyrin IX has four propionate substituents and no vinyl groups. In particular, we have compared the reactivity of wild-type coproporphyrin ferrochelatase from the firmicute Listeria monocytogenes with those of variants, namely H182A and E263Q, involving two key active site residues. Interestingly, both variants are active only towards the physiological substrate coproporphyrin III but inactive towards protoporphyrin IX. In addition, E263 is impairing the final oxidation from ferrous coproheme to ferric coproheme. The characteristics of the active site in terms of the residues involved and the substrate binding properties are discussed by structural and functional means, providing a further contribution to the deciphering of the enigmatic reaction mechanism.
Revisiting catalytic His and Glu residues in coproporphyrin ferrochelatase - unexpected activities of active site variants / Gabler, Thomas; Dali, Andrea; Bellei, Marzia; Sebastiani, Federico; Becucci, Maurizio; Battistuzzi, Gianantonio; Georg Furtmüller, Paul; Smulevich, Giulietta; Hofbauer, Stefan. - In: THE FEBS JOURNAL. - ISSN 1742-4658. - 291:10(2024), pp. 2260-2272. [10.1111/febs.17101]
Revisiting catalytic His and Glu residues in coproporphyrin ferrochelatase - unexpected activities of active site variants
Marzia Bellei;Gianantonio Battistuzzi;
2024
Abstract
The identification of the coproporphyrin-dependent heme biosynthetic pathway, which is used almost exclusively by monoderm bacteria, in 2015 by Dailey and coworkers triggered studies aimed at investigating the enzymes involved in this pathway that were originally assigned to the protoporphyrin-dependent heme biosynthetic pathway. Here we revisit the active site of coproporphyrin ferrochelatase by a biophysical and biochemical investigation using the physiological substrate coproporphyrin III, which in contrast to the previously used substrate protoporphyrin IX has four propionate substituents and no vinyl groups. In particular, we have compared the reactivity of wild-type coproporphyrin ferrochelatase from the firmicute Listeria monocytogenes with those of variants, namely H182A and E263Q, involving two key active site residues. Interestingly, both variants are active only towards the physiological substrate coproporphyrin III but inactive towards protoporphyrin IX. In addition, E263 is impairing the final oxidation from ferrous coproheme to ferric coproheme. The characteristics of the active site in terms of the residues involved and the substrate binding properties are discussed by structural and functional means, providing a further contribution to the deciphering of the enigmatic reaction mechanism.File | Dimensione | Formato | |
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