Abstract

The marine bioluminescent bacterium Photobacterium phosphoreum expresses a bifunctional methylenetetrahydrofolate dehydrogenase-cyclohydrolase with dual cofactor specificity. An investigation of the kinetic parameters of the P. phosphoreum enzyme indicate that its utilization of dinucleotide cofactors shares similarities with the human mitochondrial dehydrogenase-cyclohydrolase. Both enzymes exhibit dual cofactor specificity and the NAD +-dependent dehydrogenase activities from both enzymes can be activated by inorganic phosphate. Furthermore, an analysis of multiply aligned dehydrogenase-cyclohydrolase sequences from 11 species revealed that bacterial and mitochondrial enzymes are more closely related to each other than to the dehydrogenase-cyclohydrolase domains from eukaryotic bifunctional enzymes, and that the bacterial and mitochondrial enzymes share a common point of divergence. Since the NADP + cofactor is kinetically favoured by a factor of 18 over NAD +, and is therefore likely to be the preferred in vivo cofactor, we propose that the P. phosphoreum enzyme and the human mitochondrial enzyme evolved from a common ancestral dehydrogenase-cyclohydrolase with dual cofactor specificity, but that cofactor preference in these two enzymes diverged in response to different metabolic requirements.

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