par Wilquet, Valérie 
;Van De Casteele, Christine ;Gigot, Daniel ;Legrain, Christiane ;Glansdorff, Nicolas
Référence Journal of bacteriology, 186, 2, page (351-355)
Publication Publié, 2004-01
;Van De Casteele, Christine ;Gigot, Daniel ;Legrain, Christiane ;Glansdorff, Nicolas Référence Journal of bacteriology, 186, 2, page (351-355)
Publication Publié, 2004-01
Article révisé par les pairs
| Résumé : | A strategy devised to isolate a gene coding for a dihydrofolate reductase from Thermus thermophilus DNA delivered only clones harboring instead a gene (the T. thermophilus dehydrogenase [DHTt] gene) coding for a dihydropteridine reductase which displays considerable dihydrofolate reductase activity (about 20% of the activity detected with 6,7-dimethyl-7,8-dihydropterine in the quinonoid form as a substrate). DH Tt appears to account for the synthesis of tetrahydrofolate in this bacterium, since a classical dihydrofolate reductase gene could not be found in the recently determined genome nucleotide sequence (A. Henne, personal communication). The derived amino acid sequence displays most of the highly conserved cofactor and active-site residues present in enzymes of the short-chain dehydrogenase/reductase family. The enzyme has no pteridine-independent oxidoreductase activity, in contrast to Escherichia coli dihydropteridine reductase, and thus appears more similar to mammalian dihydropteridine reductases, which do not contain a flavin prosthetic group. We suggest that bifunctional dihydropteridine reductases may be responsible for the synthesis of tetrahydrofolate in other bacteria, as well as archaea, that have been reported to lack a classical dihydrofolate reductase but for which possible substitutes have not yet been identified. |
