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Query: EC:1.5.1.3 (dihydrofolate reductase)
 5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Giardia lamblia, an aerotolerant anaerobe, respires in the presence of oxygen by a flavin, iron-sulfur protein-mediated electron transport system. Glucose appears to be the only sugar catabolized by the Embden-Meyerhof-Parnas and hexose monophosphate pathways, and energy is produced by substrate level phosphorylation. Substrates are incompletely oxidized to CO2, ethanol and acetate by nonsedimentable enzymes. The lack of incorporation of inosine, hypoxanthine, xanthine, formate or glycine into nucleotides indicates an absence of de novo purine synthesis. Only adenine, adenosine, guanine and guanosine are salvaged, and no interconversion of these purines was detected. Salvage of these purines and their nucleosides is accomplished by adenine phosphoribosyltransferase, adenosine hydrolase, guanosine phosphoribosyltransferase and guanine hydrolase. The absence of de novo pyrimidine synthesis was confirmed by the lack of incorporation of bicarbonate, orotate and aspartate into nucleotides, and by the lack of detectable levels of the enzymes of de novo pyrimidine synthesis. Salvage appears to be accomplished by the action of uracil phosphoribosyltransferase, uridine hydrolase, uridine phosphotransferase, cytidine deaminase, cytidine hydrolase, cytosine phosphoribosyltransferase and thymidine phosphotransferase. Nucleotides of uracil may be converted to nucleotides of cytosine by cytidine triphosphate synthetase, but thymidylate synthetase and dihydrofolate reductase activities were not detected. Uptake of pyrmidine nucleosides, and perhaps pyrimidines, appears to be accomplished by carrier-mediated transport, and the common site for uptake of uridine and cytidine is distinct from the site for thymidine. Thymine does not appear to be incorporated into nucleotide pools. Giardia trophozoites appear to rely on preformed lipids rather than synthesizing them de novo.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemistry and metabolism of Giardia. 265 35

The synthesis of D-6-phospho-[1-14C]gluconate and the utilization of this compound in a novel assay procedure for dihydrofolate reductase is described. This new assay method couples reductase-dependent NADP+ production to the enzymatic and NADP+-dependent decarboxylation of D-6-phospho-[1-14C]gluconate. By several criteria it is demonstrated that [14C]CO2 release is directly proportional to dihydrofolate reductase activity. This coupled radiometric assay for dihydrofolate reductase is more sensitive than the commonly used spectrophotometric assay and offers a number of advantages over earlier radiometric methods.
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PMID:A coupled radiometric assay for dihydrofolate reductase based on the oxidative decarboxylation of D-6-phospho-[1-14C]gluconate. 663 3

The ternary complex of Lactobacillus casei dihydrofolate reductase (DHFR) with folate and NADP+ exists as a mixture of three interconverting forms (I, IIa and IIb) whose relative populations are pH dependent, with an effective pK of approx. 6. To investigate the role of Asp26 in this pH dependence we have measured the 13C chemical shifts of [2,4a,7,9-(13)C4]folate in its complex with the mutant DHFR Asp26 --> Asn and NADP+. Only a single form of the complex is detected and this has the characteristics of form I, an enol form with its N1 unprotonated. A study of the pH dependence of the 13C chemical shifts of DHFR selectively labelled with [4-(13)C]aspartic acid in its complex with folate and NADP+ indicates that no Asp residue has a pK value greater than 5.4. Two of the Asp CO2 signals appear as non-integral signals with chemical shifts typical of non-ionised COOH groups and with a pH dependence characteristic of the slow exchange equilibria previously characterised for signals in forms I and IIb (or IIa). It is proposed that the protonation/deprotonation controlling the equilibria involves the O4 position of the folate and that Asp26 influences this indirectly by binding in its CO2 form to the protonated N1 group of folate in forms I and IIa thus reducing the pK involving protonation at the O4 position to approx. 6. These findings indicate that, in forms I and IIa of the ternary complex, folate binds to DHFR in a very similar way to methotrexate.
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PMID:The influence of aspartate 26 on the tautomeric forms of folate bound to Lactobacillus casei dihydrofolate reductase. 903 86

Thermacetogenium phaeum is a homoacetogenic bacterium that can grow on various substrates, such as pyruvate, methanol, or H2/CO2. It can also grow on acetate if cocultured with the hydrogen-consuming methanogenic partner Methanothermobacter thermautotrophicus. Enzyme activities of the CO dehydrogenase/acetyl coenzyme A (CoA) pathway (CO dehydrogenase, formate dehydrogenase, formyl tetrahydrofolate synthase, methylene tetrahydrofolate dehydrogenase) were detected in cell extracts of pure cultures and of syntrophic cocultures. Mixed cell suspensions of T. phaeum and M. thermautotrophicus oxidized acetate rapidly and produced acetate after addition of H2/CO2 after a short time lag. CO dehydrogenase activity staining after native polyacrylamide gel electrophoresis exhibited three oxygen-labile bands which were identical in pure culture and coculture. Protein profiles of T. phaeum cells after sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the strain exhibited basically the same protein patterns in both pure and syntrophic culture. These results indicate that T. phaeum operates the CO dehydrogenase/acetyl-CoA pathway reversibly both in acetate oxidation and in reductive acetogenesis by using the same biochemical apparatus, although it has to couple this pathway to ATP synthesis in different ways.
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PMID:Operation of the CO dehydrogenase/acetyl coenzyme A pathway in both acetate oxidation and acetate formation by the syntrophically acetate-oxidizing bacterium Thermacetogenium phaeum. 1586 34