PMID:7751290
| Citation |
Zhao, G, Pease, AJ, Bharani, N and Winkler, ME (1995) Biochemical characterization of gapB-encoded erythrose 4-phosphate dehydrogenase of Escherichia coli K-12 and its possible role in pyridoxal 5'-phosphate biosynthesis. J. Bacteriol. 177:2804-12 |
|---|---|
| Abstract |
One step in de novo pyridoxine (vitamin B6) and pyridoxal 5'-phosphate biosynthesis was predicted to be an oxidation catalyzed by an unidentified D-erythrose-4-phosphate dehydrogenase (E4PDH). To help identify this E4PDH, we purified the Escherichia coli K-12 gapA- and gapB-encoded dehydrogenases to homogeneity and tested whether either uses D-erythrose-4-phosphate (E4P) as a substrate. gapA (gap1) encodes the major D-glyceraldehyde-3-phosphate dehydrogenase (GA3PDH). The function of gapB (gap2) is unknown, although it was suggested that gapB encodes a second form of GA3PDH or is a cryptic gene. We found that the gapB-encoded enzyme is indeed an E4PDH and not a second GA3PDH, whereas gapA-encoded GA3PDH used E4P poorly, if at all, as a substrate under the in vitro reaction conditions used in this study. The amino terminus of purified E4PDH matched the sequence predicted from the gapB DNA sequence. Purified E4PDH was a heat-stable tetramer with a native molecular mass of 132 kDa. E4PDH had an apparent Km value for E4P [Kmapp(E4P)] of 0.96 mM, an apparent kcat catalytic constant for E4P [kcatapp(E4P)] of 200 s-1, Kmapp(NAD+) of 0.074 mM, and kcatapp(NAD+) of 169 s-1 in steady-state reactions in which NADH formation was determined. From specific activities in crude extracts, we estimated that there are at least 940 E4PDH tetramer molecules per bacterium growing in minimal salts medium plus glucose at 37 degrees C. Thin-layer chromatography confirmed that the product of the E4PDH reaction was likely the aldonic acid 4-phosphoerythronate. To establish a possible role of E4PDH in pyridoxal 5'-phosphate biosynthesis, we showed that 4-phosphoerythronate is a likely substrate for the 2-hydroxy-acid dehydrogenase encoded by the pdxB gene. Implications of these findings in the evolution of GA3PDHs are also discussed. On the basis of these results, we propose renaming gapB as epd (for D-erythrose-4-phosphate dehydrogenase). |
| Links | |
| Keywords |
Alcohol Oxidoreductases/metabolism; Aldehyde Oxidoreductases/genetics; Aldehyde Oxidoreductases/isolation & purification; Aldehyde Oxidoreductases/metabolism; Base Sequence; Carbohydrate Dehydrogenases/analysis; Cloning, Molecular; Escherichia coli/enzymology; Escherichia coli/genetics; Escherichia coli Proteins; Glyceraldehyde-3-Phosphate Dehydrogenases/genetics; Glyceraldehyde-3-Phosphate Dehydrogenases/metabolism; L-Lactate Dehydrogenase; Lactate Dehydrogenases; Models, Biological; Molecular Sequence Data; Molecular Weight; NAD/metabolism; Peptide Fragments/genetics; Peptide Fragments/metabolism; Protein Conformation; Pyridoxal Phosphate/biosynthesis; Sequence Analysis; Substrate Specificity; Sugar Acids/metabolism; Sugar Phosphates/metabolism; Tetroses/metabolism |
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