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Biochemical characterization of gapB-encoded erythrose 4-phosphate dehydrogenase of Escherichia coli K-12 and its possible role in pyridoxal 5'-phosphate biosynthesis.

机译：大肠杆菌K-12的gapB编码的赤藓糖4-磷酸脱氢酶的生化特性及其在吡x醛5'-磷酸生物合成中的可能作用。

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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).

机译：从头开始吡ido醇（维生素B6）和吡ido醛5'-磷酸酯的生物合成中的一个步骤被认为是由未确定的D-赤藓糖-4-磷酸酯脱氢酶（E4PDH）催化的氧化。为帮助鉴定此E4PDH，我们将大肠杆菌K-12的gapA和gapB编码的脱氢酶纯化至均一，并测试了是否使用D-赤藓糖-4-磷酸酯（E4P）作为底物。 gapA（gap1）编码主要的D-甘油醛-3-磷酸脱氢酶（GA3PDH）。尽管有人建议gapB编码GA3PDH的第二种形式，或者是一个隐秘基因，但gapB（gap2）的功能尚不清楚。我们发现，在这项研究中使用的体外反应条件下，gapB编码的酶确实是E4PDH而不是第二个GA3PDH，而gapA编码的GA3PDH甚至很少使用E4P作为底物。纯化的E4PDH的氨基末端与gapB DNA序列预测的序列匹配。纯化的E4PDH是天然分子质量为132 kDa的热稳定四聚体。 E4PDH的E4P [Kmapp（E4P）]的表观Km值为0.96 mM，E4P [kcatapp（E4P）]的表观kcat催化常数为200 s-1，Kmapp（NAD +）为0.074 mM，kcatapp（NAD +）稳态反应中169 s-1的浓度，其中确定了NADH的形成。根据粗提物中的比活，我们估计每个细菌在37℃的最小盐培养基和葡萄糖中至少生长940个E4PDH四聚体分子。薄层色谱法证实E4PDH反应的产物可能是醛糖酸4 -磷酸赤藓酸酯。为了建立E4PDH在吡ido醛5'-磷酸生物合成中的可能作用，我们表明4-磷酸赤藓酸酯是pdxB基因编码的2-羟基酸脱氢酶的可能底物。还讨论了这些发现对GA3PDHs进化的影响。根据这些结果，我们建议将gapB重命名为epd（对于D-赤藓糖-4-磷酸脱氢酶）。

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Zhao, G; Pease, A J; Bharani, N; Winkler, M E;
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年度 1995
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专利

1. Involvement of the gapA- and epd(gapB)-Encoded Dehydrogenases in Pyridoxal 5′-Phosphate Coenzyme Biosynthesis in Escherichia coli K-12 [J] . Yong Yang, Genshi Zhao, Tsz-Kwong Man, Journal of bacteriology . 1998,第16期

机译：gapA和epd（gapB）编码的脱氢酶参与大肠杆菌K-12中吡咯醛5'-磷酸辅酶生物合成的过程。
2. Characterization of the molecular mechanisms involved in the differential production of erythrose-4-phosphate dehydrogenase, 3-phosphoglycerate kinase and class II fructose-1,6-bisphosphate aldolase in Escherichia coli [J] . Bardey V, Vallet C, Robas N, Molecular Microbiology . 2005,第5期

机译：表征在大肠杆菌中差异产生赤藓糖-4-磷酸脱氢酶，3-磷酸甘油酸激酶和II类果糖-1,6-双磷酸醛缩酶的分子机制
3. Molecular characterization of the Escherichia coli K-12 zwf gene encoding glucose 6-phosphate dehydrogenase. [J] . D L Rowley, R E Wolf Journal of bacteriology . 1991,第3期

机译：编码葡萄糖6-磷酸脱氢酶的大肠杆菌K-12 zwf基因的分子表征。
4. Cloning,Expression,and Characterization of A Novel Putative Aldehyde Dehydrogenase from Escherichia Coli K-12 which is Highly Active on 3-Hydroxypropionaldehyde [C] . The 12th Asian Pacific Confederation of Chemical Engineering Congress(第十二届亚太化工联盟大会暨化工展览会)论文集 . 2008

机译：新型对3-羟基丙醛有活性的大肠杆菌K-12假定的醛脱氢酶的克隆，表达及鉴定
5. Synthesis and Enzymatic Activity of 1-Deaza-Pyridoxal 5'-Phosphate: Reinterpreting the Role of the Pyridine Nitrogen in Pyridoxal 5'-Phosphate Utilizing Enzymes [D] . Griswold, Wait Robbins 2011

机译：1-Deaza-Pyridoxal 5'-磷酸盐的合成和酶活性：重新解释吡啶氮在Pyridoxal 5'-磷酸盐利用酶中的作用。
6. Biochemical characterization of gapB-encoded erythrose 4-phosphate dehydrogenase of Escherichia coli K-12 and its possible role in pyridoxal 5-phosphate biosynthesis. [O] . G Zhao, A J Pease, N Bharani, 1995

机译：GapB编码的大肠杆菌K-12的赤藓糖4-磷酸脱氢酶的生化特性及其在吡al醛5-磷酸生物合成中的可能作用。
7. Molecular characterization of the Escherichia coli K-12 zwf gene encoding glucose 6-phosphate dehydrogenase. [O] . Rowley, D L, Wolf, R E 1991

机译：编码葡萄糖6-磷酸脱氢酶的大肠杆菌K-12 zwf基因的分子表征。
8. Electron microscopic and biochemical studies of pyruvate dehydrogenase complex of escherichia coli [R] . Koike, M., Moran, H. F., Reed, L. J., 1964

机译：大肠杆菌丙酮酸脱氢酶复合物的电子显微镜和生化研究

Biochemical characterization of gapB-encoded erythrose 4-phosphate dehydrogenase of Escherichia coli K-12 and its possible role in pyridoxal 5'-phosphate biosynthesis.

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