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Literature DB >> 4945178

Role of vitamin B 6 biosynthetic rate in the study of vitamin B 6 synthesis in Escherichia coli.

Abstract

Nutritional auxotrophs of Escherichia coli synthesize vitamin B(6) compounds at a rate of 1 x 10(-10) to 2 x 10(-10) moles per hr per mg (dry weight) of cells when they are suspended in minimal medium lacking their required nutrients. A few auxotrophs have been found to stop or reduce vitamin B(6) synthesis during such an experiment. These include thiamineless, citrate synthaseless, and pyridoxineless mutants as well as mutants which require four carbon compounds for growth. Glycolaldehyde was found to restore vitamin B(6) synthesis in the last named of these mutants without restoring normal growth. A class of pyridoxineless mutants which responded with normal growth to 0.4 mm glycolaldehyde or 0.15 x 10(-3) mm pyridoxol was also found. The results suggest that a thiamine pyrophosphate-requiring step as well as glycolaldehyde may be involved in pyridoxal phosphate biosynthesis.

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Year: 1971 PMID： 4945178 PMCID： PMC247181 DOI： 10.1128/jb.108.3.1001-1007.1971

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

16 in total

6. Isoleucine and threonine can prolong protein and ribonucleic acid synthesis in pyridoxine-starved mutants of Escherichia coli B.

Authors: W B Dempsey; K R Sims
Journal: J Bacteriol Date: 1972-11 Impact factor: 3.490

7. Systematic genome assessment of B-vitamin biosynthesis suggests co-operation among gut microbes.

Authors: Stefanía Magnúsdóttir; Dmitry Ravcheev; Valérie de Crécy-Lagard; Ines Thiele
Journal: Front Genet Date: 2015-04-20 Impact factor: 4.599

7 in total

Role of vitamin B 6 biosynthetic rate in the study of vitamin B 6 synthesis in Escherichia coli.

1. One-carbon metabolism and pyridoxal 5'-phosphate biosynthesis.

Review 2. Current linkage map of Escherichia coli.

3. Distribution and function of genes concerned with aromatic biosynthesis in Escherichia coli.

4. Biosynthesis of vitamin B6. II. Localization of 14C-carbons in vitamin B6.

5. Biosynthesis of pyridoxine.

6. Characterization of pyridoxine auxotrophs of Escherichia coli: chromosomal position of linkage group I.

7. Isolation and characterization of pyridoxine auxotrophs of Escherichia coli.

8. Characterization of pyridoxine auxotrophs of Escherichia coli: P1 transduction.

9. Characterization of pyridoxine auxotrophs of Escherichia coli: serine and pdxF mutants.

10. Mutants of Escherichia coli with a growth requirement for either lysine or pyridoxine.

1. Metabolic relationships between pyridoxine (vitamin B6) and serine biosynthesis in Escherichia coli K-12.

2. Glycolaldehyde is a precursor of pyridoxal phosphate in Escherichia coli B.

3. Escherichia coli mutants tht require either pyridoxine or alanine.

4. Pyridoxine-requiring mutants of Escherichia coli: glycolaldehyde dehydrogenase is not coded for by the pdxB gene.

5. Lysis of Escherichia coli by glycine is potentiated by pyridoxine starvation.

6. Isoleucine and threonine can prolong protein and ribonucleic acid synthesis in pyridoxine-starved mutants of Escherichia coli B.

7. Systematic genome assessment of B-vitamin biosynthesis suggests co-operation among gut microbes.