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Literature DB >> 5788699

Biosynthesis of riboflavine in Corynebacterium species: the purine precursor.

Abstract

Corynebacterium species lacks the ability to convert either xanthine or guanine to adenine. This defect and the use of the purine nucleoside antibiotic decoyinine, which blocks the conversion of xanthosine monophosphate --> guanosine monophosphate, permit an experimental design in which the interconversion of purines is largely prevented. Cultures of this organism were grown in the presence of decoyinine and various purine supplements. Data obtained by comparing the radioactivity incorporated from guanine-2-(14)C or xanthine-2-(14)C into bacterial guanine, xanthine, and riboflavine indicate that guanine or a close derivative of guanine is the purine precursor of riboflavine.

Entities: Chemical

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Year: 1969 PMID： 5788699 PMCID： PMC315303 DOI： 10.1128/jb.98.3.1114-1119.1969

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

19 in total

9. Enzymic release of carbon atom 8 from guanosine triphosphate, an early reaction in the conversion of purines to pteridines.

Authors: B Levenberg; D K Kaczmarek
Journal: Biochim Biophys Acta Date: 1966-03-28

10. BIOSYNTHESIS OF RIBOFLAVINE BY A PURINE-REQUIRING MUTANT STRAIN OF ESCHERICHIA COLI.

Authors: D J HOWELLS; G W PLAUT
Journal: Biochem J Date: 1965-03 Impact factor: 3.857

5 in total

1. Presence of Escherichia coli of a deaminase and a reductase involved in biosynthesis of riboflavin.

Authors: R B Burrows; G M Brown
Journal: J Bacteriol Date: 1978-11 Impact factor: 3.490

Review 2. Genetic control of biosynthesis and transport of riboflavin and flavin nucleotides and construction of robust biotechnological producers.

Authors: Charles A Abbas; Andriy A Sibirny
Journal: Microbiol Mol Biol Rev Date: 2011-06 Impact factor: 11.056

Biosynthesis of riboflavine in Corynebacterium species: the purine precursor.

1. A NEW METHOD FOR THE DETERMINATION OF THE BASE COMPOSITION OF RIBONUCLEIC ACID.

2. The direct contribution of adenine to the biogenesis of riboflavin by Eremothecium ashbyii.

3. The incorporation of the pyrimidine ring of adenine into the isoalloxazine ring of riboflavin.

4. A new method for preparing flavin-adenine dinucleotide.

5. The effects of certain purines and pyrimidines upon the production of riboflavin by Eremothecium ashbyii.

6. Ligand-exchange chromatography of nucleotides, nucleosides, and nucleic acid bases.

7. The biosynthesis of folic acid. VII. Enzymatic synthesis of pteridines from guanosine triphosphate.

8. Enzymatic synthesis of the pteridine moiety of dihydrofolate from guanine nucleotides.

9. Enzymic release of carbon atom 8 from guanosine triphosphate, an early reaction in the conversion of purines to pteridines.

10. BIOSYNTHESIS OF RIBOFLAVINE BY A PURINE-REQUIRING MUTANT STRAIN OF ESCHERICHIA COLI.

1. Presence of Escherichia coli of a deaminase and a reductase involved in biosynthesis of riboflavin.

Review 2. Genetic control of biosynthesis and transport of riboflavin and flavin nucleotides and construction of robust biotechnological producers.

3. Biosynthesis of riboflavin in Bacillus subtilis: function and genetic control of the riboflavin synthase complex.

4. Biosynthesis of riboflavine in Saccharomyces cerevisiae: the role of genes rib 1 and rib 7 .

5. Ribitol and flavinogenesis in Eremothecium ashbyii.