Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0240066 (iron deficiency)
 7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The properties of mutants resistant to 7-methyl-8-trifluoromethyl-10-(1'-D-ribityl)-isoalloxazine (MTRY) were studied. The mutants were isolated from a genetic line of Pichia guilliermondii. Several of them were riboflavin overproducers and had derepressed flavinogenesis enzymes (GTP cyclohydrolase, 6.7-dimethyl-8-ribityllumazine synthase) in iron-rich medium. An additional derepression of these enzymes as well as derepression of riboflavin synthase occurred in iron-deficient medium. The characters "riboflavin oversynthesis" and "derepression of enzymes" were recessive in mutants of the 1st class, or dominant in those of the 2nd class. The hybrids of analogue-resistant strains of the 1st class with previously isolated regulatory mutants ribR (novel designation rib80) possessed the wild-type phenotype and were only capable of riboflavin overproduction under iron deficiency. Complementation analysis of the MTRY-resistant mutants showed that vitamin B2 oversynthesis and enzymes' derepression in these mutants are caused by impairment of a novel regulatory gene, RIB81. Thus, riboflavin biosynthesis in P. guilliermondii yeast is regulated at least by two genes of the negative action: RIB80 and RIB81. The meiotic segregants which contained rib80 and rib81 mutations did not show additivity in the action of the above regulatory genes. The hybrids of rib81 mutants with natural nonflavinogenic strain P. guilliermondii NF1453-1 were not capable of riboflavin oversythesis in the iron-rich medium. Apparently, the strain NF1453-1 contains an unaltered gene RIB81.
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PMID:[Genetic control of riboflavin biosynthesis in Pichia guilliermondii yeasts. The detection of a new regulator gene RIB81]. 383 29

A positive method is proposed for selecting Pichia guilliermondii mutants with derepressed GTP cyclohydrolase. Mutants with the incompletely blocked gene RIB2 were used as parent strains; these can grow in a medium without riboflavin (RF) only if the enzyme is derepressed as the result of iron deficiency in cells. Strains growing in a medium without RF at the optimal supply of cells with iron were selected as regulatory mutants. The mutants accumulated 6,7-dimethylpterin in high concentrations and a small amount of RF in the medium and in the cells. The activity of GTP cyclohydrolase rather than that of RF synthase increased in the mutants; the activity of RF kinase and FAD pyrophosphorylase was not elevated. Hybrids produced by crossing the regulatory mutants with wild type strains did not accumulate 6,7-dimethylpterin in the medium and the activity of the GTP cyclohydrolase did not increase; this is indicative of the negative regulation for the expression of the structural gene for GTP cyclohydrolase. The authors propose a model for the regulation of GTP cyclohydrolase and RF synthase at the gene level involving iron ions as a corepressor.
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PMID:[Selection and mutant properties of Pichia guilliermondii yeasts with derepressed GTP cyclohydrolase, the enzyme of the 1st step in flavinogenesis]. 628 23

Mutant strains of the yeast Pichia guilliermondii, carrying both rib80 and hit mutations in a haploid genome, were derived from previously obtained strains with defective rib80 or hit genes, exerting negative control of the riboflavin biosynthesis and iron transport in Pichia guilliermondii. The double mutant rib80hit strains exhibited an increased level of riboflavin biosynthesis and higher activities of GTP cyclohydrolase and riboflavin synthetase. Iron deficiency caused an additional increase in riboflavin overproduction. These results suggest the synergistic interaction of the rib80 and hit mutations. A combination of both mutations in a single genome did not affect iron assimilation by the cells: ferrireductase activity, the rate of 55Fe uptake, and the iron content in cells of the double mutants remained at the level characteristic of the parent strains.
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PMID:[Synergistic effect of rib80 and hit mutations on riboflavin biosynthesis and iron transport in the yeast Pichia guilliermondii]. 1077 15