I. A. Samsonova scite author profile

Three different alleles of the beta-isopropylmalate dehydrogenase gene were cloned and sequenced from a leucine auxotrophic mutant, G587, of Candida maltosa. The cloning of functionally-intact wild-type genes from this mutant strain suggests the presence of silent gene copies. An interallelic-divergence comparison has provided evidence for new regulatory mechanisms. Sequence data and karyotype analysis argue for a highly-aneuploid genome of C. maltosa. An interpretation for the spontaneous auxotrophy-prototrophy-auxotrophy sequence of mutations in C. maltosa is suggested.

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Correlation of biochemical blocks and genetic lesions in leucine auxotrophic strains of the imperfect yeast Candida maltosa

Becher

Wedler

Schulze

et al. 1991

Molec. Gen. Genet.

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The four enzymatic steps in the conversion of alpha-ketoisovaleriate to leucine were examined in the wild type and in 13 leucine auxotrophic strains of Candida maltosa. The genetic lesions in the auxotrophs, involve at least five different loci and are correlated with three enzymatic steps. This was confirmed by gene cloning, protoplast fusion, and enzyme assays. The pathway for leucine biosynthesis in C. maltosa shows general similarity to that of other lower eukaryotes but there are individual differences in the numbers of genes responsible for single enzymatic steps. A disomic state of the chromosomes carrying genes coding for alpha-isopropylmalate synthase and beta-isopropyl-malate dehydrogenase was elucidated.

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A set of genetic markers for the chromosomes of the imperfect yeastArxula adeninivorans

Samsonova

Kunze

Bode

et al. 1996

Yeast

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Genetic analysis of the yeastCandida maltosa by means of induced parasexual processes

Klinner

Samsonova

Böttcher

1984

Current Microbiology

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Identification of a lys2 mutant of Candida maltosa by means of transformation

et al. 1987

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We have isolated five mutants of Candida maltos, which lack the 2-aminoadipate reductase activity, an enzyme involved in the lysine biosynthesis. By means of complementation analysis using protoplast fusion, the isolated mutants were divided into two complementation groups. Thereof the C. maltosa strain G457 could be transformed by the plasmids pDP12 and pDP13, which contain the LYS2-coding gene of Saccharomyces cerevisiae. On the basis of our presented results obtained by studies on hybridization, stability, and recovery of plasmids from C. maltosa transformants, we suggest that transformation does proceed integratively.

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I. A. Samsonova

Molecular analysis of a leu2 ? mutant of Candida maltosa demonstrates the presence of multiple alleles

Correlation of biochemical blocks and genetic lesions in leucine auxotrophic strains of the imperfect yeast Candida maltosa

A set of genetic markers for the chromosomes of the imperfect yeastArxula adeninivorans

Genetic analysis of the yeastCandida maltosa by means of induced parasexual processes

Identification of a lys2 mutant of Candida maltosa by means of transformation

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