M K Winston scite author profile

M K Winston

4Publications

33Citation Statements Received

52Citation Statements Given

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Miami University

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Role of L-lysine-alpha-ketoglutarate aminotransferase in catabolism of lysine as a nitrogen source for Rhodotorula glutinis

Kinzel¹,

Winston²,

Bhattacharjee³

1983

J Bacteriol

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Wild-type and saccharopine dehydrogenaseless mutant strains of Rhodotorula glutinis grew in minimal medium containing lysine as the sole nitrogen source and simultaneously accumulated, in the culture supematant, large amounts of a product identified as a-aminoadipic-8-semialdehyde. The saccharopine dehydrogenase and pipecolic acid oxidase levels remained unchanged in wild-type cells grown in the presence of ammonium or lysine as the nitrogen source. Lysine-aketoglutarate aminotransferase activity was demonstrated in ammonium-grown cells. This activity was derepressed in cells grown in the presence of lysine as the sole source of nitrogen.

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Use of α‐aminoadipate and lysine as sole nitrogen source by Schizosacharomyces pombe and selected pathogenic fungi

Garrad

Winston

et al. 1991

J. Basic Microbiol.

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alpha-Aminodipate, an intermediate of the lysine biosynthetic pathway of fungi, or lysine when used as the sole nitrogen source in the medium was growth inhibitory and toxic to Saccharomyces cerevisiae. The fission yeast Schizosaccharomyces pombe and pathogenic fungi Candida albicans, Filobasidiella neoformans and Aspergillus fumigatus grew in the medium containing alpha-aminoadipate as the sole nitrogen source. C. albicans, A. fumigatus, and one of the strains of F. neoformans also grew in the medium containing lysine as the sole nitrogen source. When grown in the alpha-aminoadipate medium, only S. pombe accumulated a significant amount of alpha-ketoadipate in the culture supernatant. Also, 14C-alpha-aminoadipate was converted to 14C-alpha-ketoadipate in vivo. In the ammonium sulfate medium, S. pombe cells converted 14C-alpha-aminoadipate to lysine. The levels of glutamate-alpha-ketoadipate transaminase, an enzyme responsible for the conversion of alpha-aminoadipate to alpha-ketoadipate, and alpha-aminoadipate reductase, an enzyme required for the conversion of alpha-aminoadipate to lysine, were similar in S. pombe cells grown in the alpha-aminoadipate or ammonium sulfate medium. However, the level of homoisocitrate dehydrogenase, an enzyme before the alpha-ketoadipate step, was twelvefold lower in S. pombe cells grown in the alpha-aminoadipate medium compared to the level in cells grown in the ammonium sulfate medium. Pathogenic fungi used in this study did not accumulate alpha-ketoadipate and alpha-aminoadipate-delta-semialdehyde when grown in medium containing alpha-aminoadipate and lysine, respectively, as sole nitrogen source. However, only pathogenic fungi used both lysine and alpha-aminoadipate as sole nitrogen source. This unique metabolic property could be useful for the identification of these pathogens.

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Biosynthetic and regulatory role of lys9 mutants of Saccharomyces cerevisiae

Winston

Bhattacharjee

1987

Curr Genet

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Derepression of lysine biosynthetic enzymes of Saccharomyces cerevisiae was investigated in lys9 auxotrophs which lack saccharopine reductase activity. Five enzymes (homocitrate synthase, homoisocitrate dehydrogenase, alpha-aminoadipate aminotransferase, alpha-aminoadipate reductase and saccharopine dehydrogenase) were constitutively derepressed in all lys9 mutants with up to eight-fold higher enzyme levels than in isogenic wild-type cells. Levels of these enzymes in lys2, lys14, and lys15 mutants were the same or lower than those in wild-type cells. The regulatory property of lys9 mutants exhibited recessiveness to the wild-type gene in heterozygous diploids. Unlike the mating type effect, homozygous diploids resulting from crosses between lys9 auxotrophs exhibited even higher levels of derepressed enzymes than the haploid mutants. Addition of a higher concentration of lysine to the growth medium resulted in reduction of enzyme levels although they were still derepressed. These results suggest that lys9 mutants represent a lesion for the saccharopine reductase and may represent a repressor mutation which in the wild-type cells simultaneously represses unlinked structural genes that encode for five of the lysine biosynthetic enzymes.

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Growth inhibition by alpha-aminoadipate and reversal of the effect by specific amino acid supplements in Saccharomyces cerevisiae

Winston¹,

Bhattacharjee²

1982

J Bacteriol

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The growth of Saccharomyces cerevisiae wild-type strain X2180 in minimal medium was inhibited by the addition of higher-than-supplementary levels of alpha-aminoadipate. This inhibitory effect was reversed by the addition of arginine, asparagine, aspartate, glutamine, homoserine, methionine, or serine as single amino acid supplements. Mutants belonging to the lys2 and lys14 loci were able to grow in lysine-supplemented alpha-aminoadipate medium, although not as well as when selected amino acids were added. Growth in alpha-aminoadipate medium by all strains was accompanied by an accumulation of alpha-ketoadipate. Glutamate:keto-adipate transaminase levels were derepressed two- to fivefold in lys2 mutants using alpha-aminoadipate as a nitrogen source. Wild-type strain X2180 growing in amino acid-supplemented AA medium exhibited higher levels of alpha-aminoadipate reductase. Mutants unable to use alpha-aminoadipate without amino acid supplementation were obtained by treatment of lys2 strain MW5-64 and were shown to have glutamate: ketoadipate transaminase activity and to lack alpha-aminoadipate reductase activity. Altered cell morphologies, including increased size, multiple buds, pseudohyphae, and germ tubes, evidenced by cells grown in alpha-aminoadipate medium suggest that higher-than-supplementary levels of alpha-aminoadipate result in an impairment of cell division.

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M K Winston

Role of L-lysine-alpha-ketoglutarate aminotransferase in catabolism of lysine as a nitrogen source for Rhodotorula glutinis

Use of α‐aminoadipate and lysine as sole nitrogen source by Schizosacharomyces pombe and selected pathogenic fungi

Biosynthetic and regulatory role of lys9 mutants of Saccharomyces cerevisiae

Growth inhibition by alpha-aminoadipate and reversal of the effect by specific amino acid supplements in Saccharomyces cerevisiae

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