Metabolism of L-threonine and its relationship to sclerotium formation in Sclerotium rolfsii.

@article{Kritzman1976MetabolismOL,
  title={Metabolism of L-threonine and its relationship to sclerotium formation in Sclerotium rolfsii.},
  author={G. Kritzman and Yaacov Okon and Ilan Chet and Yigal Henis},
  journal={Journal of general microbiology},
  year={1976},
  volume={95 1},
  pages={
          78-86
        }
}
The activities of L-threonine dehydrogenase (I), 2-amino-3-oxybutyrate:CoA ligase (II), malate synthetase (III), isocitrate lyase (IV), glyoxylate dehydrogenase (V), glycine decarboxylase (VI), L-serine hydroxymethyltransferase (VII), glucan synthetase (VIII), glucose 6-phosphate dehydrogenase (IX) and succinic dehydrogenase (X) were detected in cell-free extracts prepared from the mycelium of the fungus Sclerotium rolfsii type R. Transfer of S. rolfsii to a threonine-containing medium resulted… 
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Localization of beta-(1,3)-glucanase in the mycelium of Sclerotium rolfsii
TLDR
The role of the lytic enzyme beta-(1,3)-glucanase in cell wall synthesis and its distribution in the mycelium of the fungus Sclerotium rolfsii were studied and activity of glucan synthetase, an enzyme essential for wall formation, was higher in the branching funus grown on L-threonine-supplemented synthetic medium than in the synthetic medium-grown fungus.
Effect of Carbon Dioxide on Growth and Carbohydrate Metabolism in Sclerotium rolfsii
TLDR
Mycelium of S. rolfsii grown at a high CO2 concentration contained less glyoxylate, lipids and glycogen than mycelium grown in air, and it is suggested that sclerotium formation in the fungus requires a balanced supply of carbohydrate intermediates and energy.
Polyamines and Ornithine Decarboxylase Activity during Growth and Differentiation in Sclerotium rolfsii
TLDR
The data indicate that specific changes in polyamines are linked with two distinct developmental events in S. rolfsii, and mycelial growth and sclerotium germination are positively correlated, and possibly causally linked, with a marked increase in putrescine content and biosynthesis (while spermine cannot be detected).
Changes in Fatty Acids During Morphogenesis in Sclerotium rolfsii
TLDR
Changes in the lipids of Sclerotium rolfsii were followed during its growth in agar and liquid synthetic media to help in elucidating the role of lipids in the mycelium during sclerotial formation.
Response of Achlya racemosa, A. proliferoides and Saprolegnia furcata to Sub-lethal Treatments of Amino Acids
TLDR
Phenylalanine was the most effective amino acid in inhibiting sporulation and S. furcata was the least sensitive fungal species, according to the tested species of zoosporic fungi, the amino acid and its dosage.
The role of oxalic acid in the pathogenic behavior of Sclerotium rolfsii Sacc
High scleroglucan production by Sclerotium rolfsii: Influence of medium composition
TLDR
Once defined the optimum culture medium composition, the highest exopolysaccharide production was achieved after 72 h of fermentation at shake flask scale, and addition of L-threonine, sunflower oil and ascorbic acid diminished exopoly Saccharides production.
Changes in Protein Kinase A Activity Accompany Sclerotial Development in Sclerotinia sclerotiorum.
TLDR
The changes in PKA activity, as well as the abundance of phosphorylated MAPKs that accompany sclerotial development in a distinct developmental phase manner represent a potential target for antifungal intervention.
Sclerotial development in Sclerotinia sclerotiorum: awakening molecular analysis of a ‘‘Dormant’’ structure
TLDR
Reversible protein phosphorylation, as well as additional regulatory mechanisms of gene expression such as DNA methylation and ribosome inactivation, most likely function in concert with secondary metabolites, reactive oxygen species, pH and light in order to regulate sclerotial development in different fungi.
Sclerotial development in Sclerotinia sclerotiorum: awakening molecular analysis of a “Dormant” structure
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