Control of nucleotide and erythroascorbic acid pools by cyclic AMP in Neurospora crassa

UDPglucuronic acid and erythroascorbic acid were identified in extracts of the fungus Neurospora crassa. The concentrations of these two compounds are estimated, in growing wild type N. crassa, to be about 0.10 and 0.28 mumol/ml of cell water, respectively. The pools of these two compounds are regulated by cyclic AMP in Neurospora, both being elevated in the cr-1, adenylate cyclase deficient mutant and both being lowered by exogenous cyclic AMP. The pools of these two compounds are also elevated on nitrogen deprivation. The pools of a large number of other nucleotides are not influenced by cyclic AMP. Possible relationships between the metabolism of UDPglucuronic acid and erythroascorbic acid are discussed. It was found that exogenous cyclic AMP was much more effective in influencing cultures grown at 30-37 degrees C than those grown at 25 degrees C. We suggest that higher temperatures may render Neurospora more permeable to a variety of different compounds.     

External citizenship in EU countries

Citizenship laws often contain provisions regarding preferential acquisition of citizenship by certain categories of foreigners, such as provisions that allow for the possibility to acquire citizenship without the obligation to reside in the country. The practice of external acquisition of citizenship poses important challenges to the modern paradigmatic view of territorially bounded citizenship. This article surveys the legal rules allowing for external acquisition of citizenship in EU countries, and examines three justifications for such rules, namely, the principles of just restitution of citizenship, democratic continuity and national solidarity. The article argues that the principle of just restitution of citizenship offers the strongest, albeit partial, contextual justification for external acquisition of citizenship.     

Regulation of fructose 2,6-bisphosphate levels in Neurospora crassa

Both wild type and cr-1 mutant (adenylate cyclase and cyclic AMP-deficient) strains of Neurospora crassa contain fructose 2,6-bisphosphate at levels of 27 nmol/g dry tissue weight. This level decreases by about 50% in both strains upon depriving the cells of carbon or nitrogen sources for 3 h. An increase in cyclic AMP levels produced by addition of lysine to nitrogen-starved cells produced no increase in fructose 2,6-bisphosphate levels. Both strains respond to short-term addition of salicylate, acetate, or 2,4-dinitrophenol with an increase in fructose 2,6-bisphosphate. Thus, the above-described regulation of fructose 2,6-bisphosphate levels is cyclic AMP-independent. A suspension of the wild type produces a transient increase of fructose 2,6-bisphosphate in response to administration of glucose, whereas the mutant strain does not respond unless it is fed exogenous cyclic AMP. Substitution of acetate for sucrose as a sole carbon source for growth leads to a differential decrease in fructose 2,6-bisphosphate levels between the two strains: the wild type strain has 63% and the cr-1 mutant strain has 37% of the levels of fructose 2,6-bisphosphate on acetate as compared to sucrose-grown controls. This may be the basis for an advantage of cr-1 over wild type in growth on acetate. Thus, although most regulation of fructose 2,6-bisphosphate is cyclic AMP-independent, the levels can be regulated by a combination of carbon source and cyclic AMP levels.     

Control of nucleotide and erythroascorbic acid pools by cyclic AMP in Neurospora crassa

UDPglucuronic acid and erythroascorbic acid were identified in extracts of the fungus Neurospora crassa. The concentrations of these two compounds are estimated, in growing wild type N. crassa, to be about 0.10 and 0.28 μmol/ml of cell water, respectively. The pools of these two compounds are regulated by cyclic AMP in Neurospora, both being elevated in the cr-1, adenylate cyclase deficient mutant and both being lowered by exogenous cyclic AMP. The pools of these two compounds are also elevated on nitrogen deprivation. The pools of a large number of other nucleotides are not influenced by cyclic AMP. Possible relationships between the metabolism of UDPglucuronic acid and erythroascorbic acid are discussed. It was found that exogenous cyclic AMP was much more effective in influencing cultures grown at 30–37°C than those grown at 25°C. We suggest that higher temperatures may render Neurospora more permeable to a variety of different compounds.