Genetic and metabolic regulation of purine base transport in Neurospora crassa

Neurospora crassa can utilize various purine bases such as xanthine or uric acid and their catabolic products as a nitrogen source. Four classes of mutants which affect the purine degradative pathway were isolated and studied. Mutants of the aln-1 class specifically lack allantoinase, while alc-1 mu

Mycelia of Neurospora crassa growing with quite different rates at a given temperature (30 ~ C) are obtained by changing the composition of the culture medium: for instance a duplication time of 220 min is found when cultures are growing in Vogel's minimal medium supplemented with glycerol and one o

Four mutants of Neurospora crassa have been isolated which have altered regulation of nitrate reductase. They each carry a mutation which results in derepressed synthesis of nitrate reductase even in the presence of glutamine. They map to a single locus which has been designated nmr-1 and which is l

Genetic analysis showed that the glycerol non-utilizing isolate gly-u(234) of Neurospora crassa is derived by mutation in a nuclear gene situated in the right arm of linkage group I, about 2.2 cross-over units distal to ad-9 and 11 units proximal to nit-1. Enzymatic testings using a radiochemical me

Neurospora crassa possesses an inducible L-amino acid oxidase that is expressed only when cells are derepressed for nitrogen in the presence of an amino acid. Enzyme synthesis requires both induction by an amino acid and simultaneous nitrogen catabolite derepression. Carbon limition in the presence