Article: Trans-nuclear action of the nit-2 regulatory gene product and study of two additional nitrogen control genes in Neurospora crassa

The nit-2 gene of Neurospora crassa is a major regulatory gene for control of nitrogen metabolism. Synthesis of the enzyme L-amino acid oxidase requires a functional nit-2 gene product and is also controlled by amino acid induction and nitrogen catabolite repression. Electrophoretic variants of L-amino acid oxidase have been employed to demonstrate that in heterokaryons, a nit-2 (+) gene product can turn on the expression of this enzyme in its own nucleus and also in nuclei that possess a nit-2 mutant. This trans-nuclear effect is only partial since the variant coded for in the nucleus containing the nit-2 mutant allele is always present in lower amounts than the alternative form.Two additional putative nitrogen control genes, MS5 and en(am)1, have been found to have clear effects upon the expression of L-amino acid oxidase. The en(am)1 mutant appears to result in an unusual case of reversal of the control present in wild-type: the enzyme is expressed in a constitutive fashion and inducers, required for enzyme synthesis in wild-type, actually reduce the level of L-amino acid oxidase in en(am)1. The MS5 mutant shows a substantial release from the usual nitrogen catabolite repression exerted by glutamine in wild-type.

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References

1.

Grove G, Marzluf G . Identification of the product of the major regulatory gene of the nitrogen control circuit of Neurospora crassa as a nuclear DNA-binding protein. J Biol Chem. 1981; 256(1):463-70. View

2.

Chambers J, Wilkins S . A regulatory phenotype associated with the en-am 1 mutant of Neurospora crassa. Curr Genet. 2013; 6(1):87-90. DOI: 10.1007/BF00397646. View

3.

Cove D . Evidence for a near limiting intracellular concentration of a regulator substance. Nature. 1969; 224(5216):272-3. DOI: 10.1038/224272b0. View

4.

Burton E, Metzenberg R . Novel mutation causing derepression of several enzymes of sulfur metabolism in Neurospora crassa. J Bacteriol. 1972; 109(1):140-51. PMC: 247261. DOI: 10.1128/jb.109.1.140-151.1972. View

5.

Sikora L, Marzluf G . Regulation of L-amino acid oxidase and of D-amino acid oxidase in Neurospora crassa. Mol Gen Genet. 1982; 186(1):33-9. DOI: 10.1007/BF00422908. View

6.

Premakumar R, SORGER G, Gooden D . Physiological characterization of a Neurospora crassa mutant with impaired regulation of nitrate reductase. J Bacteriol. 1980; 144(2):542-51. PMC: 294701. DOI: 10.1128/jb.144.2.542-551.1980. View

7.

Metzenberg R . Genetic regulatory systems in Neurospora. Annu Rev Genet. 1972; 6:111-32. DOI: 10.1146/annurev.ge.06.120172.000551. View

8.

Marzluf G . Regulation of nitrogen metabolism and gene expression in fungi. Microbiol Rev. 1981; 45(3):437-61. PMC: 281519. DOI: 10.1128/mr.45.3.437-461.1981. View

9.

Scazzocchio C, Sdrin N, Ong G . Positive regulation in a eukaryote, a study of the uaY gene of Aspergillus nidulans: I. Characterization of alleles, dominance and complementation studies, and a fine structure map of the uaY--oxpA cluster. Genetics. 1982; 100(2):185-208. PMC: 1201807. DOI: 10.1093/genetics/100.2.185. View

10.

Facklam T, Marzluf G . Nitrogen regulation of amino acid catabolism in Neurospora crassa. Biochem Genet. 1978; 16(3-4):343-54. DOI: 10.1007/BF00484090. View

11.

Lerner M, Steitz J . Snurps and scyrps. Cell. 1981; 25(2):298-300. DOI: 10.1016/0092-8674(81)90047-7. View

Trans-nuclear Action of the Nit-2 Regulatory Gene Product and Study of Two Additional Nitrogen Control Genes in Neurospora Crassa