Cooperative action of the NIT2 and NIT4 transcription factors upon gene expression in Neurospora crassa.

In Neurospora crassa, the nit-3 gene, which encodes nitrate reductase, an enzyme required for the utilization of inorganic nitrate, is subject to a high degree of genetic and metabolic regulation as a member of the nitrogen control circuit. The nit-3 gene promoter contains binding sites for a globally acting protein NIT2 and a pathway-specific protein NIT4. Expression of the nit-3 gene absolutely requires both the NIT2 and NIT4 transcription factors and only occurs under conditions of nitrogen source derepression and nitrate induction. In the sulfur control circuit, the cys-14 gene encodes sulfate permease II, which facilitates the assimilation of sulfate. Expression of cys-14 is strongly regulated by only a single positive-acting factor, CYS3. It was of interest to determine whether NIT2 or NIT4 alone was capable of turning on the expression of cys-14, since this structural gene is normally controlled by only one regulatory protein. NIT2- and/or NIT4-binding elements were introduced into the promoter of a wild-type cys-14 gene and these constructs were transformed into a cys-13(-) cys-14(-) mutant strain and into a nit-2(-) mutant host. We examined whether any of these cys-14 genes in these transformants could now be controlled as a nitrogen-regulated gene. Sulfate permease assays revealed that both NIT2 and NIT4 were required for cys-14 expression upon nitrate induction, while neither alone activated any detectable cys-14 expression. We thus conclude that neither NIT2 nor NIT4 is capable alone of activating gene expression in this context, but together they can cooperate to elicit strong activation.