Molecular genetics of sulfur assimilation in filamentous fungi and yeast
- PMID: 9343344
- DOI: 10.1146/annurev.micro.51.1.73
Molecular genetics of sulfur assimilation in filamentous fungi and yeast
Abstract
The filamentous fungi Aspergillus nidulans and Neurospora crassa and the yeast Saccharomyces cerevisiae each possess a global regulatory circuit that controls the expression of permeases and enzymes that function both in the acquisition of sulfur from the environment and in its assimilation. Control of the structural genes that specify an array of enzymes that catalyze reactions of sulfur metabolism occurs at the transcriptional level and involves both positive-acting and negative-acting regulatory factors. Positive trans-acting regulatory proteins that contain a basic region, leucine zipper-DNA binding domain, are found in Neurospora and yeast. Each of these fungi contain a sulfur regulatory protein of the beta-transducin family that acts in a negative fashion to control gene expression. Sulfur regulation in yeast also involves the general DNA binding protein, centromere binding factor I. Sulfate uptake is a highly regulated step and appears to occur in fungi, plants, and mammals via a family of related transporter proteins. Recent developments have provided new insight into the nature and control of the enzymes ATP sulfurylase and APS kinase, which catalyze the early steps of sulfate assimilation, and of the Aspergillus enzyme, cysteine synthase, which produces cysteine from O-acetylserine.
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