Originally published as Genetics Published Articles Ahead of Print on September 30, 2004.

Genetics, Vol. 169, 123-135, January 2005, Copyright © 2005
doi:10.1534/genetics.104.034017

Genetic Evidence for a Regulatory Pathway Controlling Alternative Oxidase Production in Neurospora crassa

Andrea T. Descheneau1, Ian A. Cleary and Frank E. Nargang2

Department of Biological Sciences, University of Alberta, Edmonton, Alberta T6G 2E9, Canada

2 Corresponding author: Department of Biological Sciences, University of Alberta, Edmonton, AB T6G 2E9, Canada.
E-mail: frank.nargang{at}ualberta.ca

When the cytochrome-mediated mitochondrial electron transport chain of Neurospora crassa is disrupted, an alternative oxidase encoded by the nuclear aod-1 gene is induced. The alternative oxidase donates electrons directly to oxygen from the ubiquininol pool and is insensitive to chemicals such as antimycin A and KCN that affect the standard electron transport chain. To facilitate isolation of mutants affecting regulation of aod-1, a reporter system containing the region upstream of the aod-1 coding sequence fused to the coding sequence of the N. crassa tyrosinase gene (T) was transformed into a strain carrying a null allele of the endogenous T gene. In the resulting reporter strain, growth in the presence of chloramphenicol, an inhibitor of mitochondrial translation whose action decreases the level of mitochondrial translation products resulting in impaired cytochrome-mediated respiration, caused induction of both alternative oxidase and tyrosinase. Conidia from the reporter strain were mutagenized, plated on medium containing chloramphenicol, and colonies that did not express tyrosinase were identified as potential regulatory mutants. After further characterization, 15 strains were found that were unable to induce both the reporter and the alternative oxidase. Complementation analysis revealed that four novel loci involved in aod-1 regulation had been isolated. The discovery that several genes are required for regulation of aod-1 suggests the existence of a complex pathway for signaling from the mitochondria to the nucleus and/or for expression of the gene.




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