Regulation of gene expression by oxygen in eukaryotic microorganisms: Expressed Sequence Tags ESTs and Trichoderma reesei cDNA \microarrays\

Glucose and oxygen are essential molecules in most of living organisms. In addition to their importance in production of energy - glucose as a carbon and energy source and oxygen as an acceptor of electrons donated by NADH and FADH2 - both molecules function as effectors modulating various metabolic and physiological processes in the cell. Because one of the targets affected by both molecules is the mitochondrion, we isolated and sequenced the mitochondrial genome of Trichoderma reesei, a multicellular fungus that is used in this study as a model system. The effect of varying the concentration of glucose and oxygen on the expression of the transcripts of the mitochondrial genome, and its implication on the metabolism of glucose, was studied. Gene-wide expression analyses of nearly 2000 transcripts of T. reesei under limited concentration of dissolved oxygen, using cDNA microarry technique, are presented. At least 330 transcripts were differentially expressed with respect to oxygen availability. Those involved in protein synthesis and cell division processes were downregulated, while transcripts involved in cell defense and RNA synthesis were upregulated. A substantive fraction of other anaerobically affected genes have currently unknown cellular roles, and these results should therefore contribute to further functional annotation of the genome. ln addition, we have identified transcriptional regulators that are differentially expressed at a low oxygen tensions. The expression profile of these regulators points them out as potential candidates involved in the expression of genes affected by oxygen availability. (AU)