Genetics - Theses
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ItemThe isolation and analysis of the hap genes of Aspergillus nidulans(University of Melbourne, 1996)The 5' regulatory region of the amdS gene of Aspergillus nidulans, which encodes an acetamidase required for growth on acetamide as a carbon and nitrogen source, contains a CCAAT sequence required for setting the basal level of transcription. Mobility shift assays have identified a factor in A. nidulans nuclear extracts that binds specifically to this CCAAT sequence. In Saccharomyces cerevisiae, the HAP3 and HAP5 genes encode components of a highly conserved multi subunit complex which is able to bind CCAAT sequences. The identification, cloning and sequencing of genes from A. nidulans with homology to HAP3 and HAP5, known as hapC and hapE respectively, is described here. The predicted amino acid sequences of the proteins encoded by the hapC and hapE genes share extensive sequence identity to conserved regions in HAP3 and HAP5 respectively. Furthermore, they both show identity to the histone-fold motif, a motif used widely as a means for protein-protein and DNA- protein interactions. A haploid carrying a hapC deletion has been created and is viable, but grows poorly on all media tested. This null mutant grows especially poorly on acetamide as a sole carbon and nitrogen source, indicating that hapC plays a role in amdS expression. In agreement with this notion, the hapC deletion results in reduced levels of amdS expression, particularly under conditions of carbon limitation. Nuclear extracts prepared from the hapC deletion mutant show no CCAAT specific binding to the amdS or gatA promoter, indicating that hapC encodes a component of the complex binding at this sequence. In the presence of the hapC deletion growth on acetamide and amdS