RESUMEN
Aspergillus oryzae PrtR is an ortholog of the transcription factor PrtT, which positively regulates the transcription of extracellular peptidase genes in Aspergillus niger and Aspergillus fumigatus. To identify the genes under the control of PrtR and elucidate its regulatory mechanism in A. oryzae, prtR gene disruption mutants were generated. The control strain clearly showed a halo on media containing skim milk as the nitrogen source, whereas the ΔprtR strain formed a smaller halo. Measurement of acid peptidase activity revealed that approximately 84% of acidic endopeptidase and 86% of carboxypeptidase activities are positively regulated by PrtR. As the transcription of the prtR gene varied depending on culture conditions, especially with or without a protein substrate, it was considered that its transcription would be regulated in response to a nitrogen source. In addition, contrary to previous expectations, PrtR was found to act both in promoting and repressing the transcription of extracellular peptidase genes. The mode of regulation varied from gene to gene. Some genes were regulated in the same manner in both liquid and solid cultures, whereas others were regulated in different ways depending on the culture conditions. Furthermore, PrtR has been suggested to regulate the transcription of peptidase genes that are closely associated with other transcription factors. KEY POINTS: ⢠Almost all peptidase genes in Aspergillus oryzae are positively regulated by PrtR ⢠However, several genes are regulated negatively by PrtR ⢠PrtR optimizes transcription of peptidase genes in response to culture conditions.
Asunto(s)
Aspergillus oryzae , Aspergillus oryzae/genética , Aspergillus fumigatus , Aspergillus niger , Endopeptidasas , Nitrógeno , Factores de Transcripción/genéticaRESUMEN
Optineurin produces intracellular multi-functions involving autophagy, vesicular trafficking, and negative regulation of inflammation signaling through interaction with various proteins such as ATG8/LC3, Rab8, and polyubiquitin. Optineurin is a component of cytoplasmic inclusion bodies (IBs) in motor neurons from amyotrophic lateral sclerosis (ALS), and its mutation E478G, has been identified in patients with ALS. However, the mechanism by which polyubiquitin binding modulates the interaction partners of OPTN and ALS-associated IB formation is still unclear. To address this issue, we analyzed the interaction of Optineurin with Rab8 and LC3 in the absence and presence of linear polyubiquitin chains using fluorescence cross-correlation spectroscopy and IB formation efficiency of the E478G mutant of Optineurin during Rab8 depletion using fluorescence microscopy. Here, we hypothesize that linear polyubiquitin binding to Optineurin dynamically induces LC3 association and Rab8 dissociation, likely through a conformational change of Optineurin, and the dynamic conformational change may prevent the aggregate formation of mutant Optineurin.