GCN4 Enhances the Transcriptional Regulation of AreA by Interacting with SKO1 To Mediate Nitrogen Utilization in Ganoderma lucidum.

Fungi utilize a wide range of nitrogen to adapt their metabolism. The transcription factor GCN4 has a pivotal role in nitrogen metabolism. However, the mechanism by which GCN4 regulates nitrogen utilization in Ganoderma lucidum is not well understood. In this study, we found that GCN4 physically interacts with SKO1, a bZIP (basic leucine zipper) transcription factor. GCN4 cooperated with SKO1 to positively regulate nitrogen utilization, especially for the expression of . Electrophoretic mobility shift assays (EMSA) indicate that GCN4 directly binds to the promoter region. Further affinity analysis through biolayer interferometry (BLI) experiments and surface plasmon resonance (SPR) confirmed that GCN4 specifically binds to the promoter region of with a strong binding affinity to activate the transcription of . In contrast, SKO1 showed no specified binding effect on the promoter. However, SKO1 activates the expression of the by forming a complex with GCN4, which exhibits a 14.2-fold-higher affinity than GCN4 alone. Furthermore, the presence of SKO1 promotes the stability of GCN4 protein. Accordingly, our study found that the transcription factor SKO1 enhances the transcriptional activity of GCN4 on its target gene by interacting with GCN4. Our study illustrates a specific regulatory mechanism for the involvement of GCN4 and SKO1 in nitrogen utilization, which provides innovative insight into the regulation of nitrogen utilization in fungi. Nitrogen is an essential nutrient for cell growth and proliferation. Limitations of nitrogen availability in organisms elicit a series of rapid transcriptional reprogramming mechanisms, which involve the participation of many transcription factors. However, the specific mechanism of coordination between different transcription factors regulating nitrogen metabolism has not been explored. Our study revealed that GCN4 interacts with SKO1 and that they are both involved in regulating nitrogen utilization by affecting the transcription level of . We also found that GCN4 activates transcription by directly binding to the promoter recognition region of . SKO1 facilitates the transcription of by GCN4 by forming a more stable complex with GCN4. Our study deepens our understanding of the regulatory network of nitrogen metabolism and demonstrates a further level of regulation for transcription factors.