INTRODUCTION

, a human fungal pathogen, harbors the kinases Irk2 and Irk5, which are classified within the APH phosphotransferase, AGC/YANK protein kinase, and diacylglycerol kinase-like kinase families. Both Irk2 and Irk5 are pivotal for virulence during lung and brain infections. Previous studies have demonstrated that deletion of the gene results in a significant reduction in cell wall associated melanin production, a vital virulence factor that facilitates evasion of host immune responses, while deletion of does not manifest any notable phenotypic alterations.

METHODS

To investigate the impact of or deletion, we generated targeted deletion mutants for each gene. Following the creation of these mutants, we conducted mass spectrometry analyses to evaluate changes in their proteomic and metabolomic profiles. Moreover, we measured intracellular ATP levels in both the wild-type and mutant strains to assess modifications in ATP synthesis.

RESULTS

Mass spectrometry analyses revealed significant alterations in protein and metabolite expression levels in the or deletion mutant compared to the wild-type strain. Furthermore, the deletion of either or resulted in notable changes in intracellular ATP levels.

CONCLUSION

This study suggests that the core virulence kinases Irk2 and Irk5 may play roles in regulating ATP levels and metabolic pathways. By elucidating the effects of these kinases on the proteomic and metabolomic profiles of , this research contributes to our understanding of the underlying molecular mechanisms involved in the pathogenesis of this pathogen.