Rosolen, R. R.; Horta, M. A. C.; Sforca, D. A.; de Souza, A. P.

In filamentous fungi, light plays a key role in regulating physiological processes such as growth, conidiation, secondary metabolism, and the expression of hydrolytic enzymes. The processes that depend on light are controlled by photoreceptors, including BLR1, BLR2, and ENV1, as well as by signaling pathways involving heterotrimeric G-proteins and cyclic adenosine monophosphate (cAMP). Trichoderma harzianum is a promising candidate for biotechnological use and is able to promote hydrolytic reactions under biomass degradation conditions. However, the genetic mechanisms underlying its response to light remain poorly understood, especially under degradative conditions. This study aimed to assess the expression of carbohydrate-active enzymes (CAZymes), transcription factors (TFs), and signaling pathway proteins under different light conditions and carbon sources. The results revealed distinct patterns of relative gene expression influenced by these environmental factors, highlighting the complex regulatory mechanisms at play in T. harzianum. Moreover, our results suggested that env1, cre1, and blr2 are critical for adjusting to different light conditions and carbon sources. This highlights the importance of both factors in regulating gene expression and supporting metabolic adaptation in T. harzianum. To our knowledge, such findings have not been previously reported in the context of cellulose degradation for this species. Overall, these results offer valuable insights into how T. harzianum responds to environmental changes, revealing a complex regulatory network that is not only crucial for optimizing fungal growth in industrial applications but also deepens our understanding of its biology and ecological interactions.