AI Article Synopsis
- The study investigates the effects of light exposure on gene regulation in a fungus used in traditional Chinese medicine, aiming to understand its growth, development, and metabolite production.
- An expanded gene regulatory network was created, identifying key transcription factors and regulated genes that respond to light, highlighting their potential importance in the fungus's functions.
- Molecular docking analysis suggested two novel transcription factors might play significant roles in light signaling pathways, paving the way for future research on transcriptional regulation in fungi.
Article Abstract
, a fungus widely used in traditional Chinese medicine and pharmacology, is recognized for its abundant bioactive compounds, including cordycepin and carotenoids. The growth, development, and metabolite production in various fungi are influenced by the complex interactions between regulatory cascades and light-signaling pathways. However, the mechanisms of gene regulation in response to light exposure in remain largely unexplored. This study aimed to identify light-responsive genes and potential transcription factors (TFs) in through an integrative transcriptome analysis. To achieve this, we reconstructed an expanded gene regulatory network (eGRN) comprising 507 TFs and 8662 regulated genes using both interolog-based and homolog-based methods to build the protein-protein interaction network. and were chosen as templates due to their relevance as fungal models and the extensive study of their light-responsive mechanisms. By utilizing the eGRN as a framework for comparing transcriptomic responses between light-exposure and dark conditions, we identified five key TFs-homeobox TF (CCM_07504), FlbC (CCM_04849), FlbB (CCM_01128), C6 zinc finger TF (CCM_05172), and mcrA (CCM_06477)-along with ten regulated genes within the light-responsive subnetwork. These TFs and regulated genes are likely crucial for the growth, development, and secondary metabolite production in . Moreover, molecular docking analysis revealed that two novel TFs, CCM_05727 and CCM_06992, exhibit strong binding affinities and favorable docking scores with the primary light-responsive protein CmWC-1, suggesting their potential roles in light signaling pathways. This information provides an important functional interactive network for future studies on global transcriptional regulation in and related fungi.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11476991 | PMC |
| http://dx.doi.org/10.3390/ijms251910516 | DOI Listing |
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