Mechanism of Resistance TAF(II) Protein of Aspergillus salvadorensis to Oxidative Stress in its Environment
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Date
2026-05-06
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PSM Microbiology Journal
Abstract
In this study,bioinformatics analysis of the protein sequences of the Aspergillus salvadorensisgenome was carried out, with the aim of identifying key proteins that participate in metabolic, structural and regulatory processes. Through functional annotation tools and comparison with protein databases, several proteins with relevant biological functions were found, including ferrochelatase, the mitochondrial transporter of thiamine pyrophosphate, annexins and hydrolytic enzymes such as endo-β-1,4-glucanase. These proteins play critical roles, such as heme biosynthesis, mitochondrial energy metabolism, cellular homeostasis, and remodeling of the fungal cell wall. Comparative sequence analysis showed that many of these proteins are very similar to those of other filamentous fungi, especially Neurospora crassa, indicating a strong evolutionary conservation of genes involved in essential metabolic pathways. In addition, proteins related to the regulation of gene transcription were identified, such as the TAF(II) subunit of the TFIID complex, which helps initiate RNA polymerase II-dependent transcription and regulates gene expression in the face of changes in the environment. This protein allows A. salvadorensisto precisely control the production of industrial enzymes and secondary metabolites, ensuring that they are generated at the right timeand place within the cell. The hydrolytic enzymes detected also suggest that the fungus has a strong ability to remodel its cell wall and possibly to degrade complex polymers present in its environment. This characteristic is common in filamentous fungi that live in environments rich in organic matter, where biomass degradation is key to obtaining nutrients. The results show that A. salvadorensis has a complex metabolic and regulatory network, which allows it to adapt to the environment, grow efficiently and resist certain antifungal compounds. Likewise, its repertoire of enzymes and specialized metabolic systems highlights its potential biotechnological value, with applications in biodegradation, production of industrial enzymes and studies of molecular biology of fungi.
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Aspergillus salvadorensis, TAF protein, ferrochelatase, endo-β-1, 4-glucanase
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https://psmjournals.org/index.php/microbiol/article/view/969/778