Proteomic characterization of Pseudogymnoascus spp. isolates from polar and temperate regions.
Nurlizah Abu BakarBenjamin Yii Chung LauJerzy SmyklaSaiful Anuar KarsaniSiti Aisyah AliasPublished in: Mycologia (2024)
Proteomics has been used extensively in the field of mycology, mainly in trying to understand the complex network of protein-protein interactions that has been implicated in the molecular functions of fungi. It is also a useful tool to compare metabolic differences within a genus. Species of Pseudogymnoascus , a genus under the phyla Ascomycota, have been shown to play an important role in the soil environment. They have been found in both polar and temperate regions and are a known producer of many extracellular hydrolases that contribute to soil decomposition. Despite the apparent importance of Pseudogymnoascus spp. in the soil ecosystem, investigations into their molecular functions are still very limited. In the present study, proteomic characterization of six Pseudogymnoascus spp. isolated from three biogeographic regions (the Arctic, Antarctic, and temperate regions) was carried out using tandem mass spectrometry. Prior to proteomic analysis, the optimization for protein extraction was carried out. Trichloroacetic acid‑acetone‑phenol was found to be the best extraction method to be used for proteomic profiling of Pseudogymnoascus spp. The proteomic analysis identified 2003 proteins that were successfully mapped to the UniProtKB database. The identified proteins were clustered according to their biological processes and molecular functions. The shared proteins found in all Pseudogymnoascus spp. (1201 proteins) showed a significantly close relationship in their basic cellular functions, despite differences in morphological structures. Analysis of Pseudogymnoascus spp. proteome also identified proteins that were unique to each region. However, a high number of these proteins belonged to protein families of similar molecular functions, namely, transferases and hydrolases. Our proteomic data can be used as a reference for Pseudogymnoascus spp. across different global regions and a foundation for future soil ecosystem function research.
Keyphrases
- tandem mass spectrometry
- label free
- high resolution
- mass spectrometry
- single molecule
- high performance liquid chromatography
- emergency department
- simultaneous determination
- single cell
- magnetic resonance imaging
- machine learning
- ultra high performance liquid chromatography
- magnetic resonance
- binding protein
- plant growth
- artificial intelligence
- big data
- current status
- solid phase extraction
- deep learning
- data analysis
- network analysis