Abstract
Ophiocordyceps sinensis, an ascomycete caterpillar fungus, has been used as a Traditional Chinese Medicine owing to its bioactive properties. However, until now the bio-active peptides have not been identified in this fungus. Here, the raw RNA sequences of three crucial growth stages of the artificially cultivated O. sinensis and the wild-grown mature fruit-body were aligned to the genome of O. sinensis. Both homology-based prediction and de novo-based prediction methods were used to identify 8541 putative antioxidant peptides (pAOPs). The expression profiles of the cultivated mature fruiting body were similar to those found in the wild specimens. The differential expression of 1008 pAOPs matched genes had the highest difference between ST and MF, suggesting that the pAOPs were primarily induced and play important roles in the process of the fruit-body maturation. Gene ontology analysis showed that most of pAOPs matched genes were enriched in terms of ‘cell redox homeostasis’, ‘response to oxidative stresses’, ‘catalase activity’, and ‘ integral component of cell membrane’. A total of 1655 pAOPs was identified in our protein-seqs, and some crucial pAOPs were selected, including catalase, peroxiredoxin, and SOD [Cu–Zn]. Our findings offer the first identification of the active peptide ingredients in O. sinensis, facilitating the discovery of anti-infectious bio-activity and the understanding of the roles of AOPs in fungal pathogenicity and the high-altitude adaptation in this medicinal fungus.
Highlights
The correlation analysis of differential expression patterns revealed that the three biological samples in each group showed similar high performance, and the samples of the three stages could be clearly assigned to four clusters (Figure 1A)
Combined with the results of the Heatmap (Figure 6F), we found that 9 differential expression AOPs (DAPs)-matched genes were up-regulated in ST compared to the other stages, including MSTRG.2804, MSTRG.4043, MSTRG.5836, and MSTRG.1138; 5 DAPs matched genes were up-regulated in YF compared to the other stages, including MSTRG.2804, MSTRG.7447, MSTRG.6130, MSTRG.4471, and MSTRG.10768; and about 13 DAP-matched genes had higher expression levels in molecular function (MF) compared to the other growth stages, such as MSTRG.10214, MSTRG.4298, MSTRG.10541, and MSTRG.6418
O. sinensis has been reported to have various biological activities that are of relevance for development in pharmaceutical products
Summary
Belongs to the family Ascomycetes and is a highly valued Traditional Chinese Medicine (TCM) fungus used in. Its common name is the Chinese caterpillar fungus, and it naturally inhabits the alpine Qinghai–Tibetan Plateau in South East Asia with an altitude of 3000–5000 m above sea level [3]. Over 20 bioactive ingredients have been reported in this species, including adenosine, cordycepic acid, ergosterol, and polysaccharides, which are thought to be responsible for a range of health benefits, including anti-inflammatory, anti-tumor, immunomodulating, and antioxidative activities [4]. Bioactive peptides have been discovered from a range of prokaryotes and eukaryotes [5]. While bioactive peptides from fungi source account for a small proportion, mainly from Trichoderma viride [5]. Bioactive peptide compounds have not been identified in O. sinensis
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