Journal of Scientific Research and Reports

The review assesses the impact of current research findings on mineral supplementation, plant extract enrichments, agro-industrial by-products, and grain-based substrates on metabolite synthesis.  A valuable entomopathogenic medicinal fungus called Cordyceps militaris has become a promising bioresource for the synthesis of pharmacologically active substances like cordycepin, polysaccharides, and nucleosides. Developing optimized cultivation systems to increase the yield and quality of these bioactive metabolites is becoming more and more popular as the demand for functional foods, nutraceuticals, and bio-pharmaceuticals rises globally. In order to maximize the production of cordycepin and other therapeutic compounds in C. militaris, this review critically analyses recent developments and technological advancements in substrate and media optimization. It highlights cutting-edge farming techniques and investigates potential future paths for environmentally friendly, economically feasible production models. The strategic use of elicitors, developments in liquid static and submerged fermentation systems, the possible use of biotechnological interventions, and AI-based growth monitoring systems are also covered. According to recent data, cordycepin content and other bioactive metabolites can be considerably increased in both solid-state and liquid cultivation systems through careful substrate formulation and media enrichment. There is great potential for scalable, economical production through the combination of fermentation optimization and media engineering techniques. Additionally, precision cultivation models and AI-driven environmental monitoring are showing promise as instruments to enhance metabolite profiles and yield consistency. To position Cordyceps militaris as a high-value functional food, medicinal mushroom, and sustainable agri-biotech enterprise opportunity, the review highlights the importance of media optimization and astute cultivation techniques in enhancing the plant's therapeutic, economic, and commercial value.