PLANT CELL BIOTECHNOLOGY AND MOLECULAR BIOLOGY

The genus Ganoderma comprises a group of wood-decaying basidiomycete fungi widely recognized for their medicinal and pharmacological significance. Species of Ganoderma have been used for centuries in traditional Asian medicine, particularly in China, Japan, and Korea, where they are valued for their health-promoting properties. In recent decades, scientific research has increasingly focused on understanding the diversity, bioactive compounds, and therapeutic potential of these fungi. The genus includes more than 200 species distributed across tropical, subtropical, and temperate regions of the world. Among them, Ganoderma lucidum, Ganoderma sinense, and Ganoderma applanatum are some of the most extensively studied due to their remarkable medicinal value and wide industrial applications. Ganoderma species are rich sources of biologically active compounds, including polysaccharides, triterpenoids, proteins, phenolic compounds, sterols, and nucleosides. These metabolites contribute to a wide range of pharmacological activities such as anticancer, antioxidant, antimicrobial, anti-inflammatory, antidiabetic, and cardioprotective effects. Polysaccharides, particularly β-glucans, are known for their strong immunomodulatory and antioxidant properties, while triterpenoids such as ganoderic acids exhibit potent anticancer and anti-inflammatory activities. In addition to their pharmacological importance, Ganoderma species have significant industrial applications in pharmaceuticals, nutraceuticals, cosmetics, agriculture, and environmental biotechnology. Advancements in molecular biology and DNA-based identification techniques have improved the understanding of Ganoderma taxonomy and phylogeny, enabling more accurate species identification and classification. Modern cultivation techniques and fermentation technologies have also facilitated the large-scale production of Ganoderma fruiting bodies and mycelial biomass, supporting the growing global demand for medicinal mushroom products. Furthermore, enzymes produced by Ganoderma, such as laccases and peroxidases, have important applications in bioremediation and industrial processes. This review provides a comprehensive overview of Ganoderma species, focusing on their taxonomy, diversity, morphological and biological characteristics, bioactive compounds, pharmacological properties, and industrial applications. It also highlights current cultivation practices and future research directions aimed at enhancing the utilization of Ganoderma as a valuable natural resource for medicine, biotechnology, and sustainable industrial development.