AbstractForty endophytic fungi isol

Abstract
Forty endophytic fungi isolated from ginseng plants were screened to identify metabolites that had antifungal activity against ginseng microbial pathogens. The metabolites from the fungi were extracted from the liquid culture filtrates using ethyl acetate and then evaluated in vitro for antimicrobial activity against ginseng pathogens (Alternaria panax, Botrytis cinerea, Colletotrichum panacicola, Cylindrocarpon destructans, Rhizoctonia solani, and Phytophthora cactorum). Six of the fungi (Colletotrichum pisi, Fusarium oxysporum, Fusarium solani, Phoma terrestris, unknown 1 and 2) showed effective antimicrobial activity against all or some of the ginseng pathogens, with the extract of P. terrestris showing the strongest antimicrobial activity. The extract also showed inhibitory activity against spore germination of the pathogens. Gas chromatography–mass spectrometry (GC–MS) analysis of P. terrestris extract revealed that forty-one compounds were present in metabolites containing mainly N-amino-3-hydroxy-6-methoxyphthalimide (32% of the total metabolites) and 5H-dibenz [B, F] azepine (7%). Treatment with P. terrestris extract also caused morphological changes and reduced expression of the genes involved in mycelial growth and virulence. Treatment also induced defense-related genes in detached Arabidopsis leaves that were inoculated with the pathogens. These results indicate the antimicrobial potential for use of metabolites extracted from the ginseng endophytic fungi as alternatives to chemicals for biocontrol.

Keywords
Panax ginseng; Endophytic fungi; Antimicrobial metabolites; Gas chromatography–mass spectrometry (GC–MS); Scanning electron microscopy (SEM)
1. Introduction
Ginseng, Panax ginseng Meyer, is a perennial herbaceous plant that has been used for thousands of years as an herbal medicine ( Yu et al., 2003). Ginseng has many pharmacological activities including anticancer, antidiabetic, antioxidant and antiamnestic properties (Ernst, 2010). There are many well-known active compounds in all parts of ginseng plants, including ginsenosides, amino acids, phenolics, alkaloids, polypeptides and vitamins ( Choi, 2008 and Kim et al., 2010). Among these compounds, ginsenosides are considered to be important bioactive metabolites that have various pharmacological activities (Vogler et al., 1999). At least 4 years are required to produce commercially valuable ginseng roots (Jin et al., 2009), during which time plants can be affected by many problematic diseases. The most common pathogenic fungi of ginseng in Korea are Alternaria panax, Botrytis cinerea, Colletotrichum panacicola, Cylindrocarpon destructans, Rhizoctonia solani, and Phytophthora cactorum ( Li, 1994 and Cho et al., 2007).

Endophytic fungi are defined as fungi that spend all or part of their life cycles within and/or between plant cells, typically without causing harmful effects; however, they may become pathogenic during senescence of their host plants (Rodriguez et al., 2009). These organisms play important roles as components of plant ecosystems (Schardl et al., 2004 and Aly et al., 2011). Indeed, endophytic fungi have been found in most plant species examined, and over million fungal endophytes exist in nature (Guo et al., 2008). Endophytic fungi comprise a diverse group of species that fall into two major groups: clavicipitaceous (C) and nonclavicipitaceous (NC) endophytes (Rodriguez et al., 2009). C endophytes are characterized by systemic fungal colonization of host plants by only one endophytic fungus, which results in the development of long-term symbiosis. NC endophytes have not been well-defined taxonomically, but the majority belongs to the phyla Ascomycota and Basidiomycota. Endophytic fungi live in woody and herbaceous plants, where they provide beneficial effects to plants such as increased resistance to disease, abiotic stress, and enhancement of plant growth. These organisms, which have been recognized as a potential and novel sources of natural bioactive products for exploitation in agriculture, medicine and industry ( Gunatilaka, 2006), produce many valuable bioactive compounds that have antimicrobial, insecticidal, cytotoxic, and anticancer activities ( Strobel, 2006 and Aly et al., 2011). These bioactive compounds consist of alkaloids, terpenoids, and phenolic compounds (Zhang et al., 2006), which can help host plants resist various stresses, benefit plant growth, and enhance secondary metabolite production of host plants (Silvia et al., 2007).

Although endophytic fungi can be used to protect ginseng from pathogens and improve its quality, there have been few investigations of endophytic fungi isolated from various tissues of ginseng. In this study, we investigated the potential antifungal activity of metabolites extracted from endophytic fungi of ginseng against ginseng pathogens.