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Endophytic fungi: a source of novel biologically active secondary metabolites
- Barbara SCHULZ, Christine BOYLE, Siegfried DRAEGER, Anne-Katrin RÖMMERT, Karsten KROHN
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- Journal:
- Mycological Research / Volume 106 / Issue 9 / September 2002
- Published online by Cambridge University Press:
- 13 November 2002, pp. 996-1004
- Print publication:
- September 2002
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In the continual search by both pharmaceutical and agricultural industries for new products, natural selection has been found to be superior to combinatorial chemistry for discovering novel substances that have the potential to be developed into new industrial products. Since natural products are adapted to a specific function in nature, the search for novel secondary metabolites should concentrate on organisms that inhabit novel biotopes. Endophytic fungi inhabit such a biotope. In the course of the last 12 years, we have isolated ∼ 6500 endophytic fungi from herbaceous plants and trees, screened them for biological activities, and have isolated and determined the structures of the biologically active compounds. Correlations were found between biological activity and biotope, e.g. a higher proportion of the fungal endophytes, in contrast to the soil isolates, inhibited at least one of the test organisms for antialgal and herbicidal activities. The substances isolated originated from different biosynthetic pathways: isoprenoid, polyketide, amino acid derivatives, and belonged to diverse structural groups: terpenoids, steroids, xanthones, chinones, phenols, isocumarines, benzopyranones, tetralones, cytochalasines, and enniatines. The potential role of the endophyte and its biologically active metabolites in its association with its host has been investigated. The fungal endophytes possess the exoenzymes necessary to colonize their hosts and they grow well in the apoplastic washing fluid of the host. When the roots of larch are colonized, the association with the host may be mutualistic, improving growth of the host and supplying the mycobiont with enough nourishment to extensively colonize the host's roots. The concentrations of some plant defence metabolites are lower than in the control when the host is infected with a pathogen than with an endophyte. We hypothesize that the interaction fungal endophyte–plant host is characterized by a finely tuned equilibrium between fungal virulence and plant defence. If this balance is disturbed by either a decrease in plant defence or an increase in fungal virulence, disease develops. Not only must the endophyte synthesize metabolites to compete first with epiphytes and then with pathogens in order to colonize the host, but presumably also to regulate metabolism of the host in their delicately balanced association. The utilization of a biotope such as that of the fungal endophyte is one aspect of intelligent screening, another very important one is the taxonomy of the fungus in order to avoid redundant structural isolations. It is not a random walk through a random forest. Many groups of fungi in different biotopes are waiting to be exploited.
The endophyte-host interaction: a balanced antagonism?
- BARBARA SCHULZ, ANNE-KATRIN RÖMMERT, ULRIKE DAMMANN, HANS-JÜRGEN AUST, DIETER STRACK
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- Journal:
- Mycological Research / Volume 103 / Issue 10 / October 1999
- Published online by Cambridge University Press:
- 01 October 1999, pp. 1275-1283
- Print publication:
- October 1999
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Since secondary metabolites are involved in fungal-host interactions, those of endophytes and their hosts were studied to try to understand why endophytic infections remain symptomless. A screening of fungal isolates for biologically active secondary metabolites (antibacterial, antifungal, herbicidal) showed that the proportion of endophytic isolates that produced herbicidally active substances was three times that of the soil isolates and twice that of the phytopathogenic fungi. As markers for the plant defence reaction, the concentrations of certain phenolic metabolites were chosen. Those that differed in concentration were higher in the roots of plants infected with an endophyte than in those infected with a pathogen. The results presented here were regarded together with previous studies on other aspects of the plant defence response using dual cultures of plant host calli and endophytes, and of cell suspension cultures following endophytic as compared to pathogenic elicitation. The following hypothesis was developed: both the pathogen-host and the endophyte-host interactions involve constant mutual antagonisms at least in part based on the secondary metabolites the partners produce. Whereas the pathogen-host interaction is imbalanced and results in disease, that of the endophyte and its host is a balanced antagonism.