2010; Debbab et al. 2011, 2012; Kesting et al. 2011). Nevertheless, medicinal plants have been proven to be a rich source of novel chemical entities (Aly et al. 2011; Maneerat et al. 2012), and further studies will certainly be rewarding. Kusari and co-authors [12] have undertaken a case study on endophytic fungi from Cannabis sativa, and surprisingly found that the majority of the 30 endophyte strains belonged to the genus Penicillium, which has hitherto Citarinostat price been thought to be less well-represented among
the endophytic mycota than in other habitats such as soil. Penicillium and other genera represented among the isolated endophyte strains are known to be prolific sources of novel bioactive compounds. Promising antagonistic effects in vitro of the endophytes were observed in dual culture against the Cannabis pathogens, Botrytis cinerea and Trichothecium roseum, and therefore chances are high that novel secondary Fosbretabulin in vivo metabolites with interesting bioactivities can be obtained from an
in-depth characterisation see more of the novel strains. Tejesvi et al. [13] describe the discovery and bioactivities of a novel antimicrobial peptide from an endophytic strain of Fusarium. The authors used transcriptomics, combined with analytical chemistry and chromatography to isolate and characterise the new compound, which showed moderate, broad spectrum antibiotic activities and has a molecular weight of over 6.000 Da. A straightforward method for sustainable production of the novel peptide, named Trtesin, after cloning and heterologous expression was also developed. Interestingly, this innovative class of bioactive metabolites has hitherto been neglected, since conventional bioprospecting approaches have mainly targeted medium polar to lipophilic compounds with molecular weights of <2,000 Da. A systematic screening
of endophytic and non-endophytic fungi for such “large antibiotics” will in all likelihood reveal numerous novel chemical entities with potential utility, which can very likely be made more easily accessible by biotechnological production than many of the “conventional” secondary metabolites. Heinig and co-authors [14] may have resolved a long-standing mystery concerning the evolution of a complex terpenoid biosynthetic pathway in two distantly related organisms: They evaluated Taxol biosynthesis in Taxomyces andreanae (which Enzalutamide mw should, fide Seifert et al. 2011, in future be regarded as a species of Cladorrhinum) and various other endophytic fungi derived from Taxus plants. Using a combination of state of the art methodology comprising analytical chemistry, molecular biology and genomics, they were unable to find any sound evidence that genes encoding for the biosynthesis of Taxol are present in the endophytic fungi. This anticancer compound was only detected in traces in primary cultures of the endophytes, but soon disappeared after several sub cultivation steps.