Macrocarpones, novel metabolites from stromata of Hypoxylon macrocarpum, and new evidence on the chemotaxonomy of Hypoxylon species

Several species of the genus Hypoxylon (Xylariaceae) were studied for morphological characters and HPLC-based secondary metabolite profiles. It was confirmed that Hypoxylon is divided into two groups of species, containing either Mitorubrin type azaphilones or binaphthyls, respectively, as main meta...

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Veröffentlicht in:	Mycological progress 2002-08, Vol.1 (3), p.235-248
Hauptverfasser:	Mühlbauer, Andrea, Triebel, Dagmar, Persoh, Derek, Wollweber, Hartmund, Seip, Stephan, Stadler, Marc
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Schlagworte:	Chemotaxonomy Liquid chromatography Mass spectrometry Metabolites
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description	Several species of the genus Hypoxylon (Xylariaceae) were studied for morphological characters and HPLC-based secondary metabolite profiles. It was confirmed that Hypoxylon is divided into two groups of species, containing either Mitorubrin type azaphilones or binaphthyls, respectively, as main metabolites. In Hypoxylon species of the latter group, some metabolites that are known from the allied genus Daldinia (i.e., Daldinal A in H. fuscum and Daldinin C in H. fuscopurpureum), were encountered for the first time. Moreover, three novel aromatic polyketides, for which the trivial names Macrocarpones A, B and C are proposed, were isolated from ascostromata of Hypoxylon macrocarpum and identified by high resolution mass spectrometry and 2D-NMR spectroscopy. Orsellinic Acid was also identified from ascostromata of H. howeianum and detected by HPLC-MS and HPLC-UV/Vis fingerprinting methodology in H. fragiforme and H. rubiginosum, but not in other examined Hypoxylon species. Due to these studies, H. fuscopurpureum sensu Y.-M. Ju & J.D. Rogers 1996 was identified as a new record for Germany.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s11557-006-0021-z
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subjects	Chemotaxonomy Liquid chromatography Mass spectrometry Metabolites
title	Macrocarpones, novel metabolites from stromata of Hypoxylon macrocarpum, and new evidence on the chemotaxonomy of Hypoxylon species
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