M
Michael Spiteller
Researcher at Technical University of Dortmund
Publications - 399
Citations - 12520
Michael Spiteller is an academic researcher from Technical University of Dortmund. The author has contributed to research in topics: Mass spectrometry & Crystal structure. The author has an hindex of 53, co-authored 387 publications receiving 10899 citations. Previous affiliations of Michael Spiteller include Bulgarian Academy of Sciences & Ruhr University Bochum.
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Chemical Ecology of Endophytic Fungi: Origins of Secondary Metabolites
TL;DR: The possible current and future strategies of understanding the chemical communication of endophytic fungi with other endophytes and with their host plants might not only allow the discovery and sustainable production of desirable natural products but also other mostly overlooked bioactive secondary metabolites.
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DFT and experimental studies of the structure and vibrational spectra of curcumin
TL;DR: In this paper, the potential energy surface of curcumin [1,7-bis(4-hydroxy-3-methoxyphenyl)-1,6-heptadiene-3,5-dione] was explored with the DFT correlation functional B3LYP method using 6-311G* basis.
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An endophytic fungus from Camptotheca acuminata that produces camptothecin and analogues
TL;DR: The results offer a caution as to the possibility of using endophytic fungi as alternate sources of plant secondary metabolite production, and further studies have been initiated on the analysis of the upstream metabolic intermediates to understand the steps at which the production of the metabolites in question is constrained.
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Recent advances in research on lignans and neolignans
TL;DR: This review describes 564 of the latest examples of naturally occurring lignans and neolignans, and their glycosides in some cases, which have been isolated between 2009 and 2015 and highlights the biosynthesis and total synthesis of some important ones.
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An endophytic fungus from Hypericum perforatum that produces hypericin.
TL;DR: This endophytic fungus has significant scientific and industrial potential to meet the pharmaceutical demands for 1 in a cost-effective, easily accessible, and reproducible way.