Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi

Research output: Contribution to journalJournal articleResearchpeer-review

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Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi. / Kreuzenbeck, Nina B.; Dhiman, Seema; Roman, Dávid; Burkhardt, Immo; Conlon, Benjamin H.; Fricke, Janis; Guo, Huijuan; Blume, Janis; Görls, Helmar; Poulsen, Michael; Dickschat, Jeroen S.; Köllner, Tobias G.; Arndt, Hans-Dieter; Beemelmanns, Christine.

In: Communications Chemistry, Vol. 6, 79, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Kreuzenbeck, NB, Dhiman, S, Roman, D, Burkhardt, I, Conlon, BH, Fricke, J, Guo, H, Blume, J, Görls, H, Poulsen, M, Dickschat, JS, Köllner, TG, Arndt, H-D & Beemelmanns, C 2023, 'Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi', Communications Chemistry, vol. 6, 79. https://doi.org/10.1038/s42004-023-00871-z

APA

Kreuzenbeck, N. B., Dhiman, S., Roman, D., Burkhardt, I., Conlon, B. H., Fricke, J., Guo, H., Blume, J., Görls, H., Poulsen, M., Dickschat, J. S., Köllner, T. G., Arndt, H-D., & Beemelmanns, C. (2023). Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi. Communications Chemistry, 6, [79]. https://doi.org/10.1038/s42004-023-00871-z

Vancouver

Kreuzenbeck NB, Dhiman S, Roman D, Burkhardt I, Conlon BH, Fricke J et al. Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi. Communications Chemistry. 2023;6. 79. https://doi.org/10.1038/s42004-023-00871-z

Author

Kreuzenbeck, Nina B. ; Dhiman, Seema ; Roman, Dávid ; Burkhardt, Immo ; Conlon, Benjamin H. ; Fricke, Janis ; Guo, Huijuan ; Blume, Janis ; Görls, Helmar ; Poulsen, Michael ; Dickschat, Jeroen S. ; Köllner, Tobias G. ; Arndt, Hans-Dieter ; Beemelmanns, Christine. / Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi. In: Communications Chemistry. 2023 ; Vol. 6.

Bibtex

@article{efde7f6fe8ab4c0e80ac6d527fcc0fde,
title = "Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi",
abstract = "Macrotermitinae termites have farmed fungi in the genus Termitomyces as a food source for millions of years. However, the biochemical mechanisms orchestrating this mutualistic relationship are largely unknown. To deduce fungal signals and ecological patterns that relate to the stability of this symbiosis, we explored the volatile organic compound (VOC) repertoire of Termitomyces from Macrotermes natalensis colonies. Results show that mushrooms emit a VOC pattern that differs from mycelium grown in fungal gardens and laboratory cultures. The abundance of sesquiterpenoids from mushrooms allowed targeted isolation of five drimane sesquiterpenes from plate cultivations. The total synthesis of one of these, drimenol, and related drimanes assisted in structural and comparative analysis of volatile organic compounds (VOCs) and antimicrobial activity testing. Enzyme candidates putatively involved in terpene biosynthesis were heterologously expressed and while these were not involved in the biosynthesis of the complete drimane skeleton, they catalyzed the formation of two structurally related monocyclic sesquiterpenes named nectrianolins.",
author = "Kreuzenbeck, {Nina B.} and Seema Dhiman and D{\'a}vid Roman and Immo Burkhardt and Conlon, {Benjamin H.} and Janis Fricke and Huijuan Guo and Janis Blume and Helmar G{\"o}rls and Michael Poulsen and Dickschat, {Jeroen S.} and K{\"o}llner, {Tobias G.} and Hans-Dieter Arndt and Christine Beemelmanns",
year = "2023",
doi = "10.1038/s42004-023-00871-z",
language = "English",
volume = "6",
journal = "Communications Chemistry",
issn = "2399-3669",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - Isolation, (bio)synthetic studies and evaluation of antimicrobial properties of drimenol-type sesquiterpenes of Termitomyces fungi

AU - Kreuzenbeck, Nina B.

AU - Dhiman, Seema

AU - Roman, Dávid

AU - Burkhardt, Immo

AU - Conlon, Benjamin H.

AU - Fricke, Janis

AU - Guo, Huijuan

AU - Blume, Janis

AU - Görls, Helmar

AU - Poulsen, Michael

AU - Dickschat, Jeroen S.

AU - Köllner, Tobias G.

AU - Arndt, Hans-Dieter

AU - Beemelmanns, Christine

PY - 2023

Y1 - 2023

N2 - Macrotermitinae termites have farmed fungi in the genus Termitomyces as a food source for millions of years. However, the biochemical mechanisms orchestrating this mutualistic relationship are largely unknown. To deduce fungal signals and ecological patterns that relate to the stability of this symbiosis, we explored the volatile organic compound (VOC) repertoire of Termitomyces from Macrotermes natalensis colonies. Results show that mushrooms emit a VOC pattern that differs from mycelium grown in fungal gardens and laboratory cultures. The abundance of sesquiterpenoids from mushrooms allowed targeted isolation of five drimane sesquiterpenes from plate cultivations. The total synthesis of one of these, drimenol, and related drimanes assisted in structural and comparative analysis of volatile organic compounds (VOCs) and antimicrobial activity testing. Enzyme candidates putatively involved in terpene biosynthesis were heterologously expressed and while these were not involved in the biosynthesis of the complete drimane skeleton, they catalyzed the formation of two structurally related monocyclic sesquiterpenes named nectrianolins.

AB - Macrotermitinae termites have farmed fungi in the genus Termitomyces as a food source for millions of years. However, the biochemical mechanisms orchestrating this mutualistic relationship are largely unknown. To deduce fungal signals and ecological patterns that relate to the stability of this symbiosis, we explored the volatile organic compound (VOC) repertoire of Termitomyces from Macrotermes natalensis colonies. Results show that mushrooms emit a VOC pattern that differs from mycelium grown in fungal gardens and laboratory cultures. The abundance of sesquiterpenoids from mushrooms allowed targeted isolation of five drimane sesquiterpenes from plate cultivations. The total synthesis of one of these, drimenol, and related drimanes assisted in structural and comparative analysis of volatile organic compounds (VOCs) and antimicrobial activity testing. Enzyme candidates putatively involved in terpene biosynthesis were heterologously expressed and while these were not involved in the biosynthesis of the complete drimane skeleton, they catalyzed the formation of two structurally related monocyclic sesquiterpenes named nectrianolins.

U2 - 10.1038/s42004-023-00871-z

DO - 10.1038/s42004-023-00871-z

M3 - Journal article

C2 - 37095327

VL - 6

JO - Communications Chemistry

JF - Communications Chemistry

SN - 2399-3669

M1 - 79

ER -

ID: 345167581