Bačkor, M.; Kecsey, D.; Drábová, B.; Urminská, D.; Šemeláková, M.; Goga, M.
Secondary Metabolites from Australian Lichens Ramalina celastri and Stereocaulon ramulosum Affect Growth and Metabolism of Photobiont Asterochloris erici through Allelopathy. Molecules 2024, 29, 4620.
https://doi.org/10.3390/molecules29194620
AMA Style
Bačkor M, Kecsey D, Drábová B, Urminská D, Šemeláková M, Goga M.
Secondary Metabolites from Australian Lichens Ramalina celastri and Stereocaulon ramulosum Affect Growth and Metabolism of Photobiont Asterochloris erici through Allelopathy. Molecules. 2024; 29(19):4620.
https://doi.org/10.3390/molecules29194620
Chicago/Turabian Style
Bačkor, Martin, Dajana Kecsey, Blažena Drábová, Dana Urminská, Martina Šemeláková, and Michal Goga.
2024. "Secondary Metabolites from Australian Lichens Ramalina celastri and Stereocaulon ramulosum Affect Growth and Metabolism of Photobiont Asterochloris erici through Allelopathy" Molecules 29, no. 19: 4620.
https://doi.org/10.3390/molecules29194620
APA Style
Bačkor, M., Kecsey, D., Drábová, B., Urminská, D., Šemeláková, M., & Goga, M.
(2024). Secondary Metabolites from Australian Lichens Ramalina celastri and Stereocaulon ramulosum Affect Growth and Metabolism of Photobiont Asterochloris erici through Allelopathy. Molecules, 29(19), 4620.
https://doi.org/10.3390/molecules29194620
