Wend K., Zorrilla L., Freimoser F., Gallet A.
Microbial pesticides – challenges and future perspectives for testing and safety assessment with respect to human health.
Environmental Health, 23, 2024, 1-29.
Von Ah U., Freimoser F.
Die Anwendungen der «schönen» Hefe Metschnikowia pulcherrima sind vielfältig.
Agrarforschung Schweiz, 15, 2024, 47-52.
Freimoser F., Mahler M., McCullough M., Brachmann A. O., Nägeli L., Hilber M., Piel J., Hoffmann S. A., Cai Y.
Heterologous pulcherrimin production in Saccharomyces cerevisiae confers inhibitory activity on Botrytis conidiation.
FEMS Yeast Research, 24, 2024, 1-8.
Freimoser F., Perren S., Von Ah U.
Une levure qui protège les plantes.
Journal Agri, 15 décembre, 2023, 21.
Nägeli L., Schuler M., Segessemann T., Frei D., Frey J., Ahrens C., Wolfe K., Freimoser F.
Genome sequence data of the strongly antagonistic yeast Pichia kluyveri isolate APC 11.10 B as a foundation for analysing biocontrol mechanisms.
Data in Brief, 49, 2023, 1-7.
Rueda-Mejia M. P., Bühlmann A., Ortiz-Merino R. A., Lutz S., Ahrens C., Künzler M., Freimoser F.
Pantothenate auxotrophy in a naturally occurring biocontrol yeast.
Applied and Environmental Microbiology, 89, (7), 2023, 1-13.
Magoye E., Nägeli L., Bühlmann A., Hilber M., Keller P., Mühlethaler K., Riat A., Schrenzel J., Freimoser F.
Clinical Aureobasidium isolates are more fungicide sensitive than many agricultural isolates.
Microbiology Spectrum, 11, (2), 2023, 1-5.
Rueda Mejia M. P., Nägeli L., Lutz S., Ortiz-Merino R. A., Frei D., Frey J. E., Wolfe K. H., Ahrens C., Freimoser F.
Genome sequence data of the antagonistic soil-borne yeast Cyberlindnera sargentensis (SHA 17.2).
Data in Brief, 40, (February), 2022, 1-6.
Collatz J., Hinz H., Kaser J., Freimoser F.
Chapter : Benefits and risks of biological control.
In: Biological control: global impacts, challenges and future directions of pest management. Oktober 2021, Publ. P. Mason, CSIRO Publishing. 2021, 142-165.
Bühlmann A., Kammerecker S., Müller L., Hilber M., Perren S., Freimoser F.
Stability of dry and liquid Metschnikowia pulcherrima formulations for biocontrol applications against apple postharvest diseases.
Horticulturae, 7, (11), 2021, 1-16.
Rueda Mejia M. P., Nägeli L., Lutz S., Hayes R.D., Varadarajan A. R., Grigoriev I. V., Ahrens C., Freimoser F.
Genome, transcriptome and secretome analyses of the antagonistic, yeast-like fungus Aureobasidium pullulans to identify potential biocontrol genes.
Microbial Cell, 8, (8), 2021, 184-202.
Magoye E., Hilber M., Pfister, M., Freimoser F.
Unconventional Yeasts Are Tolerant to Common Antifungals, and Aureobasidium pullulans Has Low Baseline Sensitivity to Captan, Cyprodinil, and Difenoconazole.
Antibiotics, 9, (9), 2020, 1-19.
Perren S., Peter J., Freimoser F., Naef A.
Monilia im Obstbau.
Agroscope, Wädenswil. Merkblatt Nr 122, 2020.
other Languages:
Lutz S., Thuerig B., Oberhaensli T., Mayerhofer J., Fuchs J. G., Widmer F., Freimoser F. M., Ahrens C. H.
Harnessing the microbiomes of suppressive composts for plant protection: from metagenomes to beneficial microorganisms and reliable diagnostics.
Frontiers in Microbiology, 11, (30 July, online), 2020, 1-15.
Magoye E., Pfister M., Hilber M., Freimoser F.
Competition assays to quantify the effect of biocontrol yeasts against plant pathogenic fungi on fruits.
Bio-Protocol, 10, (3), 2020, 1-9.
Gore-Lloyd D., Sumann I., Brachmann A. O., Schneeberger K., Ortiz-Merino R. A., Schläfli M., Kirner P., Santos Kron A., Rueda Mejia M. P., Somerville V., Wolfe K. H., Piel J., Ahrens C., Henk D., Freimoser F.
Snf2 controls pulcherriminic acid biosynthesis and antifungal activity of the biocontrol yeast Metschnikowia pulcherrima.
Molecular Microbiology, 112, (1), 2019, 317-332.
Freimoser F., Rueda Mejia M. P., Tilocca B., Migheli Q.
Biocontrol yeasts: mechanisms and applications.
World Journal of Microbiology and Biotechnology, 35, (10), 2019, 1-19.
Gross S., Kunz L., Müller D.C., Santos Kron A., Freimoser F.
Characterization of antagonistic yeasts for biocontrol applications on apples or in soil by quantitative analyses of synthetic yeast communities.
Yeast, online, (12 May), 2018, 1-8.
Drissner D., Freimoser F.
MALDI‑TOF mass spectroscopy of yeasts and filamentous fungi for research and diagnostics in the agricultural value chain.
Chemical and Biological Technologies in Agriculture, 4, (13), 2017, 1-12.
Hilber M., Schmid M., Ahrens C., Freimoser F.
Competition assays and physiological experiments of soil and phyllosphere yeasts identify Candida subhashii as a novel antagonist of filamentous fungi.
BMC Microbiology, 17, (4), 2017, 1-15.