DOI 10.1016/j.phytochem.2021.113003 KEYWORDS Botrytis cinerea; sclerotiniaceae; phytopathogenic fungus; STC7; eremophilenols; 11,12,13-Tri-nor-eremophilenes; biosynthesis ABSTRACT Botrytis cinerea has high potential for the production of specialized metabolites. The recent resequencing of the genome of the B05.10 strain using PacBio technology and the resulting update of the Ensembl Fungi (2017) database in the genome sequence have been instrumental in identifying […]
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entrada | mayo 12, 2022 | DOI 10.1016/j.phytochem.2021.113003 KEYWORDS Botrytis cinerea; sclerotiniaceae; phytopathogenic fungus; STC7; eremophilenols; 11,12,13-Tri-nor-eremophilenes; biosynthesis ABSTRACT Botrytis cinerea has high potential for the production... |