a Department of Biology , Centro de Estudos do Ambiente e do Mar, University of Aveiro, Campus Universitário de Santiago , Aveiro , 3810-193 , Portugal.
b Department of Chemical Sciences , University of Naples " Federico II ," 80126 Naples , Italy.
Mycologia. 2019 May-Jun;111(3):466-476. doi: 10.1080/00275514.2019.1600342. Epub 2019 Apr 26.
is a fungal plant pathogen that has been associated with Botryosphaeria dieback of grapevine. Despite several studies on , until now the production of secondary metabolites by strains isolated from grapevines has not been reported. The ability of two strains of isolated from grapevine to produce lipophilic metabolites was studied. Although many typical compounds of low molecular weight were identified from the crude extracts of both strains (e.g., lasiolactols, substituted 2-dihydrofuranones, melleins, jasmonic acid, 3-indolcarboxylic acid, botryodiplodins), (2/2,3,4)-3--botryodiplodin was isolated for the first time as a natural compound. Furthermore, a comparative study of metabolite production was conducted at 25 and 37 C to understand temperature effects on metabolite profiles. Some metabolites were produced only by one strain (e.g., (3,4)-4-acetyl-3-methyl-2-dihydrofuranone produced by LA-SOL3) and others only at a specific temperature (e.g., jasmonic acid at 25 C, botryodiplodins at 37 C). Phytotoxicity and cytotoxicity of pure compounds were evaluated to clarify the influence of lipophilic metabolites on the biological activities of culture filtrates of both strains. The most toxic compound for Vero and 3T3 cells was (2/2,3,4)-3--botryodiplodin.
是一种真菌植物病原体,与葡萄藤的 Botryosphaeria 衰退有关。尽管已经有几项关于 的研究,但到目前为止,尚未报道过从葡萄藤中分离出的菌株产生次生代谢产物的情况。研究了从葡萄藤中分离出的两个 菌株产生亲脂性代谢产物的能力。尽管从两个菌株的粗提取物中鉴定出了许多典型的低分子量化合物(例如,lasiolactols,取代的 2-二氢呋喃酮,melleins,茉莉酸,3-吲哚羧酸,botryodiplodins),但(2/2,3,4)-3--botryodiplodin 是作为天然化合物首次被分离出来的。此外,还进行了在 25 和 37°C 下的代谢产物生产比较研究,以了解温度对代谢产物谱的影响。一些代谢产物仅由一个菌株产生(例如,LA-SOL3 产生的(3,4)-4-乙酰基-3-甲基-2-二氢呋喃酮),而其他代谢产物仅在特定温度下产生(例如,25°C 下产生茉莉酸,37°C 下产生 botryodiplodins)。评估了纯化合物的植物毒性和细胞毒性,以阐明亲脂性代谢产物对两个菌株的培养滤液生物活性的影响。对 Vero 和 3T3 细胞毒性最大的化合物是(2/2,3,4)-3--botryodiplodin。
