Fumizol Ltd., Szeged, Hungary.
Department of Physiology and Animal Health, Institute of Physiology and Nutrition, Hungarian University of Agriculture and Life Sciences, Kaposvár Campus, Kaposvár, Hungary.
Food Addit Contam Part A Chem Anal Control Expo Risk Assess. 2022 Oct;39(10):1759-1771. doi: 10.1080/19440049.2022.2116112. Epub 2022 Sep 1.
We have previously published six esterified -acyl (EFB1) and three -acyl fumonisin B derivatives extracted from rice cultures inoculated with , amongst these the identification of -palmitoyl-FB1 has been clearly established in a spiking experiment. At that time, it was assumed that as in the case of -acyl-FB1 derivatives, linoleic-, oleic- or palmitic acid esterify through the OH group on the 3C or 5C atom of the carbon chain of the fumonisins. In our most recent experiments, we have synthetically acylated the FB1 toxin and subsequently purified 3--palmitoyl- and 5--palmitoyl-FB1 toxins in addition to the -palmitoyl-FB1 toxin. They were identified and characterised using H and C NMR as well as LC-HRMS. Our aim was the identification of the previously detected -acyl-FB1 derivatives over the course of a spiking experiment, which were obtained through the solid-phase fermentation of . By spiking the three synthesized and identified components one-by-one into the fungal culture extract and analysing these cultures using LC-MS, it was clearly demonstrated that the strain produced both the 5--palmitoyl-FB1 and -palmitoyl-FB1 toxins, but did not produce 3--palmitoyl-FB1. Thus, it is highly probable that the components thought to be 3--acyl-(linoleoyl-, oleoyl-, palmitoyl-) FB1 derivatives in our previous communication are presumably 10--acyl-FB1 derivatives. Since these acylated FB1 derivatives can occur naturally in e.g. maize, the use of these synthesized components as reference materials is of great importance in order to obtain accurate qualitative and quantitative data on the occurrence of acylated fumonisins in different matrices including maize based feed samples. The production of these substances has also made it possible to test their toxicity in cell culture and small animal experiments.
我们之前已经发表了六篇关于从接种了 的水稻培养物中提取的酯化酰基(EFB1)和三种酰基伏马菌素 B 衍生物的文章,其中 -棕榈酰-FB1 的鉴定在一个添加实验中已经明确。当时,人们假设,就像 -酰基-FB1 衍生物的情况一样,亚油酸、油酸或棕榈酸通过伏马菌素碳链上的 3C 或 5C 原子上的 OH 基团酯化。在我们最近的实验中,我们已经对 FB1 毒素进行了合成酰化,随后除了 -棕榈酰-FB1 毒素外,还纯化了 3--棕榈酰-和 5--棕榈酰-FB1 毒素。它们的鉴定和表征使用了 H 和 C NMR 以及 LC-HRMS。我们的目的是在一个添加实验中鉴定之前检测到的 -酰基-FB1 衍生物,这些衍生物是通过 的固相发酵获得的。通过将这三种合成并鉴定的成分逐一添加到真菌培养物提取物中,并使用 LC-MS 分析这些培养物,可以清楚地表明, 菌株产生了 5--棕榈酰-FB1 和 -棕榈酰-FB1 毒素,但没有产生 3--棕榈酰-FB1。因此,高度可能的是,在我们之前的通讯中被认为是 3--酰基(亚油酸酰基、油酸酰基、棕榈酸酰基)-FB1 衍生物的成分,可能是 10--酰基-FB1 衍生物。由于这些酰化 FB1 衍生物可能在例如玉米中自然存在,因此使用这些合成成分作为参考物质对于在不同基质(包括基于玉米的饲料样品)中获得酰化伏马菌素的准确定性和定量数据非常重要。这些物质的生产也使得在细胞培养和小动物实验中测试它们的毒性成为可能。
