Korea Institute of Ocean Science & Technology (KIOST), Busan 49111, Republic of Korea.
Department of Marine Biotechnology, University of Science & Technology, Daejeon 34113, Republic of Korea.
J Nat Prod. 2024 Jul 26;87(7):1872-1880. doi: 10.1021/acs.jnatprod.4c00692. Epub 2024 Jul 17.
Chemical investigation of -hexane extract from the marine sponge sp. led to the isolation of five new lipids, -, each characterized by a substituted dioxolane core. The structures of - were established based on the interpretation of NMR and HRESIMS data. To assign the absolute configuration at C-1', model systems consisting of diastereomers at C-2, C-4, and C-1' of the dioxolane core were prepared from a chiral glycerol dimethylacetal. H NMR inspection of model compounds revealed that a pair of C-1' epimers, and , was indistinguishable, restricting structural assignment by direct comparison of NMR data. In addition, the lack of chromophores in the dioxolane core resulted in unreliable ECD results, with Cotton effects appearing below 190 nm. As an alternative, a chiral NMR method using Eu(hfc) revealed notable lanthanide-induced shifts, allowing the spectroscopic discrimination of and . Therefore, the absolute configuration of all five new lipids was determined to be 2, 4, 1' by direct comparison with the Eu(hfc)-induced H NMR data.
从海洋海绵 sp. 的 - 己烷提取物中进行的化学研究导致分离出五种新的脂质, - ,每个都具有取代的二氧戊环核心。基于 NMR 和 HRESIMS 数据的解释,确定了 - 的结构。为了在 C-1'处分配绝对构型,从手性甘油二甲缩醛制备了包含二氧戊环核心的 C-2、C-4 和 C-1'处的非对映异构体的模型体系。对模型化合物的 1H NMR 检查表明,C-1'差向异构体对 和 无法区分,限制了通过 NMR 数据的直接比较进行结构分配。此外,二氧戊环核心中缺乏生色团导致 ECD 结果不可靠,Cotton 效应出现在 190nm 以下。作为替代方法,使用 Eu(hfc) 的手性 NMR 方法显示出明显的镧系元素诱导位移,允许通过光谱学区分 和 。因此,通过与 Eu(hfc) 诱导的 1H NMR 数据直接比较,确定了所有这五种新脂质的绝对构型均为 2,4,1'。
