去肽
天然产物
基因组
被膜
立体化学
环肽
生物
蓝藻
化学
细菌
二萜
计算生物学
海绵
天然化合物
绝对构型
生物化学
二维核磁共振波谱
属
拉伤
代谢组学
化学空间
核磁共振波谱
分离(微生物学)
多细胞生物
作者
Marine Cuau,Nicole E. Avalon,Byeol Ryu,Evgenia Glukhov,Jehad Almaliti,Adriana Rego,Thaiz R. Teixeira,Mai Shingyoji,Mariana Laureano de Souza,Alma Trinidad-Javier,Krittikorn Kümpornsin,Joseph Chen,Case W. McNamara,Conor R. Caffrey,Elizabeth A. Winzeler,Vitor Vasconcelos,Pedro N. Leão,William H. Gerwick
标识
DOI:10.1021/acs.jnatprod.6c00391
摘要
Boavistamide A ( 1 ), a new alkyne-containing cyclic depsipeptide featuring the rare 3-amino-2-methyl-7-octynoic acid (AMOYA) moiety, was discovered along with two structurally related analogs, boavistamides B and C ( 2 and 3 ), from a filamentous marine cyanobacterium collected on Boa Vista Island, Cabo Verde. Their isolation was guided by antiplasmodial activity, GNPS MS/MS molecular networking, LC-MS profiling, and dereplication using the MarinLit database. The planar structures of boavistamides A–C ( 1 – 3 ) were elucidated through comprehensive HRMS and 1D/2D NMR analyses, with annotation support from AI-based tools SMART-NMR 2.1 and DeepSAT. The absolute configurations were established using Marfey’s analysis and l -Phe-OMe coupling, complemented by NMR-based conformational studies. Boavistamides A and B exhibited moderate antiplasmodial activity with no mammalian cell cytotoxicity. Microscopic observations and metagenomic binning identified the producer strain as belonging to the genus Okeania (Microcoleaceae). These results expand the chemical diversity of AMOYA-containing cyanobacterial metabolites and highlight the utility of integrated metabolomics and AI-assisted workflows for natural product discovery from environmental samples.
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