The chemical diversity of the approximately 1,200 natural products isolated from red algae of the genus Laurencia, in combination with the wide range of their biological activities, have placed species of Laurencia in the spotlight of marine chemists’ attention for over 60 years. The chemical investigation of the organic (CH2Cl2/MeOH) extracts of Laurencia microcladia and Laurencia obtusa, both collected off the coasts of Tinos island in the Aegean Sea, resulted in the isolation of 32 secondary metabolites, including 23 C15 acetogenins (1–23), 7 sesquiterpenes (24–30) and 2 diterpenes (31 and 32). Among them, six new C15 acetogenins, namely 10-acetyl-sagonenyne (2), cis-sagonenyne (3), trans-thuwalenyne C (4), tinosallene A (11), tinosallene B (12) and obtusallene XI (17), were identified and their structures were elucidated by extensive analysis of their spectroscopic data. Compounds 1–3, 5–11, 13 and 15–32 were evaluated for their antibacterial activity against Staphylococcus aureus and Escherichia coli.
Vagiallene (1), a rearranged
C15 acetogenin
with a molecular formula and a carbon skeleton unprecedented in natural
products, was isolated as a trace constituent from the organic extract
of the red alga Laurencia obtusa from Lefkada island.
The planar structure and the relative configuration of 1 were established on the basis of extensive analysis of its spectroscopic
data, while its absolute configuration was determined by comparison
of its experimental and quantum-mechanically predicted electronic
circular dichroism spectra.
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