Dactylospongiaquinone, a new meroterpenoid from the Australian marine sponge Dactylospongia n. sp.

Chemical investigation of the sponge Dactylospongia n. sp. collected near Mooloolaba, S.E. Queensland, has led to the isolation of dactylospongiaquinone (7) together with the known quinones (2-5). The new metabolite 7 possesses a different carbon framework from the known dictyoceratidaquinone (9) and is suggested to possess a cis-fused ring junction by extensive NOESY studies combined with molecular modelling calculations. The relative stereochemistry of the previously described cyclospongiaquinone-1 (3) and dehydrocyclospongiaquinone-1 (4) is also assigned on the basis of NOESY analyses. Full NMR spectroscopic assignments are provided for all compounds. (c) 2006 Elsevier Ltd. All rights reserved

Stereochemical evaluation of sesquiterpene quinones from two sponges of the genus Dactylospongia and the implication for enantioselective processes in marine terpene biosynthesis

Silver nitrate flash chromatography of the organic extract from the sponge Dactylospongia elegans has led to the isolation of three new sesquiterpene quinones isohyatellaquinone (7), 7,8-dehydrocyclospongiaquinone-2 (8) and 9-epi-7,8-dehydrocyclospongiaquinone-2 (9) together with the known quinones dictyoceratidaquinone (6), mamanuthaquinone (10), ilimaquinone (11), hyatellaquinone (12) and the sesterterpene furospinosulin (22). The relative stereochemistry of dictyoceratidaquinone (6) is assigned on the basis of NOESY analysis. A second species of Dactylospongia, thought to be new to science, was found to contain ent-(7) together with the new quinone neomamanuthaquinone (13). The isolation of antipodal sesquiterpenes from closely related species has implications for the stereochemical evaluation of terpene metabolites. The biosynthetic processes in these marine sponges may involve terpene synthases that do not discriminate chiral substrates or may result from the presence of multiple terpene synthases, each with differing enantioselectivity

Application of HPLC-NMR for the rapid chemical profiling of a Southern Australian Sponge, Dactylospongia sp

Rapid chemical profiling of the antitumour active crude dichloromethane extract of the marine sponge, Dactylospongia sp. was undertaken. A combination of both offline (HPLC followed by NMR and MS) and on-line (on-flow and stop-flow HPLC-NMR) chemical profiling approaches was adopted to establish the exact nature of the major constituents present in the dichloromethane extract of this sponge. On-flow HPLC-NMR analysis was employed to initially identify components present in the dichloromethane extract, while stop-flow HPLC-NMR experiments were then conducted on the major component present, resulting in the partial identification of pentaprenylated p-quinol (5). Subsequent off-line RP semi-preparative HPLC isolation of 5 followed by detailed spectroscopic analysis using NMR and MS permitted the complete structure to be established. This included the first complete carbon NMR chemical shift assignment of 5 based on the heteronuclear 2-D NMR experiments, together with the first report of its antitumour activity. This study represents one of the few reports describing the application of HPLC-NMR to chemically profile secondary metabolites from a marine organism