The absolute stereochemistry of some petroformynes (1-7), characteristic metabolites of the Mediterranean sponge Petrosia ficiformis displaying terminal 1-yn-3-ol-4-ene moieties, has been elucidated by applying high field 1H-NMR to Mosher method. Esterification of Petrosia polyacetylenes with (R)- and (S)-?-methoxy-?-trifluoromethylphenylacetyl (MTPA) chloride yielded the corresponding (S)- and (R)-MTPA esters. Careful NMR measurements led to assign the S absolute stereochemistry at all the chiral centers of petroformynes. The R absolute stereochemistry of 3-hydroxydocosa-4(E), 15(E)-dien-1-yne (8), previously established on the basis of a questionable extention of the application of the exciton chirality method, is confirmed by applying advanced Mosher method. The structures of petroformyne-5 (7) and petroformyne-8 (11) are now supported by additional evidence.
Absolute stereochemistry of petroformynes, high molecular polyacetylenes from the marine sponge Petrosia ficiformis.
Cimino Guido
1994
Abstract
The absolute stereochemistry of some petroformynes (1-7), characteristic metabolites of the Mediterranean sponge Petrosia ficiformis displaying terminal 1-yn-3-ol-4-ene moieties, has been elucidated by applying high field 1H-NMR to Mosher method. Esterification of Petrosia polyacetylenes with (R)- and (S)-?-methoxy-?-trifluoromethylphenylacetyl (MTPA) chloride yielded the corresponding (S)- and (R)-MTPA esters. Careful NMR measurements led to assign the S absolute stereochemistry at all the chiral centers of petroformynes. The R absolute stereochemistry of 3-hydroxydocosa-4(E), 15(E)-dien-1-yne (8), previously established on the basis of a questionable extention of the application of the exciton chirality method, is confirmed by applying advanced Mosher method. The structures of petroformyne-5 (7) and petroformyne-8 (11) are now supported by additional evidence.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
