714956-87-3Relevant academic research and scientific papers
A unified strategy for the regiospecific assembly of homoallyl-substituted butenolides and γ-hydroxybutenolides: First synthesis of luffariellolide
Boukouvalas, John,Robichaud, Jo?l,Maltais, Fran?ois
, p. 2480 - 2482 (2008/02/11)
The first synthesis of the antiinflammatory marine natural product luffariellolide has been achieved by a convergent pathway involving sp 3-sp3 cross-coupling and silyloxyfuran oxyfunctionalisation as key steps. An illustration of the inherent flexibility of this strategy is provided by a simple synthesis of α,β-acariolide and its γ-hydroxylated derivative from a common silyloxyfuran precursor. Georg Thieme Verlag Stuttgart.
Synthesis of jaspaquinol and effect on viability of normal and malignant bladder epithelial cell lines
Demotie, Alexandre,Fairlamb, Ian J.S.,Lu, Feng-Ju,Shaw, Nicola J.,Spencer, Peter A.,Southgate, Jennifer
, p. 2883 - 2887 (2007/10/03)
The synthesis of jaspaquinol 1, a monocyclic diterpene-benzenoid, is reported. Two synthetic routes to this natural product have been developed. The first, utilises a difunctional terpene derivative containing different leaving groups, facilitating the selective introduction of the cyclohexenyl and benzenoid fragments. The alternative route employs a regiospecific Stille cross-coupling reaction to introduce the cyclohexenyl fragment, which occurs without allylic transposition. Preliminary data shows the cell viability of 1 against normal and malignant human bladder epithelial cell lines.
