RESUMO
An enantioselective rhodium(I)-catalyzed Pauson-Khand reaction (PKR) using 1,6-chloroenynes that contain challenging 1,1-disubstituted olefins is described. In contrast to the previous studies with these types of substrates, which are only suitable for a single type of tether and alkyne substituent, the new approach results in a more expansive substrate scope, including carbon and heteroatom tethers with polar and non-polar substituents on the alkene. DFT calculations provide critical insight into the role of the halide, which pre-polarizes the alkyne to lower the barrier for metallacycle formation and provides the proper steric profile to promote a favorable enantiodetermining interaction between substrate and chiral diphosphine ligand. Hence, the chloroalkyne enables the efficient and enantioselective PKR with 1,6-enynes that contain challenging 1,1-disubstituted olefins, thereby representing a new paradigm for enantioselective reactions involving 1,6-enynes.
RESUMO
The synthesis and application of [3.3.0]furofuranone species has received considerable attention from the scientific community. During the last twenty years, there has been a remarkable increase in publications focusing on their relevant method development as well as applications to natural product synthesis. This tutorial review discusses instructive examples to give a special emphasis on the development of new synthetic approaches and important applications to the total synthesis of natural products.