The Suzuki-Miyaura cross-coupling is one of the most often utilized reactions in the synthesis of pharmaceutical compounds and conjugated materials. In its most common form, the reaction joins two sp(2)-functionalized carbon atoms to make a biaryl or diene/polyene unit. These substructures are widely found in natural products and small molecules and thus the Suzuki-Miyaura cross-coupling has been proposed as the key reaction for the automated assembly of such molecules, using protecting group chemistry to affect iterative coupling. We present herein, a significant advance in this approach, in which multiply functionalized cross-coupling partners can be employed in iterative coupling without the use of protecting groups. To accomplish this, the orthogonal reactivity of different boron substituents towards the boron-to-palladium transmetalation reaction is exploited. The approach is illustrated in the preparation of chiral enantioenriched compounds, which are known to be privileged structures in active pharmaceutical compounds.
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| http://dx.doi.org/10.1038/ncomms11065 | DOI Listing |
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Article Synopsis
- A new palladium-catalyzed method has been developed to synthesize three natural products: (-)-lyngbyatoxin, (-)-teleocidin A2, and (-)-7-geranylindolactam V, using a technique called the Suzuki-Miyaura reaction.
- This approach utilizes a ligand-controlled cross-coupling strategy, making it possible to create these compounds from a single advanced synthetic intermediate, which is the most efficient method reported to date.
- Following the synthesis, research was conducted on cancer cell lines to investigate the potential cancer-fighting properties of these natural products.
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