Young Sam Park scite author profile

The term "housane" refers to molecules possessing a bicyclo[2.1.0]pentane core. One was designed, synthesized, and used as a precursor of daucene, a member of the carotane class of sesquiterpenes. The total synthesis was completed, thereby marking the first time that housane-derived cation radicals have been used as the key intermediate in the synthesis of a natural product. The transformation used in the construction and featured in the text involves an oxidation to generate the cation radical via either a chemically or an electrochemically mediated electron transfer, the latter process using tris(p-bromophenyl)amine as the mediator. The two methods are compared, and guiding principles are formulated to assist in deciding how best to implement each. Both processes afford an unfavorable equilibrium state that is subsequently drained toward the product by two irreversible events, viz., a 1,2 carbon migration to the site that best stabilizes a positive charge and a second electron transfer, this time being a highly exothermic reduction of the rearranged species to generate the neutral product. A mechanistic proposal calling for the use of a catalytic quantity of the electrochemical mediator and the consumption of exceptionally small quantities of current is advanced. Experimental deviations from these predictions are noted, and a rationale to account for them is presented. Finally, significant differences were noted between the cyclic voltammograms of housanes bearing a CH2OR substituent rather than a methyl group at the bridgehead carbon. Those having the inductively withdrawing group displayed broad and ill-defined curves. The differences were investigated quantum mechanically, and a stereoelectronic argument is formulated stating that broadness of the curve for the ROCH2-substituted systems is the result of a time-averaged sampling of the HOMO energies over the distribution of conformers. The possible generality of the stereoelectronic effect is noted.

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A Highly Selective Rearrangement of a Housane-Derived Cation Radical: An Electrochemically Mediated Transformation

Park

Wang

Tantillo

et al. 2007

J. Org. Chem.

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To utilize housane-derived cation radicals as intermediates for the synthesis of the bicyclo (n.3.0) framework of natural products, a highly regioselective [1,2] shift of carbon to either a radical or an electron-deficient site is required. Herein we describe how this has been accomplished, provide a set of guidelines to assess housane oxidizability prior to its synthesis, and describe a synthesis of housane 18 that capitalizes upon the facility of [1,5] hydrogen shifts in substituted cyclopentadienes. The catalytic electrochemically mediated oxidation of 18 leads to a cation radical that engages in a rearrangement leading to the (4.3.0) adduct 23. The appearance of a catalytic current in the cyclic voltammogram of a solution containing the tris(aryl)amine and housane 18 is an excellent indicator that the amminium cation radical 14*+ is able to oxidize the housane and return the mediator to the original redox couple. DFT calculations show electron density on both the aryl and strained sigma framework in the HOMO of housane 18. From the spin density and electrostatic potential map for the cation radical, a picture where the spin resides on the side that is distal to the substituent emerges, while the hole is proximal to it. Both experiment and theory show that the rearrangement is best characterized as a [1,2] carbon shift toward an electron-deficient site and that migration toward the substituent-bearing carbon is much preferred over the alternative pathway.

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Synthesis of (−)‐Viriditoxin: A 6,6′‐Binaphthopyran‐2‐one that Targets the Bacterial Cell Division Protein FtsZ

et al. 2011

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Young Sam Park

Synthesis of (−)‐Viriditoxin: A 6,6′‐Binaphthopyran‐2‐one that Targets the Bacterial Cell Division Protein FtsZ

Redox Electron-Transfer Reactions: Electrochemically Mediated Rearrangement, Mechanism, and a Total Synthesis of Daucene

A Highly Selective Rearrangement of a Housane-Derived Cation Radical: An Electrochemically Mediated Transformation

Synthesis of (−)‐Viriditoxin: A 6,6′‐Binaphthopyran‐2‐one that Targets the Bacterial Cell Division Protein FtsZ

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