A Concise Total Synthesis of (±)‐Vibralactone

Disclosed is a five‐step synthesis of (±)‐vibralactone, a biologically active terpenoid natural product. A key photochemical valence isomerization of 3‐prenyl‐pyran‐2‐one produces both the all‐carbon quaternary stereocenter and the β‐lactone at an early stage. Cyclopropanation of the resulting bicyclic β‐lactone produces a strained housane structure that is converted to the natural product through a sequential ring expansion and reduction strategy. This concise and modular route to the natural product provides the shortest total synthesis of (±)‐vibralactone reported to date.     

(±)-Yaequinolone A2的简洁全合成

由廉价的邻氨基苯甲酸为起始原料经6步反应以27.8%的总产率首次合成了2-喹啉酮类生物碱(±)-yaequinolone A2,关键步骤为MOM保护的α-羟基酰胺进行的高非对映选择性分子内aldol 反应。     

Total Synthesis of (±)-Halomon by a Johnson–Claisen Rearrangement

The total synthesis of the polyhalogenated antitumour agent halomon ( 1 ) was accomplished with two novel transformations as key steps: a Johnson–Claisen rearrangement of a dichlorinated alkene for the preparation of the tertiary chlorinated C3 and a new rearrangement of bromohydrins for the regiospecific introduction of the bromine and chlorine atoms on C6 and C7, respectively.     

The Diels–Alder Reaction in Total Synthesis

The Diels–Alder reaction has both enabled and shaped the art and science of total synthesis over the last few decades to an extent which, arguably, has yet to be eclipsed by any other transformation in the current synthetic repertoire. With myriad applications of this magnificent pericyclic reaction, often as a crucial element in elegant and programmed cascade sequences facilitating complex molecule construction, the Diels–Alder cycloaddition has afforded numerous and unparalleled solutions to a diverse range of synthetic puzzles provided by nature in the form of natural products. In celebration of the 100th anniversary of Alder's birth, selected examples of the awesome power of the reaction he helped to discover are discussed in this review in the context of total synthesis to illustrate its overall versatility and underscore its vast potential which has yet to be fully realized.     

Total Synthesis of (±)-Patriscabrol and (±)-Boschnialactone

A total synthesis of (±)-patriscabrol (1) and (±)-boschnialactone (2) is described. The cyclopentapyranone skeleton is assembled by means of Baeyer-Villiger oxidation of ketol 5.     

A Stereoselective Total Synthesis of (±)-Maritimol, (±)-2-Deoxystemodinone, (±)-Stemodinone,and (±)-Stemodin

A simple and stereoselective total synthesis of (±)-maritimol ( 2d ) and its conversion into the other title compounds (±)-( 2a ), ((±)- 2b ), and ((±)- 2c ) is described. The unique bicyclo[3.2.1]octane moiety, constituting their C/D-ring system, is stereospecifically obtained by solvolytic rearrangement of the methanesulfonate 23 .     

Total Synthesis of (±)‐Strictamine

The total synthesis of strictamine has been achieved in nine steps from a known enol triflate. Characteristic features of our approach included: a) creation of a C7 all‐carbon quaternary stereocenter at an early synthetic stage; b) use of an N,N‐dimethyl tertiary amine as a surrogate of the primary amine for the rapid build‐up of a functionalized 2‐azabicyclo[3,3,1]nonan‐9‐one skeleton (achieved by using a reaction sequence of α‐bromination of the ketone, followed by a stereoconvergent intramolecular nucleophilic substitution reaction); and c) a late‐stage construction of the indolenine unit.     

Total Synthesis of (±)‐Integrifolin

The total synthesis of (±)‐integrifolin has been achieved for the first time through the stereoselective preparation of the bicyclo[5.3.0]decane skeleton based on the tungsten‐catalyzed cyclization of acyclic trienynes under photoirradiation conditions. Further key transformations of the cyclized product are the Tamao oxidation through cyclic silyl ether, the introduction of two oxygen functionalities by the oxidation of the diene and the construction of three exo‐methylene moieties.     

Total Synthesis of (±)‐Corymine

The first total synthesis of the hexacyclic indole alkaloid (±)‐corymine is described. Starting from the readily available N‐protected tryptamine, the title compound was achieved in 21 steps in 3.4 % overall yield. Key steps of the synthesis include: a) the addition of a malonate to a 3‐bromooxindole to afford 3,3‐disubstituted oxindole, b) the formation of a 12‐membered cyclic enol ether by intramolecular O‐propargylation, immediately followed by propargyl Claisen rearrangement to provide the α‐allenyl ketone stereospecifically, c) DMDO oxidation to install a hydroxy group in a highly stereoselective manner, and d) the SmI₂‐mediated reductive C−O bond cleavage to remove the α‐keto carboxyl group.