Scott Conley scite author profile

A bstract: The first generation strategies toward the total synthesis of brevetoxin B (1) are presented and the syntheses of the key intermediates 3, 4, 5, 67, 83, and 94-98 required for the projected construction are described. The earliest and most convergent strategy required the application of the hydroxy epoxide cyclization and the intramolecular conjugate addition as key reactions for the construction of the fused tetrahydropyran ring systems (4) [ABC], (7) [FG], and (8 ) [UK], The oxocene ring (H) was formed via a Wittig reaction followed by a hydroxy dithioketal cyclization to produce the hexacyclic fragment [FGHUK] ( 6 -5), The 12-membered dithionolactone 18 was envisioned as the precursor of the dioxepane system of the molecule via a projected bridging reaction, to construct simultaneously both oxepane rings. However, the dithionation of dilactone 17 proved unsuccessful. In a subsequently evolved strategy, a new photolytic approach toward the dioxepane region was developed, starting from the acyclic dithiono progenitor 20 (20 -* 23). Application of this reaction to the brevetoxin B skeleton afforded the desired oxepene (96 -* 97), which after deprotection produced oxepanone 98. A specifically designed reductive hydroxy ketone cyclization (98 -199) was then employed in an attempt to close the remaining ring [E], but, again, without success. The novel rearrangement of hydroxy ketone 87 to the pentacyclic system 89 was observed in a less elaborate skeleton. The scope and generality of these silicon-induced reductive cyclizations are also described.

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New Synthetic Technology for the Stereocontrolled Construction of 1,1‘-Disaccharides and 1,1‘:1‘‘,2-Trisaccharides. Synthesis of the FG Ring System of Everninomicin 13,384-1

Nicolaou

Delft

Conley

et al. 1997

J. Am. Chem. Soc.

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Total Synthesis of Everninomicin 13,384-1-Part 4: Explorations of Methodology; Stereocontrolled Synthesis of 1,1′-Disaccharides, 1,2-Seleno Migrations in Carbohydrates, and Solution- and Solid-Phase Synthesis of 2-Deoxy Glycosides and Orthoesters

et al. 2000

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Methods for the stereocontrolled construction of 1,1'-disaccharides, 2-deoxy glycosides, and orthoesters are reported. Specifically, a tin-acetal moiety was utilized to fix the anomeric stereochemistry of a carbohydrate acceptor leading to an efficient and stereoselective synthesis of 1,1'-disaccharides, while a newly discovered 1,2-phenylseleno migration reaction in carbohydrates opened entries to 2-deoxy glycosides and orthoesters. Thus, reaction of 2-hydroxy phenylselenoglycosides with DAST led to 2-phenylselenoglycosyl fluorides which reacted with carbohydrate acceptors to afford, stereoselectively, 2-phenylselenoglycosides. The latter compounds could be reductively deselenated to 2-deoxy glycosides or oxidatively converted to orthoesters via the corresponding ketene acetals.

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Total Synthesis of Everninomicin 13,384-1—Part 3: Synthesis of the DE Fragment and Completion of the Total Synthesis

et al. 2000

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Scott Conley

Total Synthesis of Brevetoxin B. 1. First Generation Strategies and New Approaches to Oxepane Systems

New Synthetic Technology for the Stereocontrolled Construction of 1,1‘-Disaccharides and 1,1‘:1‘‘,2-Trisaccharides. Synthesis of the FG Ring System of Everninomicin 13,384-1

Total Synthesis of Everninomicin 13,384-1-Part 4: Explorations of Methodology; Stereocontrolled Synthesis of 1,1′-Disaccharides, 1,2-Seleno Migrations in Carbohydrates, and Solution- and Solid-Phase Synthesis of 2-Deoxy Glycosides and Orthoesters

Total Synthesis of Everninomicin 13,384-1—Part 3: Synthesis of the DE Fragment and Completion of the Total Synthesis

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