219617-17-1Relevant academic research and scientific papers
Facile Two-Step Synthesis of Methyl Bis(2,2,2-trifluoroethyl)phosphonoacetate by Exploiting Garegg-Samuelsson Reaction Conditions
Sano, Shigeki,Matsumoto, Tomoya,Toguchi, Munehisa,Nakao, Michiyasu
, p. 1461 - 1464 (2018)
A facile two-step synthesis of methyl bis(2,2,2-trifluoroethyl)phosphonoacetate (Still-Gennari reagent) has been developed by exploiting Garegg-Samuelsson reaction conditions. Starting from trimethyl phosphonoacetate, Still-Gennari reagent was prepared in 94% yield via methyl 2-{bis[(trimethylsilyl)oxy]phosphoryl}acetate intermediate. This synthetic procedure was also used to prepare some kinds of Horner-Wadsworth-Emmons reagents and related compounds.
A Straightforward, Purification-Free Procedure for the Synthesis of Ando and Still-Gennari Type Phosphonates
Janicki, Ignacy,Kie?basiński, Piotr
, p. 378 - 382 (2021/10/21)
Z-Selective Still-Gennari and Ando modifications of the typically E-selective Horner-Wadsworth-Emmons reaction are highly valuable synthetic tools in organic chemistry. These procedures are based on application of bis(2,2,2-trifluoroethyl) phosphonates or diaryl phosphonates, respectively, for the olefination of carbonyl groups. In our research, we present an improved, straightforward, purificationfree procedure for the synthesis of these reagents. The key step of our procedure is the reaction of phosphonic dichlorides with the appropriate sodium alkoxides, which results in 52-97% isolated yields of the desired products on a gram scale. The whole three-step process is performed in one pot. Most importantly, the product is obtained in over 95% purity after simple extraction, avoiding column chromatography and distillation. Moreover, we present the synthesis of a novel Still-Gennari type reagent, bis(1,1,1,3,3,3-hexafluoroisopropyl) phosphonates, which may exhibit improved Z-selectivity in Still-Gennari olefinations.
A synthetic approach to 5/5/6-polycyclic tetramate macrolactams of the discodermide type
Bodenschatz, Kevin,St?ckl, Julia,Winterer, Markus,Schobert, Rainer
, (2021/05/31)
A flexible synthetic route to the 16-membered tetramate-embedding macrocyclic scaffold present in various polycyclic tetramate macrolactams (PTMs) was developed which differs from the seminal synthesis of ikarugamycin by Boeckman Jr. in protecting groups and the order of connections. We also devised a short approach to various stereoisomers of the 5/5/6-tricarbocyclic motif found in discodermide and other PTMs, starting from the Weiss’ diketone.
MEAYAMYCIN ANALOGUES AND METHODS OF USE
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Page/Page column 17, (2021/10/15)
Compounds according to formula (I), where R is as defined herein, have anti-cancer properties.
Total Synthesis of Meayamycin and O-Acyl Analogues
Boger, Dale L.,Chanda, Prem B.,Chowdari, Naidu S.,Gangwar, Sanjeev,Gartshore, Christopher,Momirov, Jelena,Sarkar, Anindya,Tadano, Shinji,Vite, Gregory D.,Zhang, Qian
supporting information, (2020/11/18)
A short, scalable total synthesis of meayamycin is described by an approach that entails a longest linear sequence of 12 steps (22 steps overall) from commercially available chiral pool materials (ethyl l-lactate, BocNH-Thr-OH, and d-ribose) and introduces the most straightforward preparation of the right-hand subunit detailed to date. The use of the approach in the divergent synthesis of a representative series of O-acyl analogues is exemplified.
Stereoselective Synthesis of the C1-C9 and C11-C25 Fragments of Amphidinolides C, C2, C3, and F
Akwaboah, Daniel C.,Wu, Dimao,Forsyth, Craig J.
supporting information, p. 1180 - 1183 (2017/03/14)
An efficient synthesis of the C1-C9 and the C11-C25 fragments of amphidinolides C, C2, C3, and F from a common intermediate is reported. The construction of the C1-C9 fragment involves an intramolecular hetero-Michael cyclization to form the 3,5-disubstituted trans-tetrahydrofuran moiety. The approach to prepare the C11-C25 fragment utilizes a highly stereoselective aerobic cobalt-catalyzed alkenol cyclization and a chelated Mukaiyama aldol reaction to form the C13-C14 bond and to concomitantly install the C13 hydroxyl group.
Proton exchange and chemoselectivity in metal cation and hydroxide ion hydrolyses of phosphonoacetate diesters
Moss, Robert A.,Gong, Paul K.
, p. 7845 - 7848 (2007/10/03)
Phosphonoacetate diesters exhibit base catalyzed D/H proton exchange and C-OR esterolysis, as well as (acidic) hydrolyses mediated by Th4+ and Zr4+ ions.
