392250-64-5Relevant academic research and scientific papers
Synthesis of the trichloroacetamide derivative of enantio-iso-ADDA methyl ester
Meiries, Sebastien,Parkin, Andrew,Marquez, Rodolfo
experimental part, p. 2951 - 2958 (2009/05/30)
The divergent syntheses of the trichloroacetamide derivatives of (2S,3R,8R,9R,4E,6E)-3-amino-9-methoxy-2,6,8-trimethyl-10-phenyl-decadenoic acid (enantio-iso-ADDA), and (2R,3R,8R,9R,4E,6E)-3-amino-9-methoxy-2,6,8-trimethyl-10-phenyl-decadenoic acid (enant
Total Synthesis of rapamycin
Ley, Steven V.,Tackett, Miles N.,Maddess, Matthew L.,Anderson, James C.,Brennan, Paul E.,Cappi, Michael W.,Heer, Jag P.,Helgen, Celine,Kori, Masakuni,Kouklovsky, Cyrille,Marsden, Stephen P.,Norman, Joanne,Osborn, David P.,Palomero, Maria A.,Pavey, John B. J.,Pinel, Catherine,Robinson, Lesley A.,Schnaubelt, Juergen,Scott, James S.,Spilling, Christopher D.,Watanabe, Hidenori,Wesson, Kieron E.,Willis, Michael C.
experimental part, p. 2874 - 2914 (2009/12/25)
For over 30 years, rapamycin has generated a sustained and intense interest from the scientific community as a result of its exceptional pharmacological properties and challenging structural features. In addition to its well known therapeutic value as a potent immunosuppressive agent, rapamycin and its derivatives have recently gained prominence for the treatment of a wide variety of other human malignancies. Herein we disclose full details of our extensive investigation into the synthesis of rapamycin that culminated in a new and convergent preparation featuring a macro-etherification/catechol-templating strategy for construction of the macrocyclic core of this natural product.
Total synthesis of rapamycin
Maddess, Matthew L.,Tackett, Miles N.,Watanabe, Hidenori,Brennan, Paul E.,Spilling, Christopher D.,Scott, James S.,Osborn, David P.,Ley, Steven V.
, p. 591 - 597 (2008/02/01)
Rapamycin synthesis all wrapped up: A new convergent synthesis of rapamycin (1) is reported that involves a macroetherification/catechol tethering strategy for construction of the macrocyclic core of this intriguing natural product. Other studies on this commercialized potent immunosuppressant delineate new cell signaling pathways of relevance to cancer chemotherapy. (Chemical Equation Presented).
Synthesis of the C13-C23 segment of tedanolide
Ehrlich, Gunnar,Kalesse, Markus
, p. 655 - 657 (2007/10/03)
The synthesis of the C13-C23 segment of tedanolide is described making use of orthogonal protecting groups in the construction of the carbon skeleton and for the selective liberation of hydroxyl groups in the endgame of the total synthesis.
Stereochemical elucidation of the 1,4 polyketide amphidinoketide I.
Walsh, Louise M,Goodman, Jonathan M
, p. 2616 - 2617 (2007/10/03)
The relative and absolute stereochemistry of amphidinoketide I has been determined by the total synthesis of all the diastereoisomers. Molecular modelling suggests that the natural product is not the thermodynamically preferred diastereoisomer.
