125010-60-8Relevant articles and documents
Novel macrocyclic C-aryl glucoside SGLT2 inhibitors as potential antidiabetic agents
Kim, Min Ju,Lee, Suk Ho,Park, So Ok,Kang, Hyunku,Lee, Jun Sung,Lee, Ki Nam,Jung, Myung Eun,Kim, Jeongmin,Lee, Jinhwa
experimental part, p. 5468 - 5479 (2011/10/30)
Novel macrocyclic C-aryl glucoside SGLT2 inhibitors were designed and synthesized. Two different synthetic routes of macrocyclization were adopted to prepare novel ansa SGLT2 inhibitors. Among the compounds tested, [1,7]dioxacyclopentadecine macrocycles p
On the synthesis of pyrinodemin A. Part 1: The location of the olefin
Romeril, Stuart P.,Lee, Victor,Baldwin, Jack E.,Claridge, Timothy D.W.
, p. 1127 - 1140 (2007/10/03)
The elucidation of the structure of the cytotoxic marine sponge alkaloid pyrinodemin A by synthesis is described. Based on the 13C NMR spectra of three double bond positional isomers and the natural product, it is concluded the C14′-C15′ isomer
Structure determination of an endogenous sleep-inducing lipid, cis-9-octadecenamide (oleamide): A synthetic approach to the chemical analysis of trace quantities of a natural product
Cravatt, Benjamin F.,Lerner, Richard A.,Boger, Dale L.
, p. 580 - 590 (2007/10/03)
The pursuit of endogenous sleep-inducing substances has been the focus of an extensive, complicated body of research. Several compounds, including Δ-sleep-inducing peptide and prostaglandin D2, have been suggested to play a role in sleep induction, and yet, the molecular mechanisms of this physiological process remain largely unknown. In recent efforts, the cerebrospinal fluid of sleep-deprived cats was analyzed in search of compounds that accumulated during sleep deprivation. An agent with the chemical formula C18H35NO was found to cycle with sleep-wake patterns, increasing in concentration with sleep deprivation and decreasing in amount upon recovery sleep. Since the material was generated in minute quantities and only under the special conditions of sleep deprivation, efforts to isolate sufficient material for adequate characterization, structure identification, and subsequent detailed evaluation of its properties proved unrealistic. With the trace amounts of the impure endogenous compound available, extensive MS studies on the agent were completed, revealing key structural features of the molecule including two degrees of unsaturation, a long alkyl chain, and a nitrogen substituent capable of fragmenting as ammonia. Additionally, HPLC traces suggested a weak UV absorbance for the unknown material. With this data in hand and encouraged by the relatively small size of the molecule, MW = 281, a synthetic approach toward the structural identification of the natural compound was initiated. Herein, we report the full details of the synthesis and comparative characterization of candidate structures for this endogenous agent that led to the unambiguous structural correlation with synthetic cis-9-octadecenamide.