160725-47-3Relevant academic research and scientific papers
Boron-Catalyzed Silylative Reduction of Nitriles in Accessing Primary Amines and Imines
Gandhamsetty, Narasimhulu,Jeong, Jinseong,Park, Juhyeon,Park, Sehoon,Chang, Sukbok
, p. 7281 - 7287 (2015/07/28)
Silylative reduction of nitriles was studied under transition metal-free conditions by using B(C6F5)3 as a catalyst with hydrosilanes as a reductant. Alkyl and (hetero)aryl nitriles were efficiently converted to primary amines or imines under mild conditions. The choice of silanes was found to determine the selectivity: while a full reduction of nitriles was highly facile, the use of sterically bulky silanes allowed for the partial reduction leading to N-silylimines.
Synthesis and opioid activities of some naltrexone oxime ethers
Mavunkel, B. J.,Rzeszotarski, W. J.,Kaplita, P. V.,DeHaven-Hudkins, D. L.
, p. 659 - 666 (2007/10/02)
A series of alkyl, cycloalkyl, aryl, and aralkyl ethers of naltrexone oxime was prepared.The compounds were examined in binding assays for μ, δ, and κ opioid receptor affinity.In addition, the naltrexone oxime ethers were studied in animal models that measure opioid agonist and antagonist activity.These studies led to the discovery of several compounds, notably phenethyl 3e and phenylpropyl 3f ethers of naltrexone, which have a 10-fold increase in potency at the κ opioid receptor with potent μ and κ agonist properties in vivo.naltrexone / oxime ether / opioid receptor / analgesia / receptor binding / kappa
