AI Article Synopsis
- The study explores the isoxazole ring formation as a potential alternative to the traditional Cu(I)-catalyzed alkyne/azide cycloaddition for creating covalently linked molecules.
- Two methods for synthesizing these isoxazoles are tested: one that clicks and then chelates, and another that chelates and then clicks.
- Results show that while the isoxazole formation is successful with both methods, the chelate-then-click approach produces products faster but at lower yields compared to the click-then-chelate method using Re complexes.
Article Abstract
Isoxazole ring formation was examined as a potential Cu-free alternative click reaction to Cu(I)-catalyzed alkyne/azide cycloaddition. The isoxazole reaction was explored at macroscopic and radiotracer concentrations with the fac-[M(I)(CO)3](+) (M = Re, (99m)Tc) core for use as a noncoordinating linker strategy between covalently linked molecules. Two click assembly methods (click, then chelate and chelate, then click) were examined to determine the feasibility of isoxazole ring formation with either alkyne-functionalized tridentate chelates or their respective fac-[M(I)(CO)3](+) complexes with a model nitrile oxide generator. Macroscale experiments, alkyne-functionalized chelates, or Re complexes indicate facile formation of the isoxazole ring. (99m)Tc experiments demonstrate efficient radiolabeling with click, then chelate; however, the chelate, then click approach led to faster product formation, but lower yields compared to the Re analogues.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3993946 | PMC |
| http://dx.doi.org/10.1021/ic402825t | DOI Listing |
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