l-Proline-derived ligands to mimic the '2-His-1-carboxylate'triad of the non-haem iron oxidase active site
VJ Dungan, SM Wong, SM Barry, PJ Rutledge
Index: Dungan, Victoria J.; Wong, Shwo Mun; Barry, Sarah M.; Rutledge, Peter J. Tetrahedron, 2012 , vol. 68, # 15 p. 3231 - 3236
Full Text: HTML
Citation Number: 13
Abstract
Non-haem iron (II) oxidases (NHIOs) catalyse a variety of oxidative transformations in biology. The iron-binding environment of the NHIO active site typically incorporates a '2-His- 1-carboxylate'facial triad of amino acid side-chains, a motif that has emerged as a defining feature of the enzyme family. Towards the goal of biomimetic, iron-mediated C–H activation we have synthesized a series of peptidomimetic ligands from l-proline. By coupling l- ...
Related Articles:
[Udvardy, Antal; Benyei, Attila Csaba; Katho, Agnes Journal of Organometallic Chemistry, 2012 , vol. 717, p. 116 - 122]
[Ten Brink, Gerd-Jan; Arends, Isabel W. C. E.; Hoogenraad, Marcel; Verspui, Goeran; Sheldon, Roger A. Advanced Synthesis and Catalysis, 2003 , vol. 345, # 12 p. 1341 - 1352]
[Barats, Delina; Neumann, Ronny Advanced Synthesis and Catalysis, 2010 , vol. 352, # 2-3 p. 293 - 298]
Vanadium-substituted MCM-41 zeolites as catalysts for oxidation of alkanes with peroxides
[Neumann, Ronny; Khenkin, Alexander M. Chemical Communications, 1996 , # 23 p. 2643 - 2644]
A novel oxidation of internal alkynes with hydrogen peroxide catalyzed by peroxotungsten compounds
[Ishii, Yasutaka; Sakata, Yasuyuki Journal of Organic Chemistry, 1990 , vol. 55, # 21 p. 5545 - 5547]