| 1 |
The crystal structure of oxylipin-conjugated barley LTP1 highlights the unique plasticity of the hydrophobic cavity of these plant lipid-binding proteins
Bakan B, Hamberg M, Larue V, Prange T, Marion D, Lascombe MB
Biochemical and Biophysical Research Communications, 390(3), 780, 2009 |
| 2 |
Use of calix[4]arenes in the redox chemistry of lanthanides: The reduction of dinitrogen by a calix[4]arene-samarium complex
Guillemot G, Castellano B, Prange T, Solari E, Floriani C
Inorganic Chemistry, 46(13), 5152, 2007 |
| 3 |
Supramolecular assemblies with calix[6]arenes and copper ions: from dinuclear to trinuclear linear arrangements of hydroxo-cu(II) complexes
Izzet G, Akdas H, Hucher N, Giorgi M, Prange T, Reinaud O
Inorganic Chemistry, 45(3), 1069, 2006 |
| 4 |
X-ray diffraction and EXAFS studies of hydroxo-Cu(II) complexes based on a calix[6]arene-N-3 ligand: Evidence for a mononuclear-dinuclear equilibrium controlled by supramolecular features
Izzet G, Frapart YM, Prange T, Provost K, Michalowicz A, Reinaud O
Inorganic Chemistry, 44(26), 9743, 2005 |
| 5 |
Biomimetic zinc funnel complexes based on calix[6]N3ArO ligands: An acid-base switch for guest binding
Seneque O, Rager MN, Giorgi M, Prange T, Tomas A, Reinaud O
Journal of the American Chemical Society, 127(42), 14833, 2005 |
| 6 |
Tuning organogels and mesophases with phenanthroline Ligands and their copper complexes by inter- to intramolecular hydrogen bonds
Ziessel R, Pickaert G, Camerel F, Donnio B, Guillon D, Cesario M, Prange T
Journal of the American Chemical Society, 126(39), 12403, 2004 |
