화학공학소재연구정보센터
Inorganic Chemistry, Vol.48, No.21, 10084-10092, 2009
Redox Effects on the Coordination Geometry and Heme Conformation of Bis(N-methylimidazole) Complexes of Superstructured Fe-Porphyrins. A Spectroscopic Study
Electronic absorption, electron paramagnetic resonance (EPR), and Soret-excited resonance Raman (RR) spectra are reported for bis(N-alkylimidazole) complexes of various iron (III)-"basket-handle" (Fe(III)BHP+) and "picket-fence" (Fe(III)PFP+) porphyrins in methylene chloride. The Fe(III)BHP+ derivatives consist of four cross-trans (CT) and two adjacent-cis (AC) -linked in which the composition and the length of the handles are variable (CT Fe(III)[(C(11)Im)(2)(+)], CT and AC Fe(III)[((C-4)(2)phi)(2)](+), CT Fe(III)[((C-3)(2)phi)(C-12)](+), CT and AC Fe(III)[((C-3)(2)phi)(2)](+)). The meso-alpha alpha beta beta and meso-alpha beta alpha beta atropisomers of Fe(III)-tetrakis(o-pivalamidophenyl)-porphyrins represents the Fe(III)PFP+ derivatives (Fe(III)alpha alpha beta beta-TpivPP+ and Fe(III)alpha beta alpha beta-TpivPP+, respectively). The absorption and RR data obtained for these ferric compounds were compared to those previously published for the homologous ferrous complexes (Picaud, T.; Le Moigne, C.; Loock, B.; Momenteau, M.; Desbois, A. J. Am. Chem. Soc. 2003, 125, 11616 and Le Moigne, C.; Picaud, T.; Boussac, A.; Loock, B.;,Momenteau, M.; Desbois, A. Inorg. Chem. 2003, 42, 6081). The Soret band position of the eight investigated ferric compounds is observed between 417 and 424 nm, indicating that none of the complexes possesses a planar heme. The EPR spectra show that most of the Fe(III)BHP+ complexes and all the Fe(III)PFP+ complexes are rhombic B-type hemichromes (g(max) = 2.86-2.96). Notable exceptions concern the bis(N-methylimidazole) complexes of two CT Fe(III)BHP+. The Fe(III)BHP+ with the shortest handles (Fe(III)[((C-3)(2)phi)(2)](+)) exhibits a g value at 2.80. When the handles are lengthened by two methylene units (Fe(III)[((C-3)(2)phi)(2)](+)), the EPR spectrum corresponds to a mixture of two "highly anisotropic low-spin" or "large g(max)" type I EPR signals, a major species at g = 3.17 and a minor species at g = 3.77. All these EPR data were converted in terms of dihedral angle formed by the rings of the axial ligands. The RR spectra of the Fe(III)BHP+ and Fe(III)PFP+ complexes exhibited variable frequencies for the structure-sensitive nu(2) and nu(8) lines (1558-1563 cm(-1) and 386-401 cm(-1), respectively). In considering the ability of the different superstructures to stabilize particular out-of-plane distortions,. this vibrational information was analyzed in terms of heme structure through changes in core size and Fe-N(pyrrole) bond length, in relation to changes in coordination geometry. The bis(N-methylimidazole) complex of Fe(III)[((C-3)(2)phi)(2)](+) was found to be the most distorted with a strongly ruffled tetrapyrrole. Because of a handle asymmetry, the heme conformation of the bis(N-methylimidazole) complex of Fe(III)[((C-3)(2)phi)(C-12)](+) was deduced to be a composition of ruff led and domed structures. The heme structure of the other complexes is a mixture of ruffled and saddled or ruffled and waved conformations. Taking into account our previous data on the ferrous series, this investigation provides informaton about the reorganization of the heme structure upon iron oxidation. The general trend is a decrease of either the core-size, or the Fe-N(pyrrole) bond length,or both. However, we demonstrated that the heme superstructures precisely control the nature and the extent of the tetrapyrrole reshaping. These results point out similar possible effect in the heme proteins, considering both an analogy between porphyrin superstructures and amino acids forming the heme sites and the diversity of the heme environments in the proteins.