AI Article Synopsis
- The study focuses on the assignment of hyperfine-shifted resonances in horseradish peroxidase (HRP) and its reactive form, compound I (HRP-I), using the nuclear Overhauser effect (NOE) and prior heme methyl assignments.
- Significant NOEs helped identify the propionate alpha-methylene protons and the proximal His-170 H beta peaks in resting HRP, while revealing that a strongly shifted proton resonance in HRP-I is related to an amino acid residue rather than the porphyrin.
- The analysis suggests that the formation of compound I involves a small rotation of the 6-propionate group, and discusses the implications of a porphyr
Article Abstract
The assignment of resolved hyperfine-shifted resonances in high-spin resting state horseradish peroxidase (HRP) and its double-oxidized reactive form, compound I (HRP-I), has been carried out by using the nuclear Overhauser effect (NOE) starting with the known heme methyl assignments in each species. In spite of the efficient spin-lattice relaxation and very broad resonances, significant NOEs were observed for all neighboring pyrrole substituents, which allowed the assignment of the elusive propionate alpha-methylene protons. In the resting state HRP, this leads directly to the identity of the proximal His-170 H beta peaks. The determination that one of the most strongly contact-shifted single proton resonances in HRP-I does not arise from the porphyrin dictates that the cation radical must be delocalized to some amino acid residue. The relaxation properties of the non-heme contact-shifted signal in HRP-I support the identity of this contributing residue as the proximal His-170. Detailed analysis of changes in both contact shift pattern and NOEs indicates that compound I formation is accompanied by a approximately 5 degree rotation of the 6-propionate group. The implication of a porphyrin cation radical delocalized over the proximal histidine for the proposed location of the solely amino acid centered radical in compound I of related cytochrome c peroxidase is discussed.
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