Application of resonance Raman spectroscopy for interrogation of cryoradiolytically reduced oxygenated heme proteins

Abstract: Resonance Raman (rR) spectroscopy is generally useful to interrogate unstable intermediates that arise in the enzymatic cycles of heme enzymes, such as peroxo‐, hydroperoxo‐ and ferryl species. While it is typically difficult to trap these elusive intermediates in solution, the cryoradiolysis approach offers a way to successfully overcome these obstacles. The present work employs modified derivatives of horse heart myoglobin to demonstrate the methodology and utility of a combination of rR and cryoradiolysis f… Show more

“…Resonance Raman spectroscopy is generally useful to interrogate unstable intermediates that arise in the enzymic cycles of heme enzymes, such as peroxo, hydroperoxo, and ferryl species. Although it is typically difficult to trap these elusive intermediates in solution, they found that cryoradiolysis approach offers a way to successfully overcome these obstacles . L. Wu et al studied nonadiabatic decay dynamics of phthalide from the light‐absorbing S3(ππ*) state by resonance Raman spectroscopy and carried out a corresponding complete active space self‐consistent field study.…”

“…Although it is typically difficult to trap these elusive intermediates in solution, they found that cryoradiolysis approach offers a way to successfully overcome these obstacles. [119] L. Wu et al studied nonadiabatic decay dynamics of phthalide from the light-absorbing S3(ππ*) state by resonance Raman spectroscopy and carried out a corresponding complete active space self-consistent field study. They deduced two nonadiabatic decay channels and one of these had not been previously observed.…”

Recent advances in linear and nonlinear Raman spectroscopy. Part XII

“…Resonance Raman spectroscopy is generally useful to interrogate unstable intermediates that arise in the enzymic cycles of heme enzymes, such as peroxo, hydroperoxo, and ferryl species. Although it is typically difficult to trap these elusive intermediates in solution, they found that cryoradiolysis approach offers a way to successfully overcome these obstacles . L. Wu et al studied nonadiabatic decay dynamics of phthalide from the light‐absorbing S3(ππ*) state by resonance Raman spectroscopy and carried out a corresponding complete active space self‐consistent field study.…”

“…Although it is typically difficult to trap these elusive intermediates in solution, they found that cryoradiolysis approach offers a way to successfully overcome these obstacles. [119] L. Wu et al studied nonadiabatic decay dynamics of phthalide from the light-absorbing S3(ππ*) state by resonance Raman spectroscopy and carried out a corresponding complete active space self-consistent field study. They deduced two nonadiabatic decay channels and one of these had not been previously observed.…”

Recent advances in linear and nonlinear Raman spectroscopy. Part XII

Bioinorganic Applications of Resonance Raman Spectroscopy

Resonance Raman spectroscopic studies of peroxo and hydroperoxo intermediates in lauric acid (LA)-bound cytochrome P450 119