2018
DOI: 10.1073/pnas.1807027115
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Catalytic iron-carbene intermediate revealed in a cytochrome c carbene transferase

Abstract: Recently, heme proteins have been discovered and engineered by directed evolution to catalyze chemical transformations that are biochemically unprecedented. Many of these nonnatural enzyme-catalyzed reactions are assumed to proceed through a catalytic iron porphyrin carbene (IPC) intermediate, although this intermediate has never been observed in a protein. Using crystallographic, spectroscopic, and computational methods, we have captured and studied a catalytic IPC intermediate in the active site of an enzyme… Show more

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Cited by 108 publications
(176 citation statements)
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“…Given these data, we assign the new spectroscopically distinct species we describe above to the C45 and Rma-TDE metallocarbenoid intermediates. It should be noted that at this time we cannot definitively assign these spectra as either the non-bridging metallocarbenoid species observed by Lewis et al 45 or the porphyrin-bridging species observed by Hayashi et al 48 in the crystal structures of engineered cytochrome c or N-methylhistidine-ligated myoglobin variant (Mb(H64V,V68A)) respectively. However, given the identical nature of the C45 and Rma-TDE spectra, it would seem likely that the spectra obtained represent the non-bridging ligation observed in the Rma-TDE Me-EDA crystal structure 45 .…”
Section: Resultsmentioning
confidence: 63%
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“…Given these data, we assign the new spectroscopically distinct species we describe above to the C45 and Rma-TDE metallocarbenoid intermediates. It should be noted that at this time we cannot definitively assign these spectra as either the non-bridging metallocarbenoid species observed by Lewis et al 45 or the porphyrin-bridging species observed by Hayashi et al 48 in the crystal structures of engineered cytochrome c or N-methylhistidine-ligated myoglobin variant (Mb(H64V,V68A)) respectively. However, given the identical nature of the C45 and Rma-TDE spectra, it would seem likely that the spectra obtained represent the non-bridging ligation observed in the Rma-TDE Me-EDA crystal structure 45 .…”
Section: Resultsmentioning
confidence: 63%
“…It should be noted that at this time we cannot definitively assign these spectra as either the non-bridging metallocarbenoid species observed by Lewis et al 45 or the porphyrin-bridging species observed by Hayashi et al 48 in the crystal structures of engineered cytochrome c or N-methylhistidine-ligated myoglobin variant (Mb(H64V,V68A)) respectively. However, given the identical nature of the C45 and Rma-TDE spectra, it would seem likely that the spectra obtained represent the non-bridging ligation observed in the Rma-TDE Me-EDA crystal structure 45 . Additionally, while the rate of metallocarbenoid intermediate and subsequent product formation appear relatively low in our stopped-flow experiments, it is worth noting that the selected conditions were necessary for maximizing the quantity of intermediate in the stopped-flow apparatus, and that subsequent activity assays were carried out at higher substrate concentrations (both EDA and styrene), higher temperature and lower ethanol concentrations.…”
Section: Resultsmentioning
confidence: 63%
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