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Insights on the Conformational Ensemble of Cyt C Reveal a Compact State during Peroxidase Activity.

Biophysical journal (2019-12-08)
Emily E Chea, Daniel J Deredge, Lisa M Jones
RESUMEN

Cytochrome c (cyt c) is known for its role in the electron transport chain but transitions to a peroxidase-active state upon exposure to oxidative species. The peroxidase activity ultimately results in the release of cyt c into the cytosol for the engagement of apoptosis. The accumulation of oxidative modifications that accompany the onset of the peroxidase function are well-characterized. However, the concurrent structural and conformational transitions of cyt c remain undercharacterized. Fast photochemical oxidation of proteins (FPOP) coupled with mass spectrometry is a protein footprinting technique used to structurally characterize proteins. FPOP coupled with native ion mobility separation shows that exposure to H2O2 results in the accumulation of a compact state of cyt c. Subsequent top-down fragmentation to localize FPOP modifications reveals changes in heme coordination between conformers. A time-resolved functional assay suggests that this compact conformer is peroxidase active. Altogether, combining FPOP, ion mobility separation, and top-down and bottom-up mass spectrometry allows us to discern individual conformations in solution and obtain a better understanding of the conformational ensemble and structural transitions of cyt c as it transitions from a respiratory role to a proapoptotic role.

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Sigma-Aldrich
Cytochrome c from bovine heart, ≥95% based on Mol. Wt. 12,327 basis, powder, suitable for mammalian cell culture
Sigma-Aldrich
N,N′-Dimethylthiourea, 99%