Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography

Izumi Ishigami; Sergio Carbajo; Nadia Zatsepin; Masahide Hikita; Chelsie E. Conrad; Garrett Nelson; Jesse Coe; Shibom Basu; Thomas Grant; Matthew H. Seaberg; Raymond G. Sierra; Mark S. Hunter; Petra Fromme; Raimund Fromme; Denis L. Rousseau; Syun Ru Yeh

doi:10.1021/jacs.3c07803

Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography

Izumi Ishigami, Sergio Carbajo, Nadia Zatsepin, Masahide Hikita, Chelsie E. Conrad, Garrett Nelson, Jesse Coe, Shibom Basu, Thomas Grant, Matthew H. Seaberg, Raymond G. Sierra, Mark S. Hunter, Petra Fromme, Raimund Fromme, Denis L. Rousseau, Syun Ru Yeh

Biochemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cytochrome c oxidase (CcO) is a large membrane-bound hemeprotein that catalyzes the reduction of dioxygen to water. Unlike classical dioxygen binding hemeproteins with a heme b group in their active sites, CcO has a unique binuclear center (BNC) composed of a copper atom (Cu_B) and a heme a₃ iron, where O₂ binds and is reduced to water. CO is a versatile O₂ surrogate in ligand binding and escape reactions. Previous time-resolved spectroscopic studies of the CO complexes of bovine CcO (bCcO) revealed that photolyzing CO from the heme a₃ iron leads to a metastable intermediate (Cu_B-CO), where CO is bound to Cu_B, before it escapes out of the BNC. Here, with a pump-probe based time-resolved serial femtosecond X-ray crystallography, we detected a geminate photoproduct of the bCcO-CO complex, where CO is dissociated from the heme a₃ iron and moved to a temporary binding site midway between the Cu_B and the heme a₃ iron, while the locations of the two metal centers and the conformation of Helix-X, housing the proximal histidine ligand of the heme a₃ iron, remain in the CO complex state. This new structure, combined with other reported structures of bCcO, allows for a clearer definition of the ligand dissociation trajectory as well as the associated protein dynamics.

Original language	English (US)
Pages (from-to)	22305-22309
Number of pages	5
Journal	Journal of the American Chemical Society
Volume	145
Issue number	41
DOIs	https://doi.org/10.1021/jacs.3c07803
State	Published - Oct 18 2023

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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Ishigami, I., Carbajo, S., Zatsepin, N., Hikita, M., Conrad, C. E., Nelson, G., Coe, J., Basu, S., Grant, T., Seaberg, M. H., Sierra, R. G., Hunter, M. S., Fromme, P., Fromme, R., Rousseau, D. L., & Yeh, S. R. (2023). Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography. Journal of the American Chemical Society, 145(41), 22305-22309. https://doi.org/10.1021/jacs.3c07803

Ishigami, I, Carbajo, S, Zatsepin, N, Hikita, M, Conrad, CE, Nelson, G, Coe, J, Basu, S, Grant, T, Seaberg, MH, Sierra, RG, Hunter, MS, Fromme, P, Fromme, R, Rousseau, DL & Yeh, SR 2023, 'Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography', Journal of the American Chemical Society, vol. 145, no. 41, pp. 22305-22309. https://doi.org/10.1021/jacs.3c07803

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title = "Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography",

abstract = "Cytochrome c oxidase (CcO) is a large membrane-bound hemeprotein that catalyzes the reduction of dioxygen to water. Unlike classical dioxygen binding hemeproteins with a heme b group in their active sites, CcO has a unique binuclear center (BNC) composed of a copper atom (CuB) and a heme a3 iron, where O2 binds and is reduced to water. CO is a versatile O2 surrogate in ligand binding and escape reactions. Previous time-resolved spectroscopic studies of the CO complexes of bovine CcO (bCcO) revealed that photolyzing CO from the heme a3 iron leads to a metastable intermediate (CuB-CO), where CO is bound to CuB, before it escapes out of the BNC. Here, with a pump-probe based time-resolved serial femtosecond X-ray crystallography, we detected a geminate photoproduct of the bCcO-CO complex, where CO is dissociated from the heme a3 iron and moved to a temporary binding site midway between the CuB and the heme a3 iron, while the locations of the two metal centers and the conformation of Helix-X, housing the proximal histidine ligand of the heme a3 iron, remain in the CO complex state. This new structure, combined with other reported structures of bCcO, allows for a clearer definition of the ligand dissociation trajectory as well as the associated protein dynamics.",

author = "Izumi Ishigami and Sergio Carbajo and Nadia Zatsepin and Masahide Hikita and Conrad, {Chelsie E.} and Garrett Nelson and Jesse Coe and Shibom Basu and Thomas Grant and Seaberg, {Matthew H.} and Sierra, {Raymond G.} and Hunter, {Mark S.} and Petra Fromme and Raimund Fromme and Rousseau, {Denis L.} and Yeh, {Syun Ru}",

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T1 - Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography

AU - Ishigami, Izumi

AU - Carbajo, Sergio

AU - Zatsepin, Nadia

AU - Hikita, Masahide

AU - Conrad, Chelsie E.

AU - Nelson, Garrett

AU - Coe, Jesse

AU - Basu, Shibom

AU - Grant, Thomas

AU - Seaberg, Matthew H.

AU - Sierra, Raymond G.

AU - Hunter, Mark S.

AU - Fromme, Petra

AU - Fromme, Raimund

AU - Rousseau, Denis L.

AU - Yeh, Syun Ru

PY - 2023/10/18

Y1 - 2023/10/18

N2 - Cytochrome c oxidase (CcO) is a large membrane-bound hemeprotein that catalyzes the reduction of dioxygen to water. Unlike classical dioxygen binding hemeproteins with a heme b group in their active sites, CcO has a unique binuclear center (BNC) composed of a copper atom (CuB) and a heme a3 iron, where O2 binds and is reduced to water. CO is a versatile O2 surrogate in ligand binding and escape reactions. Previous time-resolved spectroscopic studies of the CO complexes of bovine CcO (bCcO) revealed that photolyzing CO from the heme a3 iron leads to a metastable intermediate (CuB-CO), where CO is bound to CuB, before it escapes out of the BNC. Here, with a pump-probe based time-resolved serial femtosecond X-ray crystallography, we detected a geminate photoproduct of the bCcO-CO complex, where CO is dissociated from the heme a3 iron and moved to a temporary binding site midway between the CuB and the heme a3 iron, while the locations of the two metal centers and the conformation of Helix-X, housing the proximal histidine ligand of the heme a3 iron, remain in the CO complex state. This new structure, combined with other reported structures of bCcO, allows for a clearer definition of the ligand dissociation trajectory as well as the associated protein dynamics.

AB - Cytochrome c oxidase (CcO) is a large membrane-bound hemeprotein that catalyzes the reduction of dioxygen to water. Unlike classical dioxygen binding hemeproteins with a heme b group in their active sites, CcO has a unique binuclear center (BNC) composed of a copper atom (CuB) and a heme a3 iron, where O2 binds and is reduced to water. CO is a versatile O2 surrogate in ligand binding and escape reactions. Previous time-resolved spectroscopic studies of the CO complexes of bovine CcO (bCcO) revealed that photolyzing CO from the heme a3 iron leads to a metastable intermediate (CuB-CO), where CO is bound to CuB, before it escapes out of the BNC. Here, with a pump-probe based time-resolved serial femtosecond X-ray crystallography, we detected a geminate photoproduct of the bCcO-CO complex, where CO is dissociated from the heme a3 iron and moved to a temporary binding site midway between the CuB and the heme a3 iron, while the locations of the two metal centers and the conformation of Helix-X, housing the proximal histidine ligand of the heme a3 iron, remain in the CO complex state. This new structure, combined with other reported structures of bCcO, allows for a clearer definition of the ligand dissociation trajectory as well as the associated protein dynamics.

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

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ER -

Detection of a Geminate Photoproduct of Bovine Cytochrome c Oxidase by Time-Resolved Serial Femtosecond Crystallography

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