Pauline Vorburger scite author profile

Pauline Vorburger

2Publications

10Citation Statements Received

26Citation Statements Given

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Affiliations

Institut de Chimie de Strasbourg, University of Strasbourg

Publications

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A question of flexibility in cytochrome c oxidase models

Vorburger

Choua

et al. 2017

Inorganica Chimica Acta

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The structure-property relationships were compared for the iron and iron-copper complexes of two functional cytochrome c oxidase models, 1 and 2, both constructed upon a phenanthroline-strapped porphyrin bearing respectively pyridyl or picolinyl built-in proximal and distal ligands. The behavior of these heme models in the absence and in the presence of copper was studied by 1 H NMR, UV-visible absorption, EPR, Raman and FTIR spectroscopies, electrochemistry in solution and deposited on a rotating ring-disk graphite electrode. The distal binding site within the phenanthroline pocket of both 1 and 2 is available for the coordination of exogenic ligands, yet the oxygen binding affinity is higher for all complexes of 2 than for 1.Despite this difference, [1Fe II Cu I ] more efficiently reproduced the electrocatalyzed reduction of 2 oxygen to water than [2Fe II Cu I ]. The oxygenated complexes of both iron(II)-copper(I) species mimic the ability of cytochrome c oxidase to reversibly bind O2, as shown by competitive binding studies in the presence of CO. Differences in the binding and electrocatalytic properties of these models stem from difference in rigidity of scaffolds upon binding of both the proximal and distal ligands, as well as from the bulkiness of the distal ligand. KEYWORDS Cytochrome c oxidase, heme protein models, porphyrin, phenanthroline, oxygen binding, carbon monoxide binding.

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Coordination controlled atropoisomerism in phenanthroline-strapped porphyrins: A swinging affair

Vorburger

Wytko

Weiss

2014

J. Porphyrins Phthalocyanines

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A phenanthroline-strapped porphyrin bearing two pyridine side arms attached to opposite meso positions was designed as a potential cytochrome c oxidase model and its zinc and copper(I)-zinc complexes were prepared. In the zinc porphyrin complex, the pyridine arms underwent a rapid exchange of their coordination to the zinc atom on the open face of the strapped-porphyrin, as demonstrated by variable temperature NMR studies. Only the β2 atropoisomer was observed for the zinc complex because of the rapid exchange. This swinging motion no longer occurred when Cu I was bound within the phenanthroline strap. In this Cu I / Zn II complex, the αβ atropoisomer predominated and one pyridine was coordinated to the zinc atom on the proximal side and the other pyridine was bound to the copper on the distal face. This work shows that allostery can be effective to control atropoisomery in phenanthroline strapped porphyrin as heme protein models.

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